HK1246847A1 - Heat cooking device - Google Patents

Abstract

Provided is a heat cooking device equipped with a memory card mounting mechanism for mounting a memory card, wherein the memory card mounting mechanism has a card insertion port for inserting the memory card at the bottom surface of a main body of the heat cooking device, and is configured so that the memory card is inserted vertically upwards into the card insertion port. The card insertion port is configured so as to not be visible from the exterior of the heat cooking device due to a front grill panel which is mounted to a machine chamber that is at a lower part of the main body. Due to this configuration, a commercial heat cooking device that is highly reliable and that does not require any special waterproofing measures can be provided.

Description

Heating cooker

Technical Field

The present disclosure relates to a heating cooker for heating an object to be heated by microwave irradiation, and more particularly, to a heating cooker for business use as a heating cooker in commercial facilities such as stores such as convenience stores and fast food restaurants.

Background

In a heating cooker for business use used in shops such as convenience stores and fast food restaurants, the following configuration is used so as to be able to correspond to various menus. That is, the used configuration includes a microwave heating mode for heating and cooking the object by microwave irradiation, a grill mode for heating and cooking the object by radiation heating using a heater, and a convection mode for heating and cooking the object by causing air heated by the heater to convect in the heating chamber using a fan. In addition, in a heating cooker for business use used in a shop or the like, it is necessary to reliably execute each heating process of various heating cookings at a predetermined accurate temperature and time. Therefore, the processing conditions in each heating step are set in advance, and the set processing conditions are stored in a storage medium provided in the service heating cooker. Therefore, by using a heating cooker for business use provided with a storage medium in each store, it is possible to perform heating cooking under the same processing conditions and accurately for the same menu in accordance with the request of the customer.

As described above, the service cooking device is provided with a storage medium in which processing conditions for each cooking are stored so as to be able to support various menus. In each store or the like, since it is necessary to change the processing conditions in each heating process every time a menu is changed, a removable memory card is used as a storage medium. Therefore, it is configured to be able to easily cope with a menu change or the like by changing the memory card (for example, see patent document 1).

Since the service cooking device is always activated to quickly respond to the request of the customer, the cooling fan is operated to warm up the heating chamber. Further, since the heating cooker for business use is installed in the vicinity of a water-using area such as a kitchen in a shop, a measure against water is required in consideration of the fact that the entire apparatus is exposed to water during cooking, cleaning, and the like. Further, in the mounting mechanism to which the memory card as the storage medium is mounted, it is necessary to configure a heat insulation structure that does not allow foreign matter such as dust to enter and is not exposed to high temperature. Therefore, in the conventional heating cooker for business use, a special component is required to provide a mounting mechanism for mounting the memory card, and thus a large space needs to be secured. In addition, when a card insertion port into which a memory card is inserted is provided on the front surface side of the service cooking device, an exterior plate for covering the card insertion port needs to be provided. In addition, in the case of providing such an exterior plate covering the card insertion port, it is necessary to clearly show a mark covering the card insertion port, and it is also necessary to smooth the edge of the exterior plate so that a customer does not get hurt even if he touches the exterior plate. As a result, the conventional heating cooker for business use has a problem that the number of steps for producing components increases and the manufacturing cost increases.

In addition, in the heating cooker for business use, it is necessary to consider information leakage and the like, because the memory card is configured to be replaceable by a user who is a worker in a shop or the like, and is configured to be inaccessible to a third person.

Documents of the prior art

Patent document

Patent document 1: japanese laid-open patent publication No. 2004-212014

Disclosure of Invention

The heating cooker for business use of the present disclosure is configured such that a mechanism for mounting a memory card is not easily visible from the appearance and is configured such that a third person cannot easily reach the heating cooker. Further, the present invention has an object to provide a highly reliable heating cooker for business use with a simple structure, in which a mounting mechanism for mounting a memory card is configured so that foreign matter such as dust is hard to enter, and is not exposed to high temperature, and in which no special waterproof measures are required.

A heating cooker of one aspect of the present disclosure has: a main body having a heating chamber for accommodating an object to be heated and heating the object to be heated; a mechanical chamber which is arranged below the main body and is provided with a mechanism for forming and transmitting microwaves for heating the microwaves in the heating chamber; a front grille plate disposed to be attachable to and detachable from a front surface of the machine room; a door configured to be openable and closable with respect to the heating chamber; and a memory card mounting mechanism for mounting the memory card on the main body. The memory card attachment mechanism has a card insertion port for inserting a memory card in a lower surface of the main body, and is configured to insert the memory card vertically upward with respect to the card insertion port. The card insertion opening is configured not to be exposed to the appearance of the heating cooker through a front grill plate mounted on the machine room.

According to the present disclosure, the memory card attachment mechanism is configured to be visually unobservable from the appearance and to be inaccessible to a third person. Therefore, a highly reliable heating cooker for business use can be provided without requiring a special waterproof measure.

Drawings

Fig. 1 is a perspective view showing a state in which a door of a heating cooker according to an embodiment of the present disclosure is closed.

Fig. 2 is a perspective view showing a state in which a door of a heating cooker according to an embodiment of the present disclosure is opened.

Fig. 3 is a cross-sectional view showing a state in which a right side surface of a heating cooker according to an embodiment of the present disclosure is removed.

Fig. 4 is a perspective view of the heating cooker according to the embodiment of the present disclosure, as viewed from obliquely right above.

Fig. 5 is a perspective view of the heating cooker according to the embodiment of the present disclosure, as viewed from obliquely right below.

Fig. 6 is a perspective view of a heating cooker according to the embodiment of the present disclosure, with a front grill plate removed, viewed obliquely from below.

Fig. 7 is an enlarged view showing a memory card mounting mechanism of the heating cooker shown in fig. 6.

Fig. 8 is a diagram showing a state in which a memory card is mounted on the memory card mounting mechanism shown in fig. 7.

Fig. 9 is a side sectional view of the memory card mounting mechanism of the heating cooker of the embodiment of the present disclosure.

Fig. 10 is a side sectional view of the memory card mounting mechanism of the heating cooker of the embodiment of the present disclosure.

Detailed Description

The heating cooker of the 1 st aspect of the present disclosure includes: a main body having a heating chamber for accommodating and heating an object to be heated; a mechanical chamber which is arranged at the lower side of the main body and is provided with a mechanism for forming and transmitting microwave for microwave heating in the heating chamber; a front grille plate disposed to be attachable to and detachable from a front surface of the machine room; a door configured to be openable and closable with respect to the heating chamber; and a memory card mounting mechanism for mounting the memory card on the main body. The memory card attachment mechanism has a card insertion port for inserting a memory card in a lower surface of the main body, and is configured to insert the memory card vertically upward with respect to the card insertion port. The card insertion opening is configured not to be exposed to the appearance of the heating cooker through a front grill plate mounted on the machine room.

In the heating cooker of claim 1 of the present disclosure thus constituted, the memory card attachment mechanism is constituted so as to be visually undetectable from the external appearance and to be easily accessible to a third party, and further, a highly reliable heating cooker for business use can be provided without requiring special measures against water.

A heating cooker according to claim 2 of the present disclosure is configured such that the card insertion opening of the memory card attachment mechanism according to claim 1 is provided on a lower surface of an operation portion provided on a front surface of the main body, and the memory card attached to the memory card attachment mechanism is configured to be housed inside the operation portion.

In the heating cooker of claim 2 of the present disclosure configured as above, the operating portion itself has a structure insulated from the heating chamber, and there is no member that emits high heat inside the operating portion. Further, since the inside of the operation unit is not a ventilation path of the cooling fan or the like, the contamination of foreign matters such as dust is greatly reduced. Therefore, in the structure of the heating cooker of claim 2 of the present disclosure, it is not necessary to provide a special heat insulating structure in the memory card attachment mechanism, and it is also not necessary to provide a special structure for preventing the entry of foreign matter such as dust. Further, in the structure of the heating cooker according to claim 2 of the present disclosure, the wiring path between the memory card mounting mechanism and the circuit board in the operation unit is shortened, and the influence of noise on the wiring path can be greatly reduced.

In the heating cooker of claim 3 of the present disclosure, a card cover that covers the card insertion port of claim 2 from below is provided so as to be rotatable.

In the heating cooker of claim 3 of the present disclosure configured as described above, the heating cooker is configured as a highly reliable heating cooker in which foreign matter such as water or dust does not enter from the card insertion port of the memory card attachment mechanism.

In the heating cooker according to claim 4 of the present disclosure, in the operating portion according to claim 3, a flat surface of the memory card attached to the memory card attachment mechanism is configured to be parallel to a mounting surface of the circuit board provided in the operating portion.

In the heating cooker of the 4 th aspect of the present disclosure thus constituted, the structure inside the operation portion can be made simple, and there is an advantage that the necessary space inside the operation portion becomes small.

A heating cooker of claim 5 of the present disclosure is configured such that, with the cooling fan of claim 4 for cooling the mechanism in the machine room, outside air passes through the front grill plate and is drawn into the machine room via an outside air intake port formed on the front surface of the machine room. The memory card mounting mechanism is disposed to be offset from an outside air inflow path of the cooling fan.

In the heating cooker of claim 5 of the present disclosure thus constituted, the memory card mounting mechanism is deviated from the external air inflow path and does not exist on the path of the air flow. Therefore, the possibility of foreign matter such as dust entering is greatly reduced, and the heating cooker is highly reliable.

Hereinafter, a microwave oven as a microwave heating device capable of performing microwave heating, a grill mode, and a convection mode is used as an embodiment of the heating cooker of the present disclosure. In the following embodiments, a heating cooker as a microwave oven for business use in stores, particularly convenience stores, fast food restaurants, and the like will be described with reference to the drawings. The heating cooker of the present disclosure is not limited to the structure of the microwave oven for business use described in the following embodiments, and includes a structure based on a technical idea equivalent to that described in the following embodiments.

Hereinafter, embodiments of a heating cooker for business use according to the present disclosure will be described with reference to the drawings. In addition, some or all of the drawings are described by a summary representation for the purpose of illustration, and do not necessarily faithfully depict the actual relative sizes and positions of the elements shown therein.

Fig. 1 is a perspective view showing an appearance of a heating cooker 10 according to an embodiment of the present disclosure, and shows a state in which a door formed on a front surface of the heating cooker 10 is closed. Fig. 2 shows a state in which the door of heating cooker 10 shown in fig. 1 is open and the heating chamber formed inside heating cooker 10 is open.

The heating cooker 10 of the present embodiment is a microwave oven for business use used particularly in shops such as convenience stores and fast food restaurants, and has a configuration capable of switching between multi-level outputs with a maximum output of 1200W to 1300W.

As shown in fig. 1 and 2, the heating cooker 10 includes: a main body 1 constituting an outer box of a heating chamber; a machine chamber 2 provided below the main body 1 to support the main body 1; and a door 3 mounted on the front side of the main body 1. A detachable front grill plate 12 is provided on the front side of the machine room 2.

As shown in fig. 2, a heating chamber 4 is formed inside the main body 1. The heating chamber 4 is a substantially rectangular parallelepiped space having an opening on the front surface side (door side) for accommodating an object to be heated therein. In the following description, the side of heating chamber 4 where the opening is formed is defined as the front side of heating cooker 10, the deep side of heating chamber 4 is defined as the rear side of heating cooker 10, the right side of heating cooker 10 when heating cooker 10 is viewed from the front is simply referred to as the right side, and the left side of heating cooker 10 when heating cooker 10 is viewed from the front is simply referred to as the left side.

The door 3 is attached to the front surface side of the main body 1 so as to be vertically opened and openable and closable so as to close the opening in front of the heating chamber 4. The door 3 can be opened and closed by a user gripping a handle 5 provided on the door 3. In a state where the door 3 shown in fig. 1 is closed, the inside of the heating chamber 4 becomes a closed space in which heating treatment using microwaves or the like is performed on the stored object to be heated. The state shown in fig. 2 in which the door 3 is opened is a state in which the user takes the object to be heated out of the heating chamber 4 or puts the object to be heated into the heating chamber 4.

In the heating cooker 10 of the present embodiment, an operation unit 6 is provided on the right side of the front surface of the main body 1, and an operation button and a display screen for setting and operating processing conditions of heating cooking by the heating cooker 10 are provided on the operation unit 6.

As shown in fig. 2, a tray 7 made of ceramic (specifically, made of cordierite) and a wire rack 8 made of stainless steel are disposed in the heating chamber 4 so as to be able to be housed therein. The wire frame 8 is a placing part made of a net-like member for placing an object to be heated. The tray 7 is disposed below the wire frame 8 and is configured to receive the fat and the like dropped from the object to be heated on the wire frame 8.

In the heating cooker 10 of the present embodiment, a magnetron as a microwave generating unit is provided in the machine chamber 2 located below the heating chamber 4. The microwave from the magnetron is radiated through the waveguide from the microwave radiation hole formed in the waveguide and the opening formed on the bottom surface side of the heating chamber 4. The microwaves radiated into the heating chamber 4 through the microwave radiation holes of the waveguide and the opening formed in the bottom surface of the heating chamber 4 are stirred by the stirrer (stirrer). The heating cooker configured as described above performs microwave heating on the object to be heated stored in the heating chamber 4.

In heating cooker 10 of the present embodiment, a grill heater formed of a sheath heater is provided on the ceiling side of heating chamber 4, and the grill mode is executed by directly heating the object to be heated inside heating chamber 4 by radiant heat from the grill heater.

Further, a convection device for supplying hot air into the heating chamber 4 is provided behind the rear wall of the heating chamber 4. The convection device has a function of sucking air inside the heating chamber 4, heating the sucked air, and blowing the heated air into the heating chamber 4. In this way, hot air is supplied into the heating chamber 4 in the convection device, thereby generating a circulating flow in the heating chamber 4 by the hot air. For example, the convection device sucks air from the central region of the heating chamber 4, heats the sucked air, blows the air from the front side of the bottom surface or/and the front side of the ceiling into the heating chamber 4, and circulates hot air.

As described above, heating cooker 10 of the present embodiment is configured to be able to perform heating by microwaves from a magnetron serving as a microwave generating unit, heating by radiation using a grill heater on the upper side of heating chamber 4, and heating by a circulating flow of hot air using a convection device, separately or simultaneously.

In the heating cooker 10 of the present embodiment, a heater as a large heat source is not disposed below an object to be heated stored in a heating chamber. Therefore, the liquid such as fat dropped from the object to be heated does not contact the heater, and the cooking device is highly safe without causing smoke or fire.

A magnetron as a microwave generating unit for generating microwaves, an inverter device for driving the magnetron, a cooling fan for cooling the magnetron, the inverter device, and the like are provided inside the machine chamber 2.

In the present embodiment, 2 magnetrons are used, and the total output thereof is 1200W to 1300W. The microwaves outputted from the 2 magnetrons are transmitted through the 2 waveguides, and are radiated into the heating chamber through the microwave radiation opening formed in each waveguide and the opening formed in the bottom surface of the heating chamber 4, and are stirred by the stirrer and radiated into the heating chamber 4.

The inverter device drives the magnetron, and 2 inverter devices for driving 2 magnetrons are provided in the machine room. Further, a plurality of cooling fans for cooling the magnetron and the inverter device, respectively, are disposed in the machine room 2. In the present embodiment, 4 cooling fans are provided, each of which sucks external air from the front grill plate 12 provided on the front surface of the machine room 2 and conveys the sucked external air to the rear, thereby sequentially cooling the inverter devices and the magnetrons arranged in a column.

Further, a power supply circuit board is disposed in the machine chamber 2, and a cooling fan for cooling the power supply circuit board is provided. Fig. 3 is a cross-sectional view showing a state where the right side surface of heating cooker 10 according to the present embodiment is removed. As shown in fig. 3, a cooling fan 11 is disposed on the front surface side of the machine room 2, and air is sucked from a front grille plate 12 provided on the front surface of the machine room 2 by activation of the cooling fan 11, thereby cooling the power circuit board 9 disposed behind the cooling fan 11. The magnetron, the inverter, the waveguide, and the like provided inside the machine chamber 2 are shielded by the power supply circuit board 9 and the cooling fan 11 shown in fig. 3.

In the present embodiment, the 4 cooling fans arranged side by side for cooling the heat generating portions such as the inverter device and the magnetron, and the cooling fan 11 for cooling the power circuit board are configured by a sirocco fan or the like. These cooling fans are arranged such that their respective rotary shafts are arranged in a straight line, and are configured to take in air from the axial direction of the rotary shafts and send out the air to the rear of the machine room 2 in the outer circumferential direction. Has the following structure: the air flowing backward in the machine room 2 passes through the exhaust duct disposed on the rear surface of the main body 1, passes through between the ceiling wall of the heating room 4 and the upper surface wall of the main body 1, and is discharged from the front surface side of the main body 1. In this way, by flowing the air from the cooling fan, the upper wall of the rear wall of the main body 1 can be prevented from becoming high in temperature.

[ memory card mounting mechanism ]

In the heating cooker for business use configured as described above, a memory card attachment mechanism for attaching a small memory card, for example, an SD card, storing various processing conditions for heating cooking is provided.

Fig. 4 and 5 are perspective views showing a heating cooker 10 for business use according to the present embodiment, and show a state in which a front grill plate 12 provided on the front side of the machine chamber 2 is removed. Fig. 4 is a perspective view from obliquely above right, and fig. 5 is a perspective view from obliquely below right. Front grill plate 12 constituting the appearance of the lower part of the front side of heating cooker 10 is detachably attached to machine room 2. A plurality of plate members are vertically arranged in parallel with a predetermined gap on the front surface of the front grille plate 12, and the plate members are inclined downward so as to take in outside air from below. An external air intake port 13 is formed in the front surface of the machine room 2 from which the front grille plate 12 is removed, and a plurality of punched holes are formed in the external intake port 13. In the machine room 2 of the present embodiment, 4 cooling fans for cooling the inverter device, the magnetron, and the like, and a cooling fan 11 for cooling the power supply circuit board are arranged in parallel on the rear side of the outside air inlet 13.

Fig. 6 is a view of cooking device 10 viewed obliquely from below, with front grill plate 12 removed. As shown in fig. 6, a memory card mounting mechanism 15 is provided below the operation portion 6 located on the right front surface of the main body 1. Since front grill plate 12 is disposed directly below operation unit 6 and door 3 in a state where front grill plate 12 is attached to the front surface of machine room 2, memory card attachment mechanism 15 is configured to be invisible without being exposed to the external appearance of the heating cooker. In the present embodiment, an SD card 14 as a small-sized memory card is attached to the memory card attachment mechanism 15.

Fig. 7 is an enlarged view showing the memory card mounting mechanism 15 shown in fig. 6. In fig. 7, a state immediately before the SD card 14 is inserted into the card insertion port 16 of the memory card mounting mechanism 15 is shown. As shown in fig. 7, a card insertion slot 16 for inserting the SD card 14 upward is provided in the memory card mounting mechanism 15, and the card insertion slot 16 is provided on the lower surface of the operation portion 6.

Fig. 8 shows a state in which the SD card 14 is mounted on the card insertion port 16 of the memory card mounting mechanism 15. As shown in fig. 8, the SD card 14 is inserted so as to slightly protrude from the card insertion port 16, and since the periphery of the card insertion port 16 is formed by a concave portion, the protruding portion of the SD card 14 is enclosed by the concave portion. Therefore, in a state where the SD card 14 is mounted on the memory card mounting mechanism 15, the SD card 14 does not substantially protrude from the lower surface of the operation portion 6.

The memory card mounting mechanism 15 of the present embodiment is provided with a card cover 17, and the card cover 17 is mounted so as to cover the SD card 14 after the SD card 14 is mounted. The card cover 17 is fixed to the memory card mounting mechanism 15 by a fixing means which can be easily attached and detached, for example, a screw 18, and covers and reliably seals the card insertion port 16 to which the SD card 14 is mounted from below. Therefore, the SD card 14 can be prevented from being easily touched and attached, and the card insertion slot 16 can be reliably prevented from being contaminated with foreign matter such as dust.

Fig. 9 is a side sectional view of memory card mounting mechanism 15 of the present embodiment, and is a view of SD card 14 mounted on memory card mounting mechanism 15, as viewed from the left side. The state shown in fig. 9 is a state before the SD card 14 is mounted to the memory card mounting mechanism 15 and the card cover 17 is mounted. The state shown in the side sectional view of fig. 10 shows a state in which the card cover 17 is mounted on the memory card mounting mechanism 15 from the state of fig. 9.

As shown in fig. 9 and 10, the card cover 17 of the present embodiment is configured to be rotatable about a hinge 17 a. The card cover 17 has: a bent portion 17b formed by winding a part of the housing located at the lower end (lower surface) of the operation portion 6: and a fixing portion 17c for covering and sealing the card insertion port 16 from below. A fixing portion 17c of the card cover 17 is provided with a screw 18 as fixing means, and the fixing portion 17c is configured to securely cover the card insertion port 16 of the memory card mounting mechanism 15.

The memory card attachment mechanism 15 of the present embodiment includes: a lower face wall 21 of the operation portion 6 on which the card insertion port 16 is formed; an SD card connector 19 into which the SD card 14 is inserted and electrically connected to the control circuit; and a base 20 for holding the SD card connector 19 in the internal space of the operation part 6. The card cover 17 is attached to a lower wall 21 of the operation portion 6 where the card insertion port 16 is formed, and constitutes an actual lower surface of the operation portion 6.

As shown in fig. 9 and 10, in the memory card mounting mechanism 15, the mounting surface of the base 20 to which the SD card connector 19 is fixed is made vertical in the internal space of the operation portion 6 so that the insertion direction of the SD card connector 19 is vertically upward. The SD card connector 19 is fixed to the base 20 so that the flat surface of the mounted SD card 14 is parallel to the mounting surface (flat surface) of the circuit board (control circuit board) disposed inside the operation unit 6. Therefore, the SD card connector 19 can be arranged inside the operation portion 6 using the chassis 20 in the same manner as the other circuit boards, and the internal space of the operation portion 6 can be effectively used without requiring a special arrangement member. Further, in the heating cooker for business use of the present embodiment, the space for installing the memory card attachment mechanism 15 can be reduced, and the structure contributes to downsizing of the entire device.

The internal space of the operation portion 6 is disposed with a predetermined space in between with respect to the heating chamber 4, and since no high-temperature heat generating member is provided, the SD card connector 19 is not exposed to high temperatures. Further, since there is no member emitting large noise in the internal space of the operation section 6 and the wiring distance from the SD card connector 19 to the control circuit is short, there is little concern about malfunction when information is acquired from the SD card 14 mounted on the memory card mounting mechanism 15.

As described above, in the heating cooker of the present embodiment, the memory card attachment mechanism having the card insertion port 16 to which the memory card is attached is shielded by the front grill plate 12 detachably attached to the front surface side of the machine chamber 2, and is configured so as not to be visually recognized from the appearance of the heating cooker. Therefore, when the memory card is replaced, it is necessary to remove front grill plate 12, remove card cover 17 provided on the lower surface side of operation portion 6, and open card insertion port 16.

The card insertion slot 16 is provided on the lower surface of the operation portion 6, and the memory card is inserted vertically upward from the card insertion slot 16, whereby the memory card is mounted on the memory card mounting mechanism. Therefore, since the card insertion port 16 is surrounded by the recess portion in the lower wall 21 of the operation portion 6 and is disposed downward, a structure capable of preventing moisture from entering from the card insertion port 16 is provided, and a waterproof structure is not required for the card insertion port 16 and the memory card connector (SD card connector 19).

As described above, in the heating cooker for business use of the present embodiment, since the card insertion port is not exposed to the front surface side as in the conventional heating cooker for business use, it is not necessary to provide an exterior plate for covering the card insertion port, and of course, there is no problem that the number of man-hours for producing components is increased because there is no processing of the exterior plate.

In the heating cooker for business use of the present embodiment, the memory card attachment mechanism is an external structure that does not expose to the outside and is not visually recognized, and has a structure that cannot be easily reached by a third person. In addition, the heating cooker for business use of the present embodiment has a structure in which foreign matter such as dust is hard to enter and is not exposed to high temperature. Further, the heating cooker for business use of the present embodiment is configured to have a structure that does not require a special waterproof measure, and is a heating cooker having a simple structure and high reliability.

Although the present disclosure has been described in the above embodiments to a certain degree of particularity, the disclosure in the embodiments may of course be changed in detail in the structure, and a combination or a sequence of elements in the embodiments may be changed without departing from the scope and spirit of the disclosure as claimed.

Industrial applicability

The present disclosure relates to a structure of a heating cooker that can be used for heating and cooking an object to be heated, and is particularly useful for a heating cooker such as a microwave oven for business use used in a store such as a convenience store or a fast food restaurant.

Description of the reference symbols

1 main body

2 mechanical chamber

3 door

4 heating chamber

5 handle

6 operating part

7 tray

8 line frame

9 Power supply circuit board

10 heating cooker

11 Cooling fan

12 front grid plate

13 outside air inlet

14 SD card

15 memory card mounting mechanism

16 card insertion port

17 card cover

18 fixed unit (screw)

19 SD card connector

20 base

Claims (5)

1. A heating cooker comprising:

a main body having a heating chamber for accommodating an object to be heated and heating the object to be heated;

a machine chamber disposed below the main body and provided with a mechanism for forming and transmitting microwaves for heating the microwaves in the heating chamber;

a front grille plate disposed to be attachable to and detachable from a front surface of the machine room;

a door configured to be openable and closable with respect to the heating chamber; and

a memory card mounting mechanism for mounting a memory card on the main body,

in the heating cooker, a cooking medium is heated,

the memory card attachment mechanism has a card insertion port for inserting the memory card in a lower surface of the main body, and is configured to insert the memory card vertically upward with respect to the card insertion port,

the card insertion opening is configured not to be exposed to the external appearance of the heating cooker by the front grill plate attached to the machine room.

2. The heating cooker according to claim 1,

the card insertion port of the memory card attachment mechanism is provided on a lower surface of an operation portion provided on a front surface of the main body, and the memory card attached to the memory card attachment mechanism is configured to be housed inside the operation portion.

3. The heating cooker according to claim 2,

the cooking device is provided with a card cover which covers the card insertion opening from the lower side in a rotatable manner.

4. The heating cooker according to claim 3,

in the operation portion, a flat surface of the memory card attached to the memory card attachment mechanism is configured to be parallel to a mounting surface of a circuit board provided in the operation portion.

5. The heating cooker according to claim 4,

the cooking device is configured such that outside air is sucked into the machine chamber through an outside air suction port formed in a front surface of the machine chamber through the front grill plate by a cooling fan for cooling a heat generating component disposed in the machine chamber, and the memory card attachment mechanism is disposed so as to be offset from an outside air inflow path of the cooling fan.