CN108012363B - Microwave heating device - Google Patents

Abstract

The invention discloses a microwave heating device, which comprises a microwave source module and a cavity assembly module, wherein the microwave source module is used for converting electric energy into microwave energy; the cavity component module comprises a containing piece and an energy feed-in port; the energy feed-in port is communicated with the heating cavity of the accommodating piece, the microwave source module feeds in the microwave energy into the heating cavity through the energy feed-in port, and the cavity assembly module is detachably connected with the microwave source module. According to the technical scheme, the cavity component module and the microwave source module are arranged in a modularized manner, so that a user can flexibly match different cavity component modules and different microwave source modules according to different use requirements, and the diversified application requirements of the microwave heating device can be met; the technical scheme of the invention can also realize that the microwave heating device realizes diversified functions by utilizing the same microwave source module and matching with different types of cavity assembly modules.

Description

Microwave heating device

Technical Field

The invention relates to the field of microwave heating devices, in particular to a microwave heating device.

Background

The microwave heating device is one of common electric appliances in a kitchen and has the characteristics of convenience in use, high heating speed and the like. The microwave heating device is based on the principle that microwave energy is emitted into a heating cavity of the microwave heating device through a microwave emitting source, and the microwave is reflected in the heating cavity and absorbed by food, so that the purpose of heating the food is achieved. However, with the development of science and technology, people have higher requirements on life quality, and because the heating power and the space for accommodating an object to be heated of the existing microwave heating device are fixed, the existing microwave heating device cannot meet diversified application scenes and cannot gradually meet diversified requirements of users.

Disclosure of Invention

The invention mainly aims to provide a microwave heating device, aiming at improving the practicability and the versatility of the microwave heating device.

In order to achieve the above object, the present invention provides a microwave heating apparatus, comprising:

a microwave source module for converting electrical energy into microwave energy, the microwave source module having an energy feed-out port for feeding out the microwave energy;

a cavity assembly module, the cavity assembly module comprising:

the accommodating piece is provided with a heating cavity;

an energy feed inlet communicated with the heating cavity, wherein the microwave source module feeds the microwave energy into the heating cavity through the energy feed inlet so as to heat an object to be heated in the heating cavity;

the cavity assembly module is detachably connected with the microwave source module so that the cavity assembly module is suitable for various microwave source modules; and/or the microwave source module is suitable for various cavity assembly modules.

Preferably, the microwave heating device further comprises a control panel, wherein the control panel is used for a user to input control information;

the control panel is electrically connected with the microwave source module and/or the cavity assembly module.

The cavity component module is detachably connected with the control panel, so that the cavity component module is suitable for various control panels.

Preferably, the microwave source module comprises a power supply input port for power supply access and a microwave generating device;

the microwave generating device comprises a magnetron component and/or a semiconductor radio frequency component.

Preferably, the control panel is arranged on the side or the top of the microwave source module and/or the side or the top of the cavity assembly module.

Preferably, the microwave source modules and the cavity assembly modules are arranged along a horizontal direction or arranged along an up-down direction.

Preferably, the microwave heating device further comprises a door body, and the door body is connected with the accommodating part so as to open/close the opening.

Preferably, the opening of the heating cavity faces upwards, and the door body opens/closes the heating cavity along the up-and-down direction.

Preferably, when the object to be heated contains liquid, the heating chamber is hermetically provided so as to avoid the liquid in the object to be heated from leaking out; the accommodating piece comprises a body and an energy feed-in part, the body is provided with the energy feed-in opening, and the energy feed-in part is arranged at the energy feed-in opening;

the body is made of metal materials, and the energy feed-in part is made of non-metal materials.

Preferably, the heating chamber has a water inlet through which water flows in, and a water outlet through which water flows out.

Preferably, the cavity assembly module has a handle, and the control panel is disposed on the handle.

Preferably, the microwave heating device is a microwave oven, a microwave rice cooker, a microwave hot water kettle or a microwave water heater.

Preferably, the microwave source module is clamped and/or screwed with the cavity assembly module.

According to the technical scheme, the cavity component module and the microwave source module are arranged in a modularized manner, so that a user can flexibly match different cavity component modules and different microwave source modules according to different use requirements, and therefore, the freedom degree in selection is higher, and the diversified application requirements of the microwave heating device can be met; meanwhile, the living expenses are saved, and under the condition that the current microwave heating device does not meet the use requirements, the use requirements can be met only by replacing the cavity component module or one of the microwave source modules. Therefore, the technical scheme of the invention improves the practicability and the versatility of the microwave heating device.

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 description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is an exploded view of a microwave heating device according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of an embodiment of a microwave rice cooker;

FIG. 3 is a schematic structural diagram of an embodiment of a microwave water heater;

fig. 4 is a schematic structural view of an embodiment of a microwave hot water kettle.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				10	Microwave source module	100	Microwave heating device
11	Electrical connection interface	200	Microwave rice cooker
				12	Energy feed-out port	300	Microwave water heater
20	Cavity assembly module	400	Microwave water heating kettle
				21	Energy feed-in port	410	Handle bar
30	Control panel

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that, if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative positional relationship between the components, the movement situation, and the like in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

The present invention provides a microwave heating device 100, which may be a microwave oven, a microwave rice cooker, a microwave hot water kettle, a microwave water heater, a microwave box, etc. Referring to fig. 1, the microwave heating apparatus 100 at least includes a microwave source module 10 and a cavity assembly module 20. The microwave source module 10 is used for converting electric energy into microwave energy, and the cavity assembly module 20 includes a receiving part and an energy feeding port 21. The accommodating piece is provided with a heating cavity, and the heating cavity is provided with an opening which is used for loading an object to be heated into the heating cavity; the microwave source module 10 feeds the microwave energy into the heating cavity through the energy feed inlet 21 to heat the object to be heated in the heating cavity; the cavity assembly module 20 is detachably connected with the microwave source module 10, so that the cavity assembly module 20 can be applied to various microwave source modules 10; and/or, the microwave source module 10 is applicable to a plurality of cavity assembly modules 20.

The microwave source module 10 in this embodiment has an interface for power input, and the electric energy (dc or ac) is converted into microwave energy by a microwave conversion circuit. The microwave generating device in the present embodiment may generate microwaves in various manners, such as generating microwaves by using a magnetron or generating microwaves by using a semiconductor radio frequency component. The microwave source module 10 has an energy feed-out port 12 corresponding to the energy feed-in port 21, and the microwave source module 10 feeds out the generated microwaves through the energy feed-out port 12 and feeds the microwaves into the heating cavity through the energy feed-in port 21 of the cavity assembly module 20.

After the microwave source module 10 generates microwaves, the microwave energy is fed into the heating cavity through the energy feed port 21, and a microwave resonant cavity can be formed in the cavity assembly module 20 to intensify the energy of the microwaves, so that the microwaves can heat the object more quickly. The heating cavity is used for accommodating an object to be heated, and an opening of the heating cavity is used for a user to put in and take out the object in the heating cavity. In an embodiment, the microwave heating device 100 further includes a door body, which has an opening function for opening or closing the opening, and can shield microwaves and prevent the microwaves from leaking, so as to meet the use safety requirement of the microwave heating device 100.

It should be noted that in the present embodiment, the cavity assembly module 20 and the microwave source module 10 form a basic configuration required for the normal operation of the microwave heating apparatus 100; in addition, the cavity assembly module 20 and the microwave source module 10 are arranged in a modularized manner in the present embodiment, so that the required cavity assembly module 20 and the required microwave source module 10 can be flexibly configured according to different application environments and use requirements, so as to obtain the required configuration of the microwave heating apparatus 100. For example, the power of the original microwave source module 10 is too small, and the heating speed is slow, so that the user can replace the microwave source module 10 with larger power to cooperate with the existing cavity assembly module 20, thereby increasing the speed of heating the object and meeting the application environment requirement of fast cooking food. In another example, the heating cavity of the original cavity assembly module 20 is too small, and the user must cook a large amount of food in batches, or the food the user needs to cook is too large to be accommodated by the heating cavity; at this time, the user can replace the cavity assembly module 20 with a larger heating cavity to meet the user's requirement for cooking a large amount of food or a large volume of food. It can be seen that, compared with the scheme that the microwave heating device 100 in the prior art is integrally arranged, the microwave source module 10 and the cavity module can be more flexibly combined, so that the selection has a greater degree of freedom, and the living expenses are saved, and under the condition that the current microwave heating device 100 does not meet the use requirement, the use requirement can be met only by replacing one of the cavity assembly module 20 or the microwave source module 10.

Further, since the cavity assembly module 20 and the microwave source module 10 are arranged in a modularized manner in the present embodiment, operability is provided for implementing diversified functions of the microwave heating apparatus 100 by improving the structure of the cavity assembly module 20. For example, by modifying the structure of the cavity assembly module 20, the heating cavity can contain liquid or solid-liquid mixture, and after the heating cavity is combined with the microwave source module 10, the microwave heating device 100 can realize the function of heating water or cooking rice. In the prior art, if the microwave heating device 100 is required to heat water, the water needs to be placed in the container in advance and then placed in the heating chamber for heating, which causes low heating efficiency and inconvenient operation. The technical scheme of the invention can realize that the microwave heating device 100 realizes different functions of an electric cooker, a water heater, a hot water kettle and the like by utilizing one same microwave source module 10 and matching with different types of cavity component modules 20.

It should be noted that, in the present embodiment, the purpose of detachably connecting the cavity assembly module 20 and the microwave source module 10 is to provide for a user to detach the cavity assembly module 20 from the microwave source module 10 and select a desired combination of the cavity assembly module 20 and the microwave source module 10, so that both the cavity assembly module 20 and the microwave source module 10 need to have a connection interface, where the connection mode of the connection interface may be a clamping connection, a screw connection, a connection by setting a buckle and a sliding groove, and the like. Particularly, during the manufacturing process, all cavity assembly modules 20 and all microwave source modules 10 in the series of the microwave heating device 100 can be directly combined with each other, so that a user can conveniently select different cavity assembly modules 20 and different microwave source modules 10 at the same time.

According to the technical scheme, the cavity component module 20 and the microwave source module 10 are arranged in a modularized manner, so that a user can flexibly match different cavity component modules 20 and different microwave source modules 10 according to different use requirements, and therefore, the selection degree of freedom is higher, and the diversified application requirements of the microwave heating device 100 can be met; meanwhile, the living expenses are saved, under the condition that the current microwave heating device 100 does not meet the use requirements, the use requirements can be met only by replacing the cavity component module 20 or one of the microwave source modules 10, and the technical scheme of the invention can also realize that the microwave heating device 100 can realize the functions of an electric cooker, a water heater and a hot water kettle by matching the same microwave source module 10 with different types of cavity component modules 20. Therefore, the technical scheme of the invention improves the practicability and the versatility of the microwave heating device 100.

In order to realize the intellectualization of the microwave heating apparatus 100, the microwave heating apparatus 100 further includes a control panel 30, and the control panel 30 is used for a user to input control information so as to control the working state of the microwave heating apparatus 100. The control panel 30 is electrically connected with the microwave source module 10 and/or the cavity assembly module 20, so that the control panel 30 and the microwave source module 10 and/or the cavity assembly module 20 realize power transmission and communication. Specifically, the microwave source module 10 has an electrical connection interface 11 electrically connected to the cavity assembly module 20. Meanwhile, in order to facilitate different use requirements and preferences of users, the cavity assembly module 20 is detachably connected to the control panel 30, so that the cavity assembly module 20 is suitable for various control panels 30. The user may obtain different user interfaces by exchanging different control panels 30. Since the microwave heating apparatus 100 of the present invention can realize a plurality of functions, the position of the control panel 30 can be set properly according to the current function of the microwave heating apparatus 100, so as to facilitate the user to use. The control panel 30 may be disposed on the side or top of the microwave source module 10 and/or the side or top of the cavity assembly module 20.

In order to realize diversified functions of the microwave heating device, the microwave heating device is used for directly heating liquid and solid-liquid mixture. Therefore, when the object to be heated contains liquid, the heating cavity is arranged in a sealing way, so that the liquid in the object to be heated is prevented from leaking out; the accommodating piece comprises a body and an energy feed-in part, the body is provided with the energy feed-in opening 21, and the energy feed-in part is arranged at the energy feed-in opening 21; the body is made of metal materials, and the energy feed-in part is made of non-metal materials. The microwave generated by the microwave source module 10 is fed into the accommodating part from the energy feed-in part, and forms microwave resonance through reflection of the inner wall of the body, thereby better heating the liquid in the accommodating part.

Based on the above disclosure, the modularized cavity assembly module 20 and the microwave source module 10 can be arranged in sequence not only along the horizontal direction, but also along the vertical direction. Through selecting suitable holding piece material for cavity subassembly can holding liquid or solid-liquid mixture, and when microwave heating device directly heated liquid and solid-liquid mixture, preferred setting, the opening of heating chamber is up, the door body is opened/is closed along upper and lower direction the heating chamber to prevent opening the heating chamber, liquid takes place to leak. It will be understood by those skilled in the art that the above-mentioned technical features of the arrangement of the cavity assembly module 20 and the microwave source module 10, the opening direction of the opening, the material and sealing requirement of the heating cavity, and the arrangement position of the control panel 30 can be reasonably combined and matched to realize the multi-functionality of the microwave heating device. The technical scheme to be protected by the invention does not include the technical scheme that the technical characteristics obviously cannot be matched and are not matched reasonably. The invention is embodied by some embodiments.

Referring to fig. 1, in a first embodiment, a microwave heating apparatus 100 of the present invention has functions of a conventional microwave heating apparatus, wherein the cavity assembly module 20 and the microwave source module 10 of the microwave heating apparatus 100 are sequentially disposed along a horizontal direction, an opening of the heating cavity deviates from a side of the microwave source module 10, and the door rotates along a left-right/up-down direction to open/close the heating cavity, so that a user can add a heated object into the heating cavity. The control panel 30 is disposed on the door body. Therefore, in the present embodiment, different cavity assembly modules 20 and different microwave source modules 10 are selected for use in combination to realize a microwave heating apparatus with different heating powers, heating speeds, and heating cavity sizes.

Referring to fig. 2, in a second embodiment, the microwave heating device of the present invention can be used as an electric rice cooker, and the embodiment can be similar to an open-lid microwave heating device or a microwave rice cooker 200. Taking the microwave cooker 200 with the cover opened as an example, the microwave cooker 200 is composed of a control panel 30, a cavity assembly module 20 and a microwave source module 10. Cavity subassembly module 20 sets up the top of microwave source module 10, just the opening in heating chamber up, the door body is opened/closed along upper and lower direction the heating chamber to the user court add the rice, water etc. of treating the culinary art in the heating chamber. The control panel 30 is arranged on the door body, so that when the door body covers the opening, the control panel 30 can face upwards, and a user can conveniently set related parameters. Meanwhile, in order to prevent water leakage and damage to the microwave rice cooker 200, the heating cavity is arranged in a sealing manner so as to prevent liquid in an object to be heated from leaking out; the accommodating piece comprises a body and an energy feed-in part, the body is provided with the energy feed-in opening 21, and the energy feed-in part is arranged at the energy feed-in opening 21; the body is made of metal materials, and the energy feed-in part is made of non-metal materials. The microwave enters the accommodating piece from the energy feed-in part, so that the food in the accommodating piece is heated. Therefore, in this embodiment, only the kind of the cavity assembly module 20 needs to be changed, and the microwave source module 10 can be combined with the cavity assembly module to realize the function of the electric cooker.

Referring to fig. 3, in a third embodiment, the microwave heating device can be used as a microwave water heater 300. Since the microwave water heater 300 needs to be installed at a certain height, the cavity assembly module 20 and the microwave source module 10 are sequentially arranged along a horizontal direction, and the microwave feed-in port is located at one side of the cavity assembly module 20 correspondingly connected with the microwave source module 10. The control panel 30 is disposed on both the cavity assembly module 20 and the microwave source module 10, and preferably, the control panel 30 is disposed on a side of the cavity assembly module 20 away from the microwave source module 10, so as to prevent the control panel 30 from being affected by heat generated by the microwave source module 10 during operation. The heating cavity is provided with a water inlet for water to flow in and a water outlet for water to flow out. At this time, the opening of the heating cavity is equal to the water inlet and the water outlet, and water is contained in the heating cavity, so that the heating cavity is arranged in a sealing manner to prevent the microwave water heater 300 from being damaged due to water leakage, so that liquid in an object to be heated is prevented from leaking; the accommodating piece comprises a body and an energy feed-in part, the body is provided with the energy feed-in opening 21, and the energy feed-in part is arranged at the energy feed-in opening 21; the body is made of metal materials, and the energy feed-in part is made of non-metal materials. The microwave enters the accommodating piece from the energy feed-in part, so that water in the accommodating piece is heated for a user to use. Therefore, in the present embodiment, the microwave water heater 300 is formed by selecting the proper cavity assembly module 20 and matching with the microwave source module 10, so as to realize the functions of the water heater.

Referring to fig. 4, in a fourth embodiment, the microwave heating apparatus may be used as a microwave water kettle 400, the heating cavity of the cavity assembly module 20 is used for accommodating water to be heated, in order to reduce the weight of a user when lifting the microwave water kettle, the cavity assembly module 20 and the microwave source module 10 are arranged in sequence from top to bottom, and preferably, the cavity assembly module 20 and the microwave source module 10 are connected in a plugging manner. The microwave feed-in port is located at one side of the cavity assembly module 20 correspondingly connected with the microwave source module 10. Meanwhile, in order to facilitate the user to lift the cavity assembly module 20, the cavity assembly module 20 is provided with a handle 410 for the user to grasp, and further, the microwave kettle is arranged on the handle, so that the cavity assembly module 20 generates heat when the microwave kettle works, and the work of the control panel 30 is influenced, and therefore, the control panel 30 is arranged on the handle. Similarly, since the heating cavity is filled with water, in order to prevent the microwave kettle 400 from being damaged due to water leakage, the heating cavity is arranged in a sealing manner so as to prevent the liquid in the object to be heated from leaking; the accommodating piece comprises a body and an energy feed-in part, the body is provided with the energy feed-in opening 21, and the energy feed-in part is arranged at the energy feed-in opening 21; the body is made of metal materials, and the energy feed-in part is made of non-metal materials. The microwave enters the accommodating piece from the energy feed-in part, so that water in the accommodating piece is heated for a user to use. Therefore, in the present embodiment, the microwave kettle 400 is formed by selecting the proper cavity assembly module 20 and the microwave source module 10, so as to realize the function of the kettle.

It can be understood that the above four embodiments are only different application embodiments of the microwave heating apparatus of the present invention, and it can be seen from the above embodiments that any one of the microwave source module 10, the cavity assembly module 20 and the user control panel 30 can be selected and matched according to the user requirements by modularizing them, so as to combine the appearance, configuration and function required by the user, meet the diversified requirements of the user and meet the requirements of different application occasions.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (11)

1. A microwave heating apparatus, comprising:

the microwave source module is an independent module and is used for converting electric energy into microwave energy, and the microwave source module is provided with an energy feed-out port for feeding out the microwave energy;

a cavity assembly module, being an independent module, the cavity assembly module comprising:

the accommodating piece is provided with a heating cavity;

an energy feed inlet communicated with the heating cavity, wherein the microwave source module feeds the microwave energy into the heating cavity through the energy feed inlet so as to heat an object to be heated in the heating cavity;

the cavity assembly module and the microwave source module are provided with at least one connecting interface, the microwave source modules are of multiple types, and each cavity assembly module can be detachably connected with the connecting interfaces of the microwave source modules through the connecting interface of the cavity assembly module so that each cavity assembly module is suitable for the multiple types of microwave source modules; or, the microwave source module is at least one, the cavity assembly modules are multiple, and each microwave source module can be detachably connected with the connecting interfaces of the multiple cavity assembly modules through the connecting interface of the microwave source module, so that each microwave source module is suitable for the multiple cavity assembly modules;

the heating cavity is hermetically arranged to avoid liquid in an object to be heated from leaking out; the accommodating piece comprises a body and an energy feed-in part, the body is provided with the energy feed-in opening, the energy feed-in part is arranged at the energy feed-in opening, the body is made of metal materials, and the energy feed-in part is made of non-metal materials.

2. A microwave heating apparatus as in claim 1 further comprising a control panel for user input of control information;

the control panel is electrically connected with the microwave source module and/or the cavity assembly module;

the cavity component module is detachably connected with the control panel, so that the cavity component module is suitable for various control panels.

3. A microwave heating apparatus as in claim 2 wherein the cavity assembly module has a handle and the control panel is disposed on the handle.

4. A microwave heating apparatus as in claim 2 wherein the control panel is disposed on a side or top of the microwave source module and/or a side or top of the cavity assembly module.

5. The microwave heating apparatus of claim 1, wherein the microwave source module and the cavity assembly module are arranged in a horizontal direction or in an up-and-down direction.

6. A microwave heating apparatus as in claim 1 wherein the heating chamber has an opening; the microwave heating device further comprises a door body, and the door body is connected with the accommodating part so as to open or close the opening.

7. A microwave heating apparatus as claimed in claim 6, wherein the opening of the heating chamber is directed upward, and the door opens or closes the heating chamber in an up-and-down direction.

8. A microwave heating apparatus as in claim 1 wherein the heating chamber has a water inlet through which water flows in and a water outlet through which water flows out.

9. The microwave heating apparatus of claim 1 wherein the microwave source module comprises a power input port for receiving a power source and a microwave generating device;

the microwave generating device comprises a magnetron component and/or a semiconductor radio frequency component.

10. Microwave heating device according to claim 1, characterized in that the microwave heating device is a microwave oven, a microwave rice cooker, a microwave hot water kettle or a microwave water heater.

11. A microwave heating apparatus as in claim 1 wherein the microwave source module is snap-fit and/or screw-fit to the cavity assembly module.

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