CN203907694U - Micro-wave oven - Google Patents

Abstract

The utility model provides a micro-wave oven. The micro-wave oven comprises a cooking cavity body, a semiconductor micro-wave generating device, a water guiding pipe, a water supplying device and a control device, wherein the cooking cavity body is provided with a waveguide hole and a steam hole; the semiconductor micro-wave generating device is communicated with the cooking cavity body by virtue of the waveguide hole, one end of the water guiding pipe is communicated with the water supplying device, and the other end of the water guiding pipe is communicated with the cooking cavity body by virtue of the steam hole; the water supplying device is arranged on the cooking cavity body and is provided with a water source for the water guiding pipe, the control device is connected with the water supplying device and is used for controlling the opening or closing of the water supplying device. The micro-wave oven provided by the utility model has the advantages that steam and semiconductor microwave are combined, a condition that the steam and microwave can simultaneously cook food is realized, taste of the food is effectively improved, a radiating problem of a semiconductor microwave source is solved, and thus the quality of the micro-wave oven is effectively improved.

Description

Micro-wave oven

Technical field

The utility model relates to household appliance technical field, more specifically, relates to a kind of micro-wave oven.

Background technology

Micro-wave oven is the common tool for heating or culinary art, and its principle is to utilize microwave source to produce microwave, and microwave makes the hydrone of food produce the higher-order of oscillation, thereby frictional heat heats or cooking food.Traditional micro-wave oven comprises the parts such as power supply, microwave source, cavity, fire door.Wherein, microwave source is the core component that produces microwave, and it is subject to the excitation of high voltage source to produce microwave, by waveguide transmission and be coupled in the cavity of accommodating food.The microwave source of conventional microwave oven adopts magnetron to produce microwave, the operating voltage of magnetron is 4000 volts, there is Electrical Safety hidden danger, loss is large, micro-wave oven shape is also very limited, in order to address the above problem, prior art adopts generation microwave efficiency high, cost is low, lightweight, the magnetron that the semiconductor microactuator wave source that specific volume power density is large replaces conventional art to use, yet, the single microwave function with the micro-wave oven of semiconductor microactuator wave source is heating steamed bun, during the millet cake such as steamed stuffed bun, easily cause interior hard, the problems such as dehydration, single microwave function can not meet the nowadays demand of consumer to microwave oven cooking simultaneously, in addition, the heating of semiconductor microactuator wave source has directly affected its operating efficiency.

Utility model content

The utility model is intended at least solve one of technical problem existing in prior art.

For this reason, the purpose of this utility model is, provides a kind of steam to combine with semiconductor microwave, realizes steam and microwave is cooked simultaneously, promotes food cooking mouthfeel, solves the micro-wave oven of semiconductor microwave source heat-dissipating problem simultaneously.

For achieving the above object, the utility model provides a kind of micro-wave oven, comprising: culinary art cavity, offers waveguide mouth and steam port on described culinary art cavity; Semiconductor microactuator wave generating device, described semiconductor microactuator wave generating device is connected with described culinary art cavity by described waveguide mouth; Aqueduct, one end of described aqueduct is connected with water supply installation, and the other end is connected with described culinary art cavity by described steam port through described semiconductor microactuator wave generating device; Described water supply installation, described water supply installation is arranged on described culinary art cavity, and can be described aqueduct water source is provided; And control device, described control device is connected with described water supply installation, for controlling the unlatching of described water supply installation or closing.

The micro-wave oven that the utility model provides adopts semiconductor microactuator wave generating device, on culinary art cavity, water supply installation is installed, aqueduct one end is connected with water supply installation, the other end is connected with culinary art cavity through semiconductor microactuator wave generating device, when micro-wave oven unlatching work, semiconductor microactuator wave generating device produces microwave, distribute a large amount of heats simultaneously, now, control device is controlled water supply installation and is opened, water in water supply installation flows into aqueduct, current in aqueduct are when semiconductor microactuator wave generating device, absorb the heat formation water vapour that semiconductor microactuator wave generating device distributes, water vapour flows in culinary art cavity along aqueduct, thereby realized steam and microwave cooking food simultaneously, both effectively promoted the mouthfeel of food, solved again the problem that has a strong impact on efficiency because of the heating of semiconductor microactuator wave source, thereby effectively promoted the quality of micro-wave oven.

In addition, the micro-wave oven providing according to the utility model also has following additional technical feature:

According to an embodiment of the present utility model, described micro-wave oven also comprises: shower nozzle, and described shower nozzle is connected with described culinary art cavity by described steam port, and the other end of described aqueduct is connected with described shower nozzle.

According to an embodiment of the present utility model, described micro-wave oven also comprises: steam raising plant, and described steam raising plant is connected with described culinary art cavity by described steam port, and the other end of described aqueduct is connected with described steam raising plant.

According to an embodiment of the present utility model, described steam raising plant comprises: housing, in described housing, be provided with the first heat-generating pipe and the second heat-generating pipe, and the other end of described aqueduct is connected with described housing; Temperature sensor, described temperature sensor is arranged in described housing, and is connected with described the second heat-generating pipe with described the first heat-generating pipe, for detection of the temperature in described housing, and exports current temperature value; The first attemperating unit, described the first attemperating unit is arranged in described housing, and be connected with described temperature sensor with described the first heat-generating pipe, described the first attemperating unit receives described current temperature value, and described current temperature value is compared with the first preset temperature value, according to comparative result, control the unlatching of described the first heat-generating pipe or close; With the second attemperating unit, described the second attemperating unit is arranged in described housing, and be connected with described temperature sensor with described the second heat-generating pipe, described the second attemperating unit receives described current temperature value, and described current temperature value is compared with the second preset temperature value, according to comparative result, control the unlatching of described the second heat-generating pipe or close; Wherein, if described current temperature value is greater than described the first preset temperature value, controls described the first heat-generating pipe and close; If described current temperature value is greater than described the second preset temperature value, controls described the second heat-generating pipe and close.

According to an embodiment of the present utility model, described the first preset temperature value is 150 °, and described the second preset temperature value is 180 °.

According to an embodiment of the present utility model, described water supply installation comprises: water tank, and described water tank is arranged on described culinary art cavity; And water pump, described water pump is arranged on described culinary art cavity, and is connected with described water tank, and one end of described aqueduct is connected with described water pump, described water pump can be delivered to described aqueduct by the water pump in described water tank, and described control device is for controlling the unlatching of described water pump or cutting out.

According to an embodiment of the present utility model, described micro-wave oven also comprises: described semiconductor microactuator wave generating device comprises: semiconductor microactuator wave producer, and described semiconductor microactuator wave producer is provided with microwave signal delivery outlet and microwave signal input port; Microwave input unit, described microwave input unit is connected with described microwave signal input port; With microwave output device, described microwave output device is connected with described microwave signal delivery outlet, and described microwave output device is connected with described culinary art cavity by described waveguide mouth.

According to an embodiment of the present utility model, described microwave output device is probe or paster.

According to an embodiment of the present utility model, described micro-wave oven also comprises: wave guide box, described wave guide box is arranged on the chamber wall of described culinary art cavity, and is connected with described culinary art cavity by waveguide mouth, and described microwave output device is connected with described waveguide mouth by described wave guide box.

According to an embodiment of the present utility model, described semiconductor microactuator wave producer comprises: metal substrate, on a surface of described metal substrate, form the through hole matching with described aqueduct, and described aqueduct is connected with described culinary art cavity through described through hole; And printed circuit board (PCB), described printed circuit board (PCB) is fixedly connected with described metal substrate, and described microwave signal delivery outlet and described microwave signal input port are all arranged on described printed circuit board (PCB).

Additional aspect of the present utility model and advantage will provide in description part below, and part will become obviously from the following description, or recognize by practice of the present utility model.

Accompanying drawing explanation

Above-mentioned and/or additional aspect of the present utility model and advantage accompanying drawing below combination obviously and is easily understood becoming the description of embodiment, wherein:

Fig. 1 is according to the first structural representation of the micro-wave oven described in the utility model one embodiment;

Fig. 2 is according to the second structural representation of the micro-wave oven described in the utility model one embodiment;

Fig. 3 is the structural representation of microwave generating apparatus in the micro-wave oven shown in Fig. 2.

Wherein, in Fig. 1 to Fig. 3, the corresponding relation between Reference numeral and component names is:

100 micro-wave ovens, 10 culinary art cavitys, 20 semiconductor microactuator wave generating devices, 21 metal substrates, 22 microwave output devices, 30 aqueducts, 40 water supply installations, 41 water tanks, 42 water pumps, 50 shower nozzles, 60 steam generators, 61 housings, 62 first heat-generating pipes, 63 second heat-generating pipes, 64 temperature sensors, 65 first attemperating units, 66 second attemperating units, 70 wave guide boxes.

The specific embodiment

In order more clearly to understand above-mentioned purpose of the present utility model, feature and advantage, below in conjunction with the drawings and specific embodiments, the utility model is further described in detail.It should be noted that, in the situation that not conflicting, the application's embodiment and the feature in embodiment can combine mutually.

A lot of details have been set forth in the following description so that fully understand the utility model; but; the utility model can also adopt other to be different from mode described here and implement, and therefore, protection domain of the present utility model is not subject to the restriction of following public specific embodiment.

1 to Fig. 3 the micro-wave oven providing according to some embodiment of the utility model is described with reference to the accompanying drawings.

As depicted in figs. 1 and 2, the micro-wave oven 100 that some embodiment of the utility model provide, comprising: culinary art cavity 10, semiconductor microactuator wave generating device 20, aqueduct 30, water supply installation 40 and control device (not shown).

Wherein, on culinary art cavity 10, offer waveguide mouth and steam port; Semiconductor microactuator wave generating device 20 is connected with culinary art cavity 10 by waveguide mouth; One end of aqueduct 30 is connected with water supply installation 40, and the other end is connected with culinary art cavity 10 by steam port through semiconductor microactuator wave generating device 20; Water supply installation 40 is arranged on culinary art cavity 10, and can be aqueduct 30 water source is provided; Control device is connected with water supply installation 40, for controlling the unlatching of water supply installation 40 or closing.

The micro-wave oven 100 that the present embodiment provides combines steam with semiconductor microwave, realized steam and microwave cooking food simultaneously, both effectively promoted food mouthfeel, solved again semiconductor microwave source heat-dissipating problem, specifically, micro-wave oven 100 adopts semiconductor microactuator wave generating device 20, on culinary art cavity 10, water supply installation 40 is installed, aqueduct 30 one end are connected with water supply installation 40, the other end is connected with culinary art cavity 10 through semiconductor microactuator wave generating device 20, when micro-wave oven 100 is opened work, semiconductor microactuator wave generating device 20 produces microwave, distribute a large amount of heats simultaneously, now, control device is controlled water supply installation 40 and is opened, water in water supply installation 40 flows into aqueduct 30, current in aqueduct 30 are when semiconductor microactuator wave generating device 20, absorb the heat formation water vapour that semiconductor microactuator wave generating device 20 distributes, water vapour flows in culinary art cavity 10 along aqueduct 30, thereby realized steam and microwave cooking food simultaneously, both effectively promoted the mouthfeel of food, solved again the problem that has a strong impact on efficiency because of the heating of semiconductor microactuator wave source, thereby effectively promoted the quality of micro-wave oven 100.

Particularly, water supply installation 40 comprises: water tank 41 and water pump 42, water tank 41 and water pump 42 are connected, and be installed on culinary art cavity 10, one end of aqueduct 30 is connected with water pump 42, water pump 42 can be delivered to aqueduct 30 by the water pump in water tank 41 42, and control device is for controlling the unlatching of water pump 42 or cutting out;

Semiconductor microactuator wave generating device 20 comprises: semiconductor microactuator wave producer, microwave input unit (not shown) and microwave output device 22; Semiconductor microactuator wave producer is provided with microwave signal delivery outlet and microwave signal input port, microwave input unit is connected with microwave signal input port, microwave output device 22 is connected with microwave signal delivery outlet, and microwave output device 22 is connected with culinary art cavity 10 by waveguide mouth.

In order to improve the overall aesthetics of micro-wave oven 100, water in design water tank 41 is pumped in aqueduct 30 by water pump 42, make water tank 41 and steam port can be arranged on the optional position of culinary art cavity 10, like this, make the overall structure of micro-wave oven 100 not be subject to the constraint of water tank 41 installation sites, thereby guaranteed the appearance effect of micro-wave oven 100; The microwave that semiconductor microactuator wave producer produces, by microwave output device 22 feed-in culinary art cavitys 10, heats the food in culinary art cavity 10 with steam simultaneously.

Wherein, semiconductor microactuator wave producer comprises: metal substrate 21 and printed circuit board (PCB) (not shown), on a surface of metal substrate 21, form the through hole matching with aqueduct 30, and aqueduct 30 is connected with culinary art cavity 10 through through hole; Printed circuit board (PCB) is fixedly connected with metal substrate 21, and microwave signal delivery outlet and microwave signal input port are all arranged on printed circuit board (PCB).

Metal has good thermal conductivity, printed circuit board (PCB) is fixedly connected with metal substrate 21, aqueduct 30 matches with the through hole on metal substrate 21, such assembling mode, while making printed circuit board (PCB) produce a large amount of heats, the heat that metal substrate 21 can produce printed circuit board (PCB) rapidly conducts to aqueduct 30, makes the water in aqueduct 30 absorb heat formation water vapour, water vapour flows in culinary art cavity 10 along aqueduct 30, the food in culinary art cavity 10 is heated with microwave simultaneously.

Alternatively, microwave output device 22 is probe or paster.

The microwave that probe or paster all can produce microwave generator is fast fed in culinary art cavity 10.

Certainly, microwave output device 22 can also be that other microwaves that microwave generator can be produced are fed into the device in culinary art cavity 10, does not repeat them here.

Preferably, micro-wave oven 100 also comprises: wave guide box 70, and wave guide box 70 is arranged on the chamber wall of culinary art cavity 10, and is connected with culinary art cavity 10 by waveguide mouth, and microwave output device 22 is connected with waveguide mouth by wave guide box 70.

In order to reduce semiconductor microactuator wave generating device 20 and the difficulty that is connected of cooking between cavity 10, on the wall of culinary art cavity 10, wave guide box 70 is set, the microwave output device 22 of semiconductor microactuator wave generating device 20 is connected with waveguide mouth by wave guide box 70, make semiconductor microactuator wave generating device 20 with culinary art between cavity 10 be connected simple and convenient, thereby reduced the assembly difficulty of micro-wave oven 100.

As shown in Figure 1, in a specific embodiment of the present utility model, micro-wave oven 100 also comprises shower nozzle 50, and shower nozzle 50 is connected with culinary art cavity 10 by steam port, and the other end of aqueduct 30 is connected with shower nozzle 50.

For water vapour is sprayed in culinary art cavity 10 equably, steam port place at culinary art cavity 10 arranges shower nozzle 50, the other end of aqueduct 30 is connected with shower nozzle 50, water vapour enters culinary art cavity 10 equably through shower nozzle 50, water vapour is dispersed on the food in culinary art cavity 10 equably, thereby has effectively promoted food mouthfeel.

As shown in Figure 2, in another specific embodiment of the present utility model, micro-wave oven 100 also comprises steam raising plant, and steam raising plant is connected with culinary art cavity 10 by steam port, and the other end of aqueduct 30 is connected with steam raising plant.

In order to guarantee the water vapour that is in aqueduct 30 enters culinary art cavity 10, steam port place at culinary art cavity 10 arranges steam raising plant, steam raising plant is connected with culinary art cavity 10 by steam port, the other end of aqueduct 30 is connected with steam raising plant, like this, effectively avoided the heat that distributes because of semiconductor microactuator wave generating device 20 inadequate, after the heat that water absorption semiconductor microactuator wave generating device 20 in aqueduct 30 is distributed, be not completed into water vapour, the situation for gas-vapor mix that causes entering in culinary art cavity 10 occurs.

In addition, the water in aqueduct 30 first absorbs the heat that semiconductor microactuator wave generating device 20 distributes, and the water in aqueduct 30 has first obtained preheating, makes to arrive the more substantial steam of the rear generation of steam generator 60, is beneficial to culinary art; If do not need a large amount of steam to spray into, can reduce the power of steam generator 60, more energy-conservation.

Particularly, as shown in Figure 3, steam raising plant comprises: housing 61, temperature sensor 64, the first attemperating unit 65 and the second attemperating unit 66;

In housing 61, be provided with the first heat-generating pipe 62 and the second heat-generating pipe 63, the other end of aqueduct 30 is connected with housing 61; Temperature sensor 64 is arranged in housing 61, and is connected with the second heat-generating pipe 63 with the first heat-generating pipe 62, for detection of the temperature in housing 61, and exports current temperature value; The first attemperating unit 65 is arranged in housing 61, and be connected with temperature sensor 64 with the first heat-generating pipe 62, the first attemperating unit 65 receives current temperature value, and current temperature value is compared with the first preset temperature value, according to comparative result, controls the unlatching of the first heat-generating pipe 62 or closes; The second attemperating unit 66 is arranged in housing 61, and be connected with temperature sensor 64 with the second heat-generating pipe 63, the second attemperating unit 66 receives current temperature value, and current temperature value is compared with the second preset temperature value, according to comparative result, controls the unlatching of the second heat-generating pipe 63 or closes;

Wherein, if current temperature value is greater than the first preset temperature value, controls the first heat-generating pipe 62 and close; If current temperature value is greater than the second preset temperature value, controls the second heat-generating pipe 63 and close.

It should be noted that, the first attemperating unit 65 and the second attemperating unit 66 also can be forced to disconnect the first heat-generating pipe 62 and the second heat-generating pipe 63 after temperature sensor 64 loses efficacy, to guarantee steam generator 60 security in use.

Particularly, the first preset temperature value is 150 °, and the second preset temperature value is 180 °.

Below with reference to Fig. 2 and Fig. 3, illustrate the specific works process of the micro-wave oven 100 that the present embodiment provides:

As shown in Figures 2 and 3, micro-wave oven 100 unlatching work, the first attemperating unit 65 and the second attemperating unit 66 control respectively the first heat-generating pipe 62 and the second heat-generating pipe 63 is opened heating, control device is controlled water pump 42 and the water pump 42 of 41 li, water tank is entered in the housing 61 of steam generator 60, water in aqueduct 30 first absorbs after the heat of semiconductor microactuator wave generating device 20 generations, enter again in the housing 61 of steam generator 60, after the first heat-generating pipe 62 and the second heat-generating pipe 63, form rapidly water vapour and spray into cavity, temperature sensor 64 is used for monitoring the temperature in housing 61, if the temperature in housing 61 is greater than 150 °, the first attemperating unit 65 is closed the first heat-generating pipe 62, until temperature is lower than 150 °, the first attemperating unit 65 reopens the first heat-generating pipe 62, now, if closing the temperature of the rear steam generator 60 of the first heat-generating pipe 62 does not reduce and continues to be on the contrary increased to 180 °, the second attemperating unit 66 is closed the second heat-generating pipe 63, until the temperature in housing 61 is lower than 180 °, the second attemperating unit 66 reopens the second heat-generating pipe 63.

In sum, the micro-wave oven that the utility model provides adopts semiconductor microactuator wave generating device, on culinary art cavity, water supply installation is installed, aqueduct one end is connected with water supply installation, the other end is connected with culinary art cavity through semiconductor microactuator wave generating device, when micro-wave oven unlatching work, semiconductor microactuator wave generating device produces microwave, distribute a large amount of heats simultaneously, now, control device is controlled water supply installation and is opened, water in water supply installation flows into aqueduct, current in aqueduct are when semiconductor microactuator wave generating device, absorb the heat formation water vapour that semiconductor microactuator wave generating device distributes, water vapour flows in culinary art cavity along aqueduct, thereby realized steam and microwave cooking food simultaneously, both effectively promoted the mouthfeel of food, solved again the problem that has a strong impact on efficiency because of the heating of semiconductor microactuator wave source, thereby effectively promoted the quality of micro-wave oven.

In description of the present utility model, term " first ", " second " be the object for describing only, and can not be interpreted as indication or hint relative importance, unless otherwise clearly defined and limited.

In description of the present utility model, term " installation ", " connection ", " being connected ", " fixing " etc. all should be interpreted broadly, and for example, " connection " can be to be fixedly connected with, and can be also to removably connect, or connect integratedly; " being connected " can be to be directly connected, and also can indirectly be connected by intermediary.For the ordinary skill in the art, can understand as the case may be the concrete meaning of above-mentioned term in the utility model.

In the description of this description, the description of term " embodiment ", " some embodiment ", " specific embodiment " etc. means to be contained at least one embodiment of the present utility model or example in conjunction with specific features, structure, material or the feature of this embodiment or example description.In this manual, the schematic statement of above-mentioned term is not necessarily referred to identical embodiment or example.And the specific features of description, structure, material or feature can be with suitable mode combinations in any one or more embodiment or example.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.

Claims (10)

1. a micro-wave oven, is characterized in that, comprising:

Culinary art cavity, offers waveguide mouth and steam port on described culinary art cavity;

Semiconductor microactuator wave generating device, described semiconductor microactuator wave generating device is connected with described culinary art cavity by described waveguide mouth;

Aqueduct, one end of described aqueduct is connected with water supply installation, and the other end is connected with described culinary art cavity by described steam port through described semiconductor microactuator wave generating device;

Described water supply installation, described water supply installation is arranged on described culinary art cavity, and can be described aqueduct water source is provided; With

Control device, described control device is connected with described water supply installation, for controlling the unlatching of described water supply installation or closing.

2. micro-wave oven according to claim 1, is characterized in that, also comprises:

Shower nozzle, described shower nozzle is connected with described culinary art cavity by described steam port, and the other end of described aqueduct is connected with described shower nozzle.

3. micro-wave oven according to claim 1, is characterized in that, also comprises:

Steam raising plant, described steam raising plant is connected with described culinary art cavity by described steam port, and the other end of described aqueduct is connected with described steam raising plant.

4. micro-wave oven according to claim 3, is characterized in that,

Described steam raising plant comprises:

Housing, is provided with the first heat-generating pipe and the second heat-generating pipe in described housing, the other end of described aqueduct is connected with described housing;

Temperature sensor, described temperature sensor is arranged in described housing, and is connected with described the second heat-generating pipe with described the first heat-generating pipe, for detection of the temperature in described housing, and exports current temperature value;

The first attemperating unit, described the first attemperating unit is arranged in described housing, and be connected with described temperature sensor with described the first heat-generating pipe, described the first attemperating unit receives described current temperature value, and described current temperature value is compared with the first preset temperature value, according to comparative result, control the unlatching of described the first heat-generating pipe or close; With

The second attemperating unit, described the second attemperating unit is arranged in described housing, and be connected with described temperature sensor with described the second heat-generating pipe, described the second attemperating unit receives described current temperature value, and described current temperature value is compared with the second preset temperature value, according to comparative result, control the unlatching of described the second heat-generating pipe or close;

Wherein, if described current temperature value is greater than described the first preset temperature value, controls described the first heat-generating pipe and close; If described current temperature value is greater than described the second preset temperature value, controls described the second heat-generating pipe and close.

5. micro-wave oven according to claim 4, is characterized in that,

Described the first preset temperature value is 150 °, and described the second preset temperature value is 180 °.

6. according to the micro-wave oven described in any one in claim 1 to 5, it is characterized in that,

Described water supply installation comprises:

Water tank, described water tank is arranged on described culinary art cavity; With

Water pump, described water pump is arranged on described culinary art cavity, and is connected with described water tank, and one end of described aqueduct is connected with described water pump, described water pump can be delivered to described aqueduct by the water pump in described water tank, and described control device is for controlling the unlatching of described water pump or cutting out.

7. micro-wave oven according to claim 6, is characterized in that,

Described semiconductor microactuator wave generating device comprises:

Semiconductor microactuator wave producer, described semiconductor microactuator wave producer is provided with microwave signal delivery outlet and microwave signal input port;

Microwave input unit, described microwave input unit is connected with described microwave signal input port; With

Microwave output device, described microwave output device is connected with described microwave signal delivery outlet, and described microwave output device is connected with described culinary art cavity by described waveguide mouth.

8. micro-wave oven according to claim 7, is characterized in that,

Described microwave output device is probe or paster.

9. micro-wave oven according to claim 7, is characterized in that, also comprises:

Wave guide box, described wave guide box is arranged on the chamber wall of described culinary art cavity, and is connected with described culinary art cavity by described waveguide mouth, and described microwave output device is connected with described waveguide mouth by described wave guide box.

10. micro-wave oven according to claim 9, is characterized in that,

Described semiconductor microactuator wave producer comprises:

Metal substrate, forms the through hole matching with described aqueduct on a surface of described metal substrate, and described aqueduct is connected with described culinary art cavity through described through hole; With

Printed circuit board (PCB), described printed circuit board (PCB) is fixedly connected with described metal substrate, and described microwave signal delivery outlet and described microwave signal input port are all arranged on described printed circuit board (PCB).