CN114938913A - Cooking machine - Google Patents

Abstract

The invention proposes a cooking machine comprising: the machine shell comprises a machine base, a machine body and a machine head; an electromagnetic heating module; the nano microcrystalline glass heating module is positioned between the electromagnetic heating module and the machine head; the control module determines to start the first mode or the second mode according to the mode selection information; after the first mode or the second mode is started, judging the current state of the nano microcrystalline glass heating module; when the mode is the first mode, the nano microcrystalline glass heating module is driven to rotate under the condition that no cooking container is arranged on the nano microcrystalline glass heating module, so that the nano microcrystalline glass heating module is in an upward turning state or the nano microcrystalline glass heating module is kept in the upward turning state; when the mode is the second mode, the nano microcrystalline glass heating module is driven to rotate under the condition that no cooking container is arranged on the electromagnetic heating module, so that the nano microcrystalline glass heating module is in a put-down state or the nano microcrystalline glass heating module is kept in the put-down state; two heating technologies are integrated on one cooking machine.

Description

Cooking machine

Technical Field

The invention belongs to the field of cooking equipment, and particularly relates to a cooking machine.

Background

Most mainstream brands's domestic cooking machine generally adopts the electromagnetic heating technique on the market now, make the cooking machine can only heat metal cooking container, non-metallic's such as unable heating earthenware pot cooking container, also can't realize the function of boiling tea, and, at the culinary art in-process, the steam that produces during the culinary art is great, steam condenses on display module's the operation panel very easily, influence the demonstration of operation panel, and influence the key operation of the operating area on the touch operation panel, user experience has been reduced, make user's satisfaction decline, and the structure is complicated, unreliable, with high costs, can't satisfy the demand of family or enterprise.

Disclosure of Invention

The present invention is directed to solving, at least to some extent, one of the technical problems in the related art. For this purpose,

according to an embodiment of the present disclosure, there is provided a cooking machine including:

the machine shell comprises a machine base, a machine body positioned above the machine base and a machine head positioned on the front side of the machine body;

the electromagnetic heating module is arranged on the base;

the nano microcrystalline glass heating module is rotatably connected to the machine shell and is positioned between the electromagnetic heating module and the machine head;

the control module is configured to determine to start the first mode or the second mode according to the mode selection information; after the first mode or the second mode is started, judging the current state of the nano microcrystalline glass heating module;

when the mode is the first mode, according to the current state of the nano microcrystalline glass heating module, under the condition that no cooking container is arranged on the nano microcrystalline glass heating module, the nano microcrystalline glass heating module is driven to rotate, so that the nano microcrystalline glass heating module is in an upward turning state or the nano microcrystalline glass heating module is kept in the upward turning state;

when the heating module is in the second mode, according to the current state of the nano microcrystalline glass heating module, the nano microcrystalline glass heating module is driven to rotate under the condition that no cooking container is arranged on the electromagnetic heating module, so that the nano microcrystalline glass heating module is in a put-down state or the nano microcrystalline glass heating module is kept in a put-down state.

Respectively heating by using an electromagnetic heating module through mode selection to perform cooking in a first mode and heating by using a nano microcrystalline glass heating module to perform cooking in a second mode, and setting a cooking machine to be provided with the electromagnetic heating module and the nano microcrystalline glass heating module so as to integrate two heating technologies on one cooking machine; and make nanometer microcrystalline glass heating module detectable before the rotation whether have the culinary art container, overturn the culinary art container when preventing to switch to realize intelligent switching, improve intellectuality greatly.

According to the embodiment of the disclosure, a second reed switch is arranged in the nano microcrystalline glass heating module, a second magnet corresponding to the second reed switch is arranged at the front of the machine body, the second reed switch generates a signal when being close to the second magnet, the control module judges the current state of the nano microcrystalline glass heating module by utilizing whether the second reed switch has the signal or not, when the second reed switch has the signal, the nano microcrystalline glass heating module is in an upward turning state, and when the second reed switch has no signal, the nano microcrystalline glass heating module is in a putting down state, so that the recognition of the state of the nano microcrystalline glass heating module can be stably realized.

According to the embodiment of the disclosure, when the heating module is in the second mode, after the nano microcrystalline glass heating module is ensured to be in the laid-down state, the control module judges whether a cooking container in the second mode exists on the nano microcrystalline glass heating module, when the cooking container in the second mode does not exist, the control module reminds the user to place the cooking container in the second mode, and when the cooking container in the second mode exists on the nano microcrystalline glass heating module, the control module runs a program in the second mode, controls the state of the nano microcrystalline glass heating module according to the program in the second mode, and ensures normal cooking in the second mode.

According to the embodiment of the disclosure, a first reed switch is arranged in the nano microcrystalline glass heating module, a first magnet is embedded in the bottom of the cooking container in the second mode, the first reed switch generates a signal when being close to the first magnet, the control module judges whether the cooking container in the second mode exists on the nano microcrystalline glass heating module by using whether the first reed switch has the signal or not, when the first reed switch has the signal, the cooking container in the second mode exists on the nano microcrystalline glass heating module, when the first reed switch does not have the signal, the cooking container in the second mode does not exist on the nano microcrystalline glass heating module, and the recognition of whether the cooking container in the second mode exists on the nano microcrystalline glass heating module or not can be stably realized.

According to the embodiment of the disclosure, when the mode is the first mode, after the nano microcrystalline glass heating module is ensured to be in the upturning state, the control module judges whether a cooking container in the first mode exists on the electromagnetic heating module, when the cooking container in the first mode is not arranged, the control module reminds the user to place the cooking container in the first mode, and when the cooking container in the first mode exists on the electromagnetic heating module, the control module runs a program in the first mode, controls the state of the electromagnetic heating module according to the program in the first mode, and ensures normal operation of cooking in the first mode.

According to the embodiment of the disclosure, the battery heating module is provided with a coil panel arranged in the machine base and a heat transfer plate arranged at the top of the machine base, the electromagnetic heating module is provided with a second temperature sensor which is arranged in the machine base and is provided with an elastic column protruding out of the upper plate surface of the heat transfer plate, the lower part of the second temperature sensor is provided with a second microswitch, when a cooking container in a first mode is placed on the electromagnetic heating module, the elastic column of the second temperature sensor is pressed down, the second microswitch is pressed down by the second temperature sensor, the second microswitch is provided with a signal when the second microswitch is pressed down, the control module judges whether the cooking container in the first mode is on the electromagnetic heating module by utilizing whether the second microswitch is provided with a signal, when the second microswitch is provided with a signal, the cooking container in the first mode is on the electromagnetic heating module, when the second microswitch does not have a signal, the electromagnetic heating module does not have a cooking container in the first mode, so that the cooking container in the first mode can be identified on the electromagnetic heating module more stably.

According to the embodiment of the disclosure, nanometer microcrystalline glass heating module is including placing the seat, locating and placing a top and be used for placing and heating the nanometer microcrystalline glass hot plate of the culinary art container under the second mode, it is equipped with driven gear with the junction of placing the seat bottom and placing the lateral part that the seat is close to the fuselage to place, the cooking machine still includes actuating mechanism and driving gear, actuating mechanism drive driving gear rotates and drives driven gear and rotate in order to drive nanometer microcrystalline glass heating module and rotate and make nanometer microcrystalline glass heating module put down or upwards turn-up, only needs a key operation can realize automatic switch-over, improves user's convenience greatly.

According to this disclosed embodiment, place the seat have place the seat diapire just place and be equipped with nanometer microcrystalline glass heating module louvre on the seat diapire, it is equipped with nanometer microcrystalline glass heating module fan in the seat to place, when nanometer microcrystalline glass heating module is in the state of upwards turning up, nanometer microcrystalline glass heating module fan passes through nanometer microcrystalline glass heating module louvre outwards bloies, makes when electromagnetic heating module heating make on the electromagnetic heating module culinary art container produce steam condensation to the front bezel of aircraft nose and on the aircraft nose bottom plate.

According to the embodiment of the disclosure, the nanometer glass-ceramic heating module further comprises a heat insulation plate arranged below the nanometer glass-ceramic heating plate, so that heat generated by the nanometer glass-ceramic heating plate can upwards flow to heat the cooking container.

According to the embodiment of the disclosure, the electromagnetic heating module comprises a coil panel arranged in the machine base and a heat transfer plate arranged above the coil panel and used for placing the cooking container in the first mode, and one side, close to the machine body, of the heat transfer plate is provided with a heat transfer plate avoiding groove for avoiding the driven gear, so that the electromagnetic heating module is convenient to install.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a perspective view of a cooking machine according to an embodiment of the present disclosure in a second mode;

fig. 2 is a perspective view of a cooking machine according to an embodiment of the present disclosure in a first mode;

FIG. 3 is an exploded view of a cooking machine according to an embodiment of the present disclosure;

FIG. 4 is another exploded view of a cooking machine according to an embodiment of the present disclosure;

fig. 5 is an exploded view of a partial structure of a cooking machine according to an embodiment of the present disclosure;

FIG. 6 is an enlarged view at A in FIG. 5;

FIG. 7 is another exploded view of a cooking machine according to an embodiment of the present disclosure;

fig. 8 is another exploded view of a cooking machine according to an embodiment of the present disclosure;

FIG. 9 is an enlarged view at B in FIG. 8;

FIG. 10 is a schematic view of a partial structure of a cooking machine according to an embodiment of the present disclosure;

FIG. 11 is a schematic view of another partial structure of a cooking machine according to an embodiment of the present disclosure;

FIG. 12 is a side cross-sectional view of a cooking machine according to an embodiment of the present disclosure;

FIG. 13 is an enlarged view at C of FIG. 12;

FIG. 14 is another side cross-sectional view of a cooking machine according to an embodiment of the present disclosure;

FIG. 15 is an enlarged view at D of FIG. 14;

FIG. 16 is another side cross-sectional view of a cooking machine according to an embodiment of the present disclosure;

FIG. 17 is an enlarged view at E of FIG. 16;

FIG. 18 is a perspective view of a cooking machine with a nanocrystalline glass heating module removed according to an embodiment of the present disclosure;

FIG. 19 is a side view of a cooking machine with a nanocrystalline glass heating module removed according to an embodiment of the present disclosure;

FIG. 20 is a perspective view of another perspective of the cooking machine after removal of the nanocrystalline glass heating module according to an embodiment of the present disclosure;

FIG. 21 is an enlarged view at F of FIG. 20;

FIG. 22 is an exploded view of a cooking machine with a nanocrystalline glass heating module removed according to an embodiment of the disclosure;

FIG. 23 is a schematic view of another partial structure of a cooking machine according to an embodiment of the present disclosure;

FIG. 24 is an enlarged view at G of FIG. 23;

FIG. 25 is a schematic view of another partial structure of a cooking machine according to an embodiment of the present disclosure;

FIG. 26 is an enlarged view at H in FIG. 25;

FIG. 27 is a schematic structural view of a water storage cartridge according to an embodiment of the present disclosure;

FIG. 28 is another partial schematic view of a cooking machine according to an embodiment of the present disclosure;

FIG. 29 is a schematic structural diagram of a display module according to an embodiment of the present disclosure;

FIG. 30 is a schematic structural view of a camera and camera mount according to an embodiment of the present disclosure;

FIG. 31 is an enlarged view at I of FIG. 30;

FIG. 32 is a schematic view of another perspective of a camera and camera mount according to an embodiment of the present disclosure;

FIG. 33 is a front view of a camera and camera mount according to an embodiment of the present disclosure;

FIG. 34 is a schematic view of another perspective of a camera and camera mount according to an embodiment of the present disclosure;

FIG. 35 is a cross-sectional view of a camera and camera mount according to an embodiment of the present disclosure;

FIG. 36 is a schematic structural diagram of a display module according to an embodiment of the present disclosure;

FIG. 37 is another schematic structural diagram of a display module according to an embodiment of the present disclosure;

FIG. 38 is a schematic structural view of a water storage cartridge according to an embodiment of the present disclosure;

FIG. 39 is a schematic structural view from another perspective of a water storage cartridge according to an embodiment of the present disclosure;

fig. 40 is a partial flow chart of operation of a cooking machine according to an embodiment of the present disclosure.

In the above figures: a housing 1; a housing top plate 101; a case side plate 102; a card slot 1021; a mounting hole 103; a base 11; a base lower housing 1101; a base upper shell 1102; upper shell through hole 11021; an extension plate 11022; a rotation hole 11023; a bottom air outlet 1111; an air deflector 1112; a lower air inlet 114; a body 12; a body ceiling 121; a fuselage side panel 122; a body rear plate 123; a back plate 1231; a water storage box connection 1232; a water storage box mount 12321; a first connecting plate 12322; second web 12323; a second step 12324; first step 12325; a fuselage front panel 124; a front air outlet 1241; a head 13; a head top plate 131; a head base plate 132; water outlet holes 1321 of the bottom plate; a handpiece clamping plate 1322; a water outlet box placement slot 1323; a head front plate 133; front plate through-hole 1331; sound-permeable holes 1332; a head side plate 134; an upper case 14; an upper case top plate 141; an upper case side plate 142; an upper case back plate 143; an upper inlet aperture 144; a water outlet box 21; a water injection port 211; an outlet chamber 212; a water outlet box water inlet 214; the instant heating module 22; a water pump 23; a water storage box 24; a first slot 241; a water outlet 242 of the water storage box; a water outlet part bottom plate 2421; the water outlet 243 of the water storage box; a water storage box outlet pipe 244; a rubber connector 25; a connector through hole 251; a first microswitch 26; i.e. thermal module connector 27; a display module 3; an operation panel 31; a display area 311; an operation area 312; a display panel 32; a spring 33; a digital display screen 34; a shield 35; a power converter 41; a circuit board 42; a circuit board placing case 43; a heat sink 44; a first fan 45; a second temperature sensor 46; a horn 47; a second microswitch 49; an electromagnetic heating module 5; a coil disk 51; a heat transfer plate 52; heat transfer plate escape groove 521; an air duct outer cover 61; a first air duct 621; a second air duct 622; a second fan 63; a camera 71; a camera mount 72; a mount top plate 721; mount side plate 722; a snap projection 7221; a scanning slot 723; scanning the slot front side wall 7231; scanning the slot rear side wall 7232; scanning the slot inner sidewall 7233; a camera through hole 7234; scanning cell bottom wall 7235; a camera mounting channel 724; a second mating groove 725; a baffle 726; a third mating groove 727; a nano microcrystalline glass heating module 8 and a placing seat 81; a lower housing 811; the nanometer microcrystalline glass heating module comprises heat dissipation holes 8111; a spin column 8112; a seat top shell 812; a placing seat through hole 8121; a nano-glass ceramic heating plate 82; a heat shield 83; a driven gear 841; a drive mechanism 842; a drive gear 843; a nano microcrystalline glass heating module fan 85; a second reed switch 91; a second magnet 92; a first reed switch 93; a first magnet 94.

Detailed Description

The invention is described in detail below by way of exemplary embodiments. It should be understood, however, that elements, structures and features of one embodiment may be beneficially incorporated in other embodiments without further recitation.

The invention provides a cooking machine which can realize the functions of making noodles, boiling dumplings, boiling tea and the like, and with reference to a figure 1, the cooking machine comprises a machine shell 1. Referring to fig. 18, the cabinet 1 has a cabinet top plate 101 at the top thereof and cabinet side plates 102 at the sides thereof, wherein the cabinet side plates 102 include a cabinet left side plate and a cabinet right side plate which are disposed at the left and right sides of the cabinet and are disposed oppositely.

Referring to fig. 2, the cabinet 1 includes a base 11, a body 12, and a head 13, the body 12 is coupled above the base 11, the head 13 is coupled to a front side of the body 12, and a front end of the base protrudes from the front side of the body.

When the cooking machine is used, the side facing the user is the front side of the housing, the side opposite to the front side is the rear side, the left side of the user is defined as the left side of the cooking machine, and the right side of the user is defined as the right side of the cooking machine.

Referring to fig. 19 to 20, the head 13 includes a head top plate 131 at the top thereof, a head bottom plate 132 at the bottom thereof, a head front plate 133 at the front thereof, and a head side plate 134 at the side thereof.

The fuselage 12 includes a top fuselage panel 121 at the top thereof, side fuselage panels 122 at the sides thereof, a rear fuselage panel 123 at the rear thereof, and a front fuselage panel 124 at the front thereof and below the nose.

The body 12 and the head 13 are combined to form the upper case 14, and the upper case 14 has an upper case top plate 141 at the top thereof, upper case side plates 142 at the sides thereof, and an upper case rear plate 143 at the rear thereof.

Since the body 12 and the head 13 form an upper case, the upper case top plate 141 is composed of the body top plate 121 and the head top plate 131. The upper shell side plate 142 is composed of a body side plate 122 and a head side plate 134. The body rear plate 123 is an upper case rear plate 143.

The cooking machine further comprises a water injection system connected to the housing such that the housing provides support for the water injection system. The water injection system is used for providing water for cooking, wherein the water injection system can provide normal temperature water and water heated to a certain temperature.

Referring to fig. 21 and 25-27, the water injection system includes a water injection port 211, and water can flow out of the water injection port 211 to supply water. The water injection port 211 is provided on the handpiece, wherein the water injection port 211 may be provided on the handpiece base plate 131. Of course, the water injection port 211 may be provided on the head front plate or the body front plate.

When water filling port 211 is provided on the head base plate, a certain distance is required between the head and the base so that the cooking container can be disposed between the head and the base to receive water.

The water injection system can further comprise a water outlet box 21, the water outlet box 21 is arranged in the machine shell 1, a water outlet cavity 212 is formed in the water outlet box 21, a water injection port 211 is formed at the bottom of the water outlet box 21 and communicated with the water outlet cavity, a bottom plate water outlet 1321 is formed in the bottom plate of the machine head, and the water injection port is arranged at a bottom plate water outlet 1321 and can be positioned on the upper side of the bottom plate water outlet 1321 and connected with the bottom plate water outlet 1321, or the water injection port is positioned in the bottom plate water outlet 1321, or the water injection port penetrates through the bottom plate water outlet 1321 and protrudes out of the lower surface of the bottom plate of the machine head.

Go out water box 21 and connect the inboard at the aircraft nose bottom plate, it is concrete, go out water box 21 joint in the inboard of aircraft nose bottom plate, be equipped with at least a pair of aircraft nose cardboard 1322 that sets up relatively on the aircraft nose bottom plate, be equipped with the cardboard arch on the relative face that sets up of two aircraft nose cardboard 1322 in pairs, be equipped with out water box pit on the relative both sides wall of water box 21, cardboard protruding card makes out water box 21 joint on the aircraft nose bottom plate in going out the water box pit.

Be equipped with out water box standing groove 1323 on the aircraft nose bottom plate, go out water box 21 and place in going out water box standing groove 1323 and the joint is on the aircraft nose bottom plate, and the aircraft nose cardboard can be located the lateral wall top of going out water box standing groove.

The water injection system still includes instant heating module 22, and instant heating module 22 can carry out quick heating to water in it, can set up instant heating module's leaving water temperature promptly, and instant heating module's leaving water temperature sets up and starts instant heating module after accomplishing promptly, to carrying in the instant heating module and being less than this water that sets up the temperature, after starting instant heating module, instant heating module can output the water of uniform temperature, and leaving water temperature can satisfy the requirement of the temperature of setting for.

The instant heating module is arranged in the machine shell, the water outlet of the instant heating module is communicated with the water filling port 211, and water flowing out of the instant heating module 22 flows to the water filling port and then flows out of the water filling port.

Specifically, the water outlet of the instant heating module is connected with the water outlet box 21 through a connecting water pipe, the water outlet box is provided with a water outlet box water inlet 214, and the water outlet of the instant heating module is communicated with the water outlet box water inlet 214 of the water outlet box through the connecting water pipe.

The instant heating module heats up to 150 ℃ continuously, the instant heating module needs to be cooled, a first temperature sensor is arranged in the instant heating module to continuously monitor the temperature of the heating pipe in the instant heating module, the temperature of the heating pipe is in a controllable range, normal operation of the instant heating module can be guaranteed, and influence on normal work of the instant heating module due to overheating of the instant heating module is avoided.

The upper end of the instant heating module is connected to the machine head bottom plate through an instant heating module connecting piece 27, and the lower end of the instant heating module is connected to the machine body front plate.

The water injection system still includes water pump 23, and water pump 23 locates and holds the intracavity and be located the below of instant heating module, and the delivery port of water pump 23 and the water inlet intercommunication of instant heating module for the water pump supplies water in to instant heating module. The water pump, the instant heating module and the water filling port are arranged, so that the cooking machine can output hot water for cooking.

Referring to fig. 22-24 and 38-39, the water injection system further includes a water storage box 24 for supplying water to a water pump, and the water pump 23 pumps the water in the water storage box 24 into the water pump and then into the instant heating module.

The water storage box 24 is fixed on the machine body, the water storage box for supplying water is arranged on the machine body, water can be conveniently taken by the cooking machine, and the water storage box 24 is fixed on the rear plate 123 of the machine body. The fuselage back plate includes backplate 1231 and water storage box connecting piece 1232 that control the setting, and one side of fuselage back plate is located to water storage box connecting piece 1232, and the backplate is located the other side of fuselage back plate, and the outside at water storage box connecting piece is installed to the water storage box.

Be equipped with first step 12325 on the water storage box connecting piece, be equipped with water storage box mount pad 12321 that sets up on the step face of first step, water storage box mount pad can be for the arch that sets up on first step 12325, and the bottom of water storage box is equipped with first slot 241 that the box curb plate downwardly extending of water storage box formed, and on the step face of first step was located to the water storage box and first slot 241 pegs graft on water storage box mount pad.

The water storage box connector also has a first connecting plate 12322 provided at the front side of the first step 12325 and a second connecting plate 12323 provided at the side of the first step 12325 adjacent to the back plate.

The water storage box is characterized in that one side of the upper end of the water storage box protrudes outwards to form a water storage box water outlet part 242, the water storage box water outlet part 242 is provided with a water outlet part bottom plate 2421, a water storage box water outlet hole 243 is formed in the water outlet part bottom plate, a water storage box water outlet pipe 244 is arranged in the water storage box, one end of the water storage box water outlet pipe is connected to the water storage box water outlet hole, the other end of the water storage box water outlet pipe extends into the bottom of the water storage box, a water inlet of the water pump is communicated with the water storage box water outlet hole through a connecting water pipe, and water in the water storage box is pumped into the water pump by the water pump and is sent into the instant heating module.

The water storage box water outlet part is formed on one side, close to the second connecting plate, of the water storage box, a second step 12324 matched with the water storage box water outlet part 242 is arranged on the second connecting plate, a rubber connecting piece 25 penetrating through the step surface is installed on the step surface of the second step, a connecting piece through hole 251 is formed in the rubber connecting piece, the upper end of the connecting piece through hole is communicated with a water outlet hole of the water storage box, and the lower end of the connecting piece through hole is communicated with a water inlet of a water pump through a connecting water pipe.

The second step 12324 is further provided with a first micro switch 26 located on one side of the rubber connecting piece on the step surface for detecting whether the water storage box is installed in place, the first micro switch is provided with an elastic column, and when the water storage box is installed in place, the bottom plate of the water outlet part presses down the elastic column of the first micro switch.

Referring to fig. 28 to 29 and fig. 36 to 37, the cooking machine further includes a display module 3 for displaying information on the cooking machine, the display module being coupled to the cabinet.

The display module 3 includes an operation panel 31, the operation panel 31 is connected to a head front plate 133, specifically, a front plate through hole 1331 is provided on the head front plate, the operation panel 31 is connected to the front plate through hole 1331 of the head front plate, the operation panel 31 has a light-transmitting display region 311 and an operation region 312, and the operation panel 31 may be a glass plate. The front face of the operating plate 31 may be flush with the front face of the nose front plate.

The display module 3 further comprises a display panel 32, the display panel 32 is disposed in the accommodating cavity and located at the rear side of the operation panel, a spring 33 is fixedly connected to the front side of the display panel, and the front end of the spring abuts against the rear portion of the operation area.

The display module 3 further comprises a digital display screen 34, the digital display screen 34 being arranged between the display panel and the operation panel and being located at the rear side of the display area. The digital display screen 34 is abutted against the operation panel or has a certain clearance.

The operating panel is provided with an operating area, a light-transmitting display area, a display panel and a digital display screen, and is convenient to display in operation.

The display module can further include a shielding piece 35, the shielding piece 35 is sleeved outside the digital display screen, and the front end and the rear end of the shielding piece 35 respectively abut against the operating panel and the display panel to form a closed space (not shown) in which the digital display screen is placed in the shielding piece, so that the space where the digital display screen is located is only transparent in the display area, the digital display screen better penetrates through the display area, and the digital display screen can be clearly displayed.

The cooking machine further comprises a circuit board 42, the circuit board 42 is arranged in the accommodating cavity and located on the rear side of the display board, and the circuit board 42 is electrically connected with the display board and the digital display screen. The water pump, i.e., the thermal module, may also be electrically connected to the circuit board 42. The display module and the circuit board are arranged so that the circuit board controls the display of the display module and recognizes the function of the operation of the display module.

The cooking machine further comprises a circuit board placing box 43, the circuit board placing box 43 is arranged at the rear side of the containing cavity and located on the display panel, the circuit board placing box is opened at the rear end, the circuit board is placed in the circuit board placing box from the opening of the circuit board placing box, and the circuit board is particularly connected with the circuit board placing box in a clamping mode. The circuit board is stable and safe to fix.

The cooking machine may further include a power converter 41 for converting household electricity into electricity required for the operation of the cooking machine.

With reference to fig. 1-2 and 7-10, the cooking machine further comprises an electromagnetic heating module 5 provided on the base to heat the cooking container containing the food, the electromagnetic heating module being capable of heating the cooking container of the metal pot.

The base comprises a base lower shell 1101 and a base upper shell 1102, the base upper shell 1101 is buckled on the upper portion of the base lower shell, and an upper shell through hole 11021 is formed in the upper plate surface of the base upper shell 1102.

The electromagnetic heating module 5 comprises a coil panel 51 arranged in the engine base and a heat transfer plate 52 arranged on the top of the engine base, wherein the heat transfer plate 52 is connected above the upper shell of the engine base to cover the through hole of the upper shell. The coil disk 51 is provided below the heat transfer plates to heat the cooking vessel placed on the heat transfer plates. The heat transfer plate 52 may be a glass-ceramic or ceramic plate.

The cooking machine further has a heat sink 44, and the heat sink 44 is provided in the housing and located at the rear side of the coil disk 51 for heat dissipation.

The base bottom plate of the stand is provided with a bottom air outlet 1111 positioned at the rear part of the coil panel, and the left and right side plates of the stand and/or the front plate of the stand are provided with a lower air inlet 114 for heat dissipation.

The cooking machine is also provided with a first fan 45, the first fan is arranged in the base and positioned above the bottom air outlet, the first fan is provided with a fan air outlet facing the bottom air outlet and a fan air inlet positioned on the side part of the first fan, so that the first fan blows air downwards and enters air into the side part, and the first fan sucks air into the base from the lower air inlet and discharges the air from the bottom air outlet through the first fan.

The first fan is located on the rear side of the coil panel, the air deflector 1112 which is arranged on the side portion of the coil panel and connected to the front end of the first fan is arranged on the base plate of the engine base, and the fan air inlet of the first fan is arranged on one side, close to the coil panel, of the air deflector, so that the air deflector has an air guiding function and guides air at the coil panel into the first fan to dissipate heat of the coil panel.

The cooking machine further comprises a second temperature sensor 46 for measuring the temperature of the cooking container, the second temperature sensor is arranged in the base and is provided with an elastic column protruding out of the upper surface of the heat transfer plate, and the cooking container is placed on the heat transfer plate, so that the elastic column of the second temperature sensor can be pressed down to enable the cooking container to be in close contact with the elastic column to accurately measure the temperature of the cooking container.

The cooking machine has a heat generating component in a casing, wherein the heat generating component includes a heat module, a water pump, a circuit board, a digital display screen, a display panel, a power converter, a first fan, and a coil panel, and the heat generating component may be other components disposed in the casing.

When the heating component generates a large amount of heat, the heating component needs to be cooled so that the heating component can work normally, and therefore, a structure for heat dissipation is arranged in the cooking machine so that the cooking machine can be cooled.

Referring to fig. 25 and 28, a front air outlet 1241 is provided on the front plate of the machine body, and the front air outlet has a certain interval with the bottom plate of the machine head in the vertical direction, where the interval is greater than 15mm, so that the upward flowing water vapor generated by the cooking container has a certain space to move forward, and the water vapor is prevented from not moving out of the front side of the machine head, i.e. colliding with the lower side of the machine head.

The front air outlet holes can be multiple, the front air outlets can be round holes and/or strip holes, the front air outlets are arranged into a plurality of rows, a certain interval is formed between every two adjacent rows, and the front air outlets in each row are arranged alternately. Each row of front air outlets can be arranged along the horizontal direction.

An upper air inlet hole 144 is formed in the upper shell, the upper air inlet hole 144 is formed in the upper shell side plate and/or the upper shell rear plate, and specifically, when the upper air inlet hole is formed in the upper shell rear plate, the upper air inlet hole is formed in the rear plate.

The upper air inlet holes can be a plurality of circular holes and/or strip holes, the plurality of upper air inlet holes are arranged into a plurality of rows, a certain interval is reserved between every two adjacent rows, and the upper air inlet holes are alternately arranged for the circular holes and the strip holes. The air inlet holes on each row can be arranged along the vertical direction.

The cooking machine further comprises an air duct outer cover 61, the air duct outer cover 61 is arranged in the containing cavity, the air duct outer cover is buckled on the inner side of the front plate of the machine body and forms a first air duct 621 between the inner side and the front plate of the machine body, and the first air duct 621 is located on the rear side of the upper air outlet.

The cooking machine further comprises a second fan 63, the second fan 63 is arranged in the containing cavity, a fan air outlet of the second fan 63 is communicated with the first air channel 621, the second fan 63 sucks air from the upper air inlet hole to contain the cavity and then sends the air into the first air channel through the second fan, and the air is discharged from the front air outlet hole, so that the heat is taken away by the discharged air to dissipate the heat of the heat generating component in the containing cavity.

Through setting up the second fan, wind channel dustcoat and preceding exhaust vent make can dispel the heat in the cooking machine, guarantee the normal operating temperature of the parts that generate heat in the cooking machine, the air outlet is located the fuselage front bezel before setting up, make the heat dissipation go out the wind forward-blow, can form the air current that flows directly over the culinary art container, make the steam that the culinary art container produced forward-blow, avoid the steam condensation on the bottom plate of aircraft nose and the front bezel of aircraft nose, avoid polluting the food of water filling port and culinary art.

The second fan 63 is located on the side portion of the first air duct, the fan air outlet of the second fan 63 faces the first air duct, and a second air duct 622 which is located on the side portion of the first air duct and communicates the fan air outlet of the second fan 63 with the first air duct is further formed in the air duct outer cover, so that the second fan located on the side portion of the first air duct can also communicate the fan air outlet of the second fan with the first air duct, and the requirement of layout in the casing is met.

The second fan sets firmly on the fuselage, and wherein, the second fan sets firmly on the fuselage back plate, and the fan air intake of second fan can make the fan air outlet of second fan not towards the last air inlet towards the front side of fuselage for the wind that gets into the casing fully flows then discharges in the casing, heat dissipation that can be better. Specifically, the second fan is fixedly arranged on the inner side of the water storage box connecting piece, wherein the second fan is fixedly arranged on the inner side of the first connecting plate 12322.

Specifically, the first air duct can be horizontally arranged, when the second fan 63 is located on the upper side of the first air duct, the fan air outlet of the second fan 63 can be arranged downwards, the second air duct is located on the upper side of the first air duct, when the second fan 63 is located on the lower side of the first air duct, the fan air outlet of the second fan 63 can be arranged upwards, and the second air duct is located on the lower side of the first air duct. The second air duct can be vertically arranged and is connected with one end of the first air duct.

Referring to fig. 20-21, the front plate of the machine head is provided with a sound-transmitting hole 1332, and the cooking machine further comprises a speaker 47, which is disposed in the accommodating cavity and located at the sound-transmitting hole. When the second fan is located the first wind channel upside, the second fan can be located the rear side of loudspeaker, wherein loudspeaker also are the parts that generate heat, set up loudspeaker and can indicate user operating condition, set up the second fan and be located loudspeaker rear side, can dispel the heat for loudspeaker. The loudspeaker can also be arranged at other positions, the sound transmission hole can be arranged on the side wall of the upper shell, and the loudspeaker is arranged at the sound transmission hole.

The air outlet not only can dispel the heat to the heating element that holds the intracavity before setting up, and when the culinary art container was located on the frame and was located the aircraft nose below, still can be with setting up the steam in the culinary art container on the heat transfer plate forward blow, avoid steam upward movement condensation on the aircraft nose bottom plate, can avoid the dirty water filling port of steam, avoid the dirty aircraft nose bottom plate of condensation on the aircraft nose bottom plate and avoid the comdenstion water to drop to cause the filth to the food in the container. After the hot air is blown forwards, the hot air moves forwards along the machine head bottom plate and upwards at the intersection of the machine head bottom plate and the machine head front plate, in order to avoid the influence of condensation on the operation plate after the hot air moves upwards along the machine head front plate on observation and operation, the operation plate is arranged to be inclined backwards, and a certain included angle is formed between the front plate surface of the operation plate and an axis arranged along the vertical direction, wherein the included angle is any value from 7 degrees to 20 degrees.

The aircraft nose front bezel also can incline the setting backward and its preceding face is parallel with the preceding face of operation panel, and the setting is inclined backward to the preceding face that sets up the aircraft nose front bezel and avoids steam condensation on the aircraft nose front bezel to influence pleasing to the eye, and the preceding face of aircraft nose front bezel is parallel with the preceding face of operation panel for cooking machine outward appearance is pleasing to the eye.

Referring to fig. 30-35, the cooking machine also has a camera 71 and a camera mount 72 mounted at the intersection of the top and side panels of the cabinet.

The camera is fixedly arranged on the camera mounting seat 72, and the camera is arranged towards one side of the camera mounting seat arranged on the machine shell and towards the oblique upper side.

Make the cooking machine can automatic identification culinary art food information through setting up the camera, and place the camera and make the camera fixed stable on the mount pad, set up the camera at the lateral part of casing and towards the oblique top for the position that sets up of camera accords with people's operation custom, convenient operation.

The intersection of casing roof and casing curb plate is equipped with mounting hole 103, and the camera mount pad joint makes things convenient for the camera mount pad fixed and fixed mode simple in the mounting hole.

Specifically, the mounting hole 103 includes a first side wall and a second side wall opposite to the first side wall, the first side wall is formed on the top plate of the casing, the second side wall is formed on the side plate of the casing, the mounting hole further has a third side wall and a fourth side wall opposite to the third side wall, and the third side wall and the fourth side wall both extend from the end of the first side wall to the intersection of the top plate of the casing and the side plate of the casing and extend to the end of the second side wall.

Camera mount 72 is including the mount pad roof 721 of locating the casing roof top, connect in the below of mount pad roof and locate the mount pad curb plate 722 in the casing curb plate outside and locate the scanning groove 723 of mount pad roof and mount pad curb plate intersection, the open-top of scanning groove and its lateral part opening that is close to the casing curb plate, be equipped with camera through hole 7234 on the scanning groove cell wall, camera 71 is located and is held the intracavity, and is concrete, the inboard of camera mount pad is located to the camera and is located camera through hole department, make the camera fixed stable and difficult quilt destroy.

The scanning groove has the scanning groove front side wall 7231 and the scanning groove rear side wall 7232 that set up around and with the scanning groove front side wall and the scanning groove rear side wall inner end connected scanning groove inside wall 7233, and the camera through hole 7234 is located on the scanning groove inside wall and the inboard of scanning groove inside wall is located to the camera for the camera is difficult to be destroyed.

The camera end of camera is concave in the outer wall surface of scanning inslot lateral wall for the camera is difficult for being destroyed.

The scanning inslot lateral wall slope sets up and keeps away from the mount pad curb plate gradually by its bottom to the upper end, and the camera is perpendicular with scanning inslot lateral wall, makes things convenient for the camera scanning, avoids scanning inslot wall to shelter from the camera.

The front side wall of the scanning groove is obliquely arranged and gradually forwards from the inner end to the outer end and/or from the lower end to the upper end, and/or the rear side wall of the scanning groove is obliquely arranged and gradually backwards from the inner end to the outer end and/or from the lower end to the upper end, so that the visual angle is enlarged, and the scanning is convenient.

Specifically, three conditions that the inner side end to the outer side end and the lower end to the upper end of the front side wall of the scanning groove are gradually and independently arranged forward or are simultaneously arranged to form the inclined arrangement of the front side wall of the scanning groove are gradually and independently arranged backward or are simultaneously arranged from the inner side end to the outer side end and the lower end to the upper end of the rear side wall of the scanning groove, and the inclined arrangement of the front side wall of the scanning groove and the inclined arrangement of the rear side wall of the scanning groove can be simultaneously or independently arranged. The optimal setting is as follows: the front side wall of the scanning groove is obliquely arranged and gradually advances from the inner end to the outer end and from the lower end to the upper end, and the rear side wall of the scanning groove is obliquely arranged and gradually retreats from the inner end to the outer end and from the lower end to the upper end.

The scanning groove is provided with a bottom wall 7235 of the scanning groove, the bottom wall of the scanning groove is obliquely arranged and gradually descends from the inner end to the outer end, so that water on the bottom wall of the scanning groove conveniently flows down to avoid water accumulation at the position and the visual angle is enlarged to facilitate scanning.

The camera mount pad still has the camera installation passageway 724 that is located mount pad roof and inside wall inboard, and the camera is located in the camera installation passageway for the camera is fixed stable and can play the guard action to the camera.

The camera mount pad still has the second inserting groove 725 that is located the mount pad roof below, wherein second inserting groove 725 can be formed by mount pad roof and camera installation passageway lateral wall, still have the baffle 726 that is located the mount pad curb plate inboard on the camera mount pad, wherein baffle 726 is located scanning tank bottom wall inboard, form third inserting groove 727 between baffle and the mount pad curb plate, the casing curb plate outside is equipped with draw-in groove 1021, mount pad curb plate inboard is equipped with card protruding 7221, when the camera mount pad is installed in the mounting hole, the casing roof inserts in the second inserting groove, the casing curb plate inserts in the third inserting groove and the card protruding card is gone into the draw-in groove, make the stable card of camera mount pad on the casing and simple structure, the design of being convenient for.

Referring to fig. 1-2 and 3-6, as well as fig. 11-16, the cooking machine further includes a nanocrystalline glass heating module 8, and the nanocrystalline glass heating module 8 is rotatably connected to the housing and located between the electromagnetic heating module and the machine head.

Nanometer microcrystalline glass heating module 8 is including placing seat 81 and locating and place the nanometer microcrystalline glass hot plate 82 that seat top just was used for placing and heating the culinary art container under the second mode, and nanometer microcrystalline glass hot plate 82 heats the culinary art container that contains food, and nanometer microcrystalline glass hot plate 82 can heat non-metallic culinary art container, wherein can be for heating the glass container, and nanometer microcrystalline glass hot plate 82 can boil tea.

The nano microcrystalline glass heating plate 82 comprises a microcrystalline glass plate and a circuit arranged on the back of the microcrystalline glass plate, and the nano microcrystalline glass heating plate 82 is formed by combining the microcrystalline glass plate and the circuit and can heat a cooking container placed on the nano microcrystalline glass heating plate.

The placing seat 81 comprises a placing seat lower shell 811 and a placing seat upper shell 812, the placing seat upper shell 812 is buckled on the upper portion of the placing seat lower shell 811, a placing seat through hole 8121 is formed in the upper plate surface of the placing seat upper shell 812, and the nanometer microcrystalline glass heating plate 82 is connected above the placing seat upper shell 812 and covers the placing seat through hole 8121.

The end parts of the left and right sides of the nanometer microcrystalline glass heating module 8 close to the machine body are rotatably connected with the end parts of the left and right sides of the machine base upper shell 1102 close to the machine body. The end parts of the left side and the right side of the upper housing 1102 of the engine base close to the engine body can be limited with extension plates 11022 extending upwards from the upper housing of the engine base, the end parts of the left side and the right side of the lower housing 811 of the engine base close to the engine body and the extension plates are placed, one of the end parts is provided with a rotating hole, and the other end part is provided with a rotating column, so that the nanometer glass ceramics heating module 8 is connected with the engine shell in a rotating mode. Specifically, the left and right sides of the lower housing 811 may be provided with a rotating post 8112 near the end of the body, and the extending plate may be provided with a rotating hole 11023.

The nanometer microcrystalline glass heating module further comprises a heat insulation plate 83 arranged below the nanometer microcrystalline glass heating plate, so that heat generated by the nanometer microcrystalline glass heating plate can upwards walk to heat the cooking container.

Referring to fig. 8 and 9, a driven gear 841 is arranged at the joint of the bottom of the placing seat and the side of the placing seat close to the machine body, the cooking machine further comprises a driving mechanism 842 and a driving gear 843, the driving gear is driven by the driving mechanism to rotate to drive the driven gear to rotate so as to drive the nanometer microcrystalline glass heating module to rotate and enable the nanometer microcrystalline glass heating module to put down or turn up, automatic switching can be realized only by one-key operation, and the use convenience of a user is greatly improved. When the nano microcrystalline glass heating module is put down, the nano microcrystalline glass heating plate 82 can be horizontally arranged, and when the nano microcrystalline glass heating module is turned upwards, the nano microcrystalline glass heating plate 82 can be vertically arranged. One side of the heat transfer plate close to the machine body is provided with a heat transfer plate avoiding groove 521 for avoiding the driven gear, so that the installation is convenient.

Place the seat and have and place the seat diapire, place and be equipped with nanometer microcrystalline glass heating module louvre 8111 on the seat diapire, place and be equipped with nanometer microcrystalline glass heating module fan 85 in the seat, when nanometer microcrystalline glass heating module is in the upturning state, nanometer microcrystalline glass heating module fan outwards bloies through nanometer microcrystalline glass heating module louvre, makes the culinary art container on the electromagnetic heating module produce steam and condense on the front bezel of aircraft nose and the aircraft nose bottom plate when can avoiding the electromagnetic heating module heating.

Referring to fig. 40, the cooking machine further includes a control module (not shown) that may be disposed on the circuit board, the control module being configured to determine whether to activate the first mode or the second mode according to the mode selection information. The mode can be selected through the operation area of the display module, and the operation area can be provided with keys and can be selected through the keys. The first mode can be a noodle cooking mode, a noodle making mode or a dumpling cooking mode, and the second mode can be a tea cooking mode.

After the first mode or the second mode is started, judging the current state of the nano microcrystalline glass heating module;

when the mode is the first mode, according to the current state of the nano microcrystalline glass heating module, under the condition that no cooking container is arranged on the nano microcrystalline glass heating module, the nano microcrystalline glass heating module is driven to rotate, so that the nano microcrystalline glass heating module is in an upward turning state or the nano microcrystalline glass heating module is kept in the upward turning state;

when the heating module is in the second mode, according to the current state of the nano microcrystalline glass heating module, the nano microcrystalline glass heating module is driven to rotate under the condition that no cooking container is arranged on the electromagnetic heating module, so that the nano microcrystalline glass heating module is in a put-down state or the nano microcrystalline glass heating module is kept in a put-down state.

Respectively heating by using an electromagnetic heating module through mode selection to perform cooking in a first mode and heating by using a nano microcrystalline glass heating module to perform cooking in a second mode, and setting a cooking machine to be provided with the electromagnetic heating module and the nano microcrystalline glass heating module so as to integrate two heating technologies on one cooking machine; and make nanometer glass ceramics heating module detectable before the rotation whether have the culinary art container, overturn the culinary art container when preventing to switch to realize intelligent switching, improve intellectuality greatly.

The nanometer microcrystalline glass heating module is internally provided with a second reed switch, the front part of the machine body is provided with a second magnet corresponding to the second reed switch, the second reed switch can be clamped on the inner side of the upper shell 812 of the placing seat, and the second magnet can be embedded into the front plate of the machine body. The second reed switch can produce the signal when being close to the second magnet, and whether control module utilized the second reed switch to have the signal to judge the current state of nanometer microcrystalline glass heating module, when the second reed switch has the signal, nanometer microcrystalline glass heating module was in the state of upwards turning up, when the second reed switch does not have the signal, nanometer microcrystalline glass heating module was in the state of putting down, the discernment of the realization nanometer microcrystalline glass heating module state that can be comparatively stable.

When the heating module is in the first mode, after the nano microcrystalline glass heating module is in the upward turning state, the control module judges whether a cooking container in the first mode exists on the electromagnetic heating module, when the cooking container in the first mode is not placed, the cooking container in the first mode is placed in a reminding mode, when the cooking container in the first mode exists on the electromagnetic heating module, the control module runs a program in the first mode, controls the state of the electromagnetic heating module according to the program in the first mode, and ensures normal cooking in the first mode.

The lower portion of the second temperature sensor 46 is provided with a second microswitch 49, when the cooking container in the first mode is placed on the electromagnetic heating module, the elastic column of the second temperature sensor is pressed down, the second temperature sensor is pressed down the second microswitch 49, the second microswitch 49 has a signal when the second microswitch 49 is pressed down, the control module judges whether the cooking container in the first mode exists on the electromagnetic heating module by using whether the second microswitch 49 has a signal, when the second microswitch 49 has a signal, the cooking container in the first mode exists on the electromagnetic heating module, when the second microswitch 49 has no signal, the cooking container in the first mode does not exist on the electromagnetic heating module, and the identification of whether the cooking container in the first mode exists on the electromagnetic heating module can be stably realized.

When the heating module is in the second mode, after the nano microcrystalline glass heating module is in the put-down state, the control module judges whether a cooking container in the second mode exists on the nano microcrystalline glass heating module, when the cooking container in the second mode does not exist on the nano microcrystalline glass heating module, the control module reminds the user to place the cooking container in the second mode, when the cooking container in the second mode exists on the nano microcrystalline glass heating module, the control module runs a program in the second mode, controls the state of the nano microcrystalline glass heating module according to the program in the second mode, and ensures normal cooking in the second mode.

A first reed switch is arranged in the nano microcrystalline glass heating module, a first magnet is embedded in the bottom of the cooking container in the second mode, the first reed switch is arranged in a hole in the heat insulation plate, and the first reed switch is clamped on a clamp arranged in the hole in the heat insulation plate. Can produce the signal when first tongue tube is close to first magnet, whether control module utilizes first tongue tube to have the signal to judge the culinary art container under the second mode on the nanometer microcrystalline glass heating module, when first tongue tube has the signal, have the culinary art container under the second mode on the nanometer microcrystalline glass heating module, when first tongue tube does not have the signal, do not have the culinary art container under the second mode on the nanometer microcrystalline glass heating module, can be comparatively stable realize the discernment of whether having the culinary art container under the second mode on the nanometer microcrystalline glass heating module.

Specifically, the cooking machine is started, and then a user selects a mode, wherein the mode comprises a first mode and a second mode;

when the mode is the first mode, the method specifically comprises the following steps:

s11: judging whether a signal exists in the second reed switch or not, and executing S12 when the signal does not exist in the second reed switch, wherein the nano microcrystalline glass heating module is in a laid-down state; when the second reed switch has a signal, the nano microcrystalline glass heating module is in an upward turning state, and S13 is executed;

s12: judging whether the first reed switch has a signal or not, when the first reed switch has no signal, removing the cooking container on the nano microcrystalline glass heating module, controlling the nano microcrystalline glass heating module to turn upwards, and then returning to S11; when the first reed switch has a signal, the cooking container on the nano microcrystalline glass heating module is not removed, the voice prompt removes the cooking container on the nano microcrystalline glass heating module, and then S12 is executed again;

s13: judging whether the second microswitch has a signal, when the second microswitch does not have a signal, not placing the cooking container of the electromagnetic heating module, reminding the user of placing the cooking container of the electromagnetic heating module on the electromagnetic heating module, and then executing S13 again; when the second microswitch has a signal, the cooking container of the electromagnetic heating module is placed on the electromagnetic heating module, and then the control module runs the program in the first mode and controls the state of the electromagnetic heating module according to the program in the first mode.

When the mode is the second mode, the method specifically comprises the following steps:

s21: judging whether a signal is available in the second reed switch, and executing S22 when the signal is available in the second reed switch, and the nano microcrystalline glass heating module is in an upward turning state; when the second reed switch has no signal, the nano microcrystalline glass heating module is in a laid-down state, and S23 is executed;

s22: judging whether the second microswitch has a signal, when the second microswitch has no signal, not placing the cooking container of the electromagnetic heating module, controlling the nano microcrystalline glass heating module to be put down, and then executing S21; when the second microswitch has a signal, the cooking container of the electromagnetic heating module is placed on the electromagnetic heating module, the voice prompt removes the cooking container on the electromagnetic heating module, and then S22 is executed again;

s23: judging whether the first reed switch has a signal or not, when the first reed switch has no signal, moving the cooking container on the nano microcrystalline glass heating module away to remind that the cooking container of the nano microcrystalline glass heating module is placed on the nano microcrystalline glass heating module, and then executing S13 again; when the first reed switch has a signal, the nano microcrystalline glass heating module is provided with a cooking container, and the control module runs the program in the second mode and controls the state of the nano microcrystalline glass heating module according to the program in the second mode.

Claims (10)

1. A cooking machine, characterized by comprising:

the machine shell comprises a machine base, a machine body positioned above the machine base and a machine head positioned on the front side of the machine body;

the electromagnetic heating module is arranged on the base;

the nano microcrystalline glass heating module is rotatably connected to the shell and is positioned between the electromagnetic heating module and the machine head;

a control module configured to determine to initiate the first mode or the second mode according to the mode selection information; after the first mode or the second mode is started, judging the current state of the nano microcrystalline glass heating module;

when the mode is the first mode, according to the current state of the nano microcrystalline glass heating module, under the condition that no cooking container is arranged on the nano microcrystalline glass heating module, the nano microcrystalline glass heating module is driven to rotate, so that the nano microcrystalline glass heating module is in an upward turning state or the nano microcrystalline glass heating module is kept in the upward turning state;

when the heating module is in the second mode, according to the current state of the nano microcrystalline glass heating module, the nano microcrystalline glass heating module is driven to rotate under the condition that the electromagnetic heating module is not provided with a cooking container, so that the nano microcrystalline glass heating module is in a put-down state or the nano microcrystalline glass heating module is kept in a put-down state.

2. The cooking machine according to claim 1, wherein a second reed switch is arranged in the nano microcrystalline glass heating module, a second magnet corresponding to the second reed switch is arranged at the front part of the machine body, the second reed switch generates a signal when being close to the second magnet, the control module judges the current state of the nano microcrystalline glass heating module by using whether the second reed switch has a signal, when the second reed switch has a signal, the nano microcrystalline glass heating module is in an upward turning state, and when the second reed switch does not have a signal, the nano microcrystalline glass heating module is in a down state.

3. The cooking machine according to claim 1 or 2, wherein when the second mode is selected, after the nano-microcrystalline glass heating module is ensured to be in the down state, the control module judges whether a cooking container in the second mode exists on the nano-microcrystalline glass heating module, when the nano-microcrystalline glass heating module does not exist, the control module prompts the user to place the cooking container in the second mode, and when the nano-microcrystalline glass heating module does not exist, the control module runs a program in the second mode and controls the state of the nano-microcrystalline glass heating module according to the program in the second mode.

4. The cooking machine as claimed in claim 3, wherein a first reed switch is disposed in the nano-glass heating module, a first magnet is embedded in the bottom of the cooking container in the second mode, the first reed switch generates a signal when being close to the first magnet, the control module determines whether the nano-glass heating module has the cooking container in the second mode by using whether the first reed switch has the signal, when the first reed switch has the signal, the nano-glass heating module has the cooking container in the second mode, and when the first reed switch has no signal, the nano-glass heating module has no cooking container in the second mode.

5. The cooking machine according to claim 1 or 2, wherein when the first mode is selected, after the nanocrystalline glass heating module is ensured to be in the upturned state, the control module judges whether a cooking container in the first mode exists on the electromagnetic heating module, when the cooking container in the first mode is not found, the control module prompts the user to place the cooking container in the first mode, and when the cooking container in the first mode is ensured to exist on the electromagnetic heating module, the control module runs the program in the first mode and controls the state of the electromagnetic heating module according to the program in the first mode.

6. The cooking machine of claim 5, wherein the battery heating module has a coil plate disposed in the housing and a heat transfer plate disposed on top of the housing, the electromagnetic heating module has a second temperature sensor disposed in the housing and having a resilient post protruding above an upper surface of the heat transfer plate, a second micro switch is disposed below the second temperature sensor, the resilient post of the second temperature sensor is depressed when the cooking container in the first mode is placed on the electromagnetic heating module, the second micro switch is depressed when the second temperature sensor is depressed, the second micro switch has a signal when the second micro switch is depressed, the control module determines whether the cooking container in the first mode is present on the electromagnetic heating module by using whether the second micro switch has a signal, and when the second micro switch has a signal, the electromagnetic heating module is provided with a cooking container in a first mode, and when the second microswitch does not have a signal, the electromagnetic heating module is not provided with the cooking container in the first mode.

7. The cooking machine according to claim 1 or 2, wherein the nano-microcrystalline glass heating module comprises a placing seat and a nano-microcrystalline glass heating plate which is arranged at the top of the placing seat and used for placing and heating the cooking container in the second mode, a driven gear is arranged at the joint of the bottom of the placing seat and the side part of the placing seat close to the machine body, the cooking machine further comprises a driving mechanism and a driving gear, and the driving mechanism drives the driving gear to rotate to drive the driven gear to rotate so as to drive the nano-microcrystalline glass heating module to rotate and enable the nano-microcrystalline glass heating module to be put down or turned up.

8. The cooking machine according to claim 7, wherein the placing seat has a bottom wall of the placing seat, the bottom wall of the placing seat is provided with heat dissipation holes of the nano-microcrystalline glass heating module, the placing seat is internally provided with a nano-microcrystalline glass heating module fan, and when the nano-microcrystalline glass heating module is in an upturned state, the nano-microcrystalline glass heating module fan blows air outwards through the heat dissipation holes of the nano-microcrystalline glass heating module.

9. The cooking machine of claim 7, wherein the nanocrystalline glass heating module further comprises a heat shield disposed below the nanocrystalline glass heating plate.

10. The cooking machine of claim 7 wherein said electromagnetic heating module includes a coil plate disposed in said housing and a heat transfer plate disposed above said coil plate for placement of the cooking vessel in said first mode, said heat transfer plate having a heat transfer plate escape slot disposed on a side of said heat transfer plate adjacent to said body for escaping said driven gear.

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