CN211716630U

CN211716630U - Air duct structure and microwave oven with same

Info

Publication number: CN211716630U
Application number: CN202020292524.3U
Authority: CN
Inventors: 杨华; 刘锦森; 刘福波; 杨有如; 其他发明人请求不公开姓名
Original assignee: Shanghai Chunmi Electronics Technology Co Ltd
Current assignee: Chunmi Technology Shanghai Co Ltd
Priority date: 2020-03-11
Filing date: 2020-03-11
Publication date: 2020-10-20
Anticipated expiration: 2030-03-11

Abstract

The utility model relates to a wind channel structure and microwave oven thereof, including the main wind channel that communicates air intake, electrical apparatus room, culinary art room and air exit in proper order, at least one install in the microwave oven and be used for forming the wind scooper subassembly in the bypass wind channel, the wind scooper subassembly includes the wind scooper that is used for shunting the direction, assemble infrared temperature measurement subassembly, image recognition subassembly, stove lamp subassembly in the wind scooper, offer the assembly position that supplies infrared temperature measurement subassembly, image recognition subassembly, stove lamp subassembly to install on the cavity body wall of culinary art room respectively; still relate to a microwave oven, be equipped with foretell the wind channel structure in the microwave oven. The utility model discloses well main wind channel is supplementary each other with the bypass wind channel, not only can effectually in time discharge the steam in the culinary art room, can also carry out the cooling in step to each monitoring part simultaneously, and the control of being convenient for cooks firepower, time and progress, guarantees the culinary art effect.

Description

Air duct structure and microwave oven with same

Technical Field

The utility model belongs to the technical field of kitchen cooking appliance, especially, relate to a wind channel structure and microwave oven thereof.

Background

With the continuous improvement of the life quality of people, kitchen appliances are more and more abundant, and microwave ovens, steam boxes and the like gradually become necessary kitchen electric products for family life. However, in the current general microwave oven products, when cooking objects, cooking time and effect need to be judged and designed according to menus or experience, but in actual operation, the cooked food has poor effect, the food loses too much water, and scorching occurs. In order to make the cooking work of the microwave oven more intelligent, when a consumer puts food into the cooking chamber, the product can identify the type of the product through a corresponding intelligent device, and the corresponding time and the corresponding fire power are directly set for heating. The cooking progress can be continuously controlled according to the state of food in cooking, and the cooking effect is ensured.

Therefore, based on the problems, the main air channel and the bypass air channel are mutually assisted, water vapor in a cooking chamber can be effectively discharged in time, synchronous cooling can be carried out on each monitoring part simultaneously, cooking firepower, time and progress can be controlled conveniently, and the cooking effect is guaranteed.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve the problem that exists among the above-mentioned prior art, provide a main wind channel and bypass wind channel and assist each other, not only can effectually in time discharge the steam in the culinary art room, can also simultaneously carry out synchronous cooling to each monitoring part, be convenient for control culinary art firepower, time and progress guarantee the wind channel structure and the microwave oven of culinary art effect.

The utility model discloses a solve the technical scheme who takes of this problem and be:

an air duct structure is positioned in a microwave oven, the microwave oven comprises an outer cover, an electric appliance chamber and a cooking chamber, the electric appliance chamber and the cooking chamber are positioned in the outer cover and are separated through a cavity body wall, an air inlet and a fan are arranged on one side in the microwave oven, and an air outlet is arranged on the other side in the microwave oven;

the air channel structure comprises a main air channel and at least one air guide cover assembly, wherein the main air channel is sequentially communicated with an air inlet, an electric appliance chamber, a cooking chamber and an air outlet, the air guide cover assembly is arranged in the microwave oven and used for forming a bypass air channel, the air guide cover assembly comprises an air guide cover used for shunting and guiding, an infrared temperature measurement assembly, an image recognition assembly and an oven lamp assembly, and assembly positions for installing the infrared temperature measurement assembly, the image recognition assembly and the oven lamp assembly are respectively arranged on the wall of a cavity body of the cooking chamber.

Preferably, the air inlet of the cooking chamber is formed in the cavity wall between the electric appliance chamber and the cooking chamber, and the air outlet of the cooking chamber is formed in the cavity wall above the cooking chamber or in the cavity wall opposite to the position of the cavity wall where the air inlet of the cooking chamber is formed.

Preferably, the air inlet, the air outlet, the air inlet of the cooking chamber and the air outlet are respectively in a mesh structure.

Preferably, the wind scooper assembly is located above the cooking chamber, the wind scooper is installed along a diagonal direction of the cooking chamber, and a straight line of a connecting line between the wind inlet and the wind outlet of the cooking chamber, which is projected on the top surface of the cooking chamber, and a straight line of a central axis of the wind scooper, which is projected on the top surface of the cooking chamber, are intersected with each other.

Preferably, the air guide cover is a cubic air guide structure with three closed surfaces, the air guide cover is installed above the cooking chamber through the bottom open end, and the air inlet end and the air outlet end of the air guide cover are arranged oppositely.

Further preferably, a baffle is transversely arranged above the fan, a vent is formed in the baffle, the vent and the fan are located on the same vertical plane, a guide structure extends from the air inlet end of the air guide cover, and the guide structure extends into the upper portion of the vent.

Preferably, the infrared temperature measurement component and the oven lamp component are respectively vertically installed towards the inside of the cooking chamber, and the image recognition component is obliquely installed towards the inside of the cooking chamber.

Preferably, the assembly position of the image recognition component is inclined inwards towards the inside of the cooking chamber and dented, the assembly position of the image recognition component is provided with an image recognition hole site for inclined installation of the acquisition end of the image recognition component, and the assembly positions of the infrared temperature measurement component and the furnace lamp component are respectively provided with an acquisition end of the infrared temperature measurement component, an infrared temperature measurement hole site and a furnace lamp hole site for vertical installation of the furnace lamp end of the furnace lamp component.

Preferably, the air guide cover is further provided with a supporting structure for supporting and fixing the infrared temperature measuring component, the furnace lamp component and the image recognition component.

The second invention of the utility model aims to: there is provided a microwave oven including a housing, an appliance chamber and a cooking chamber located within the housing and separated by a cavity wall, a door assembly cooperating with the cooking chamber, and a control box assembly for controlling electrical appliances and fans within the appliance chamber, characterized in that: the air duct structure is arranged in the microwave oven.

The utility model has the advantages and positive effects that:

1. the utility model discloses in, the cooperation through main wind channel, bypass wind channel in the microwave oven not only can effectually in time discharge the steam in the culinary art room, can also carry out synchronous cooling to parts such as infrared temperature measurement subassembly, stove lamp subassembly, image recognition subassembly simultaneously.

2. The utility model discloses in, main wind channel and bypass wind channel are supplementary each other, and the cooling work of main wind channel mainly used electrical apparatus room and the discharge steam work of culinary art room, bypass wind channel mainly used are to the image recognition subassembly, and infrared temperature measurement subassembly and stove lamp subassembly heat dissipation cooling make it be in lower temperature, guarantee each part temperature rise, promote the life of each part greatly.

3. The utility model discloses in, infrared temperature measurement subassembly, image recognition subassembly, stove lamp subassembly stretch into the culinary art indoor through respective installation position respectively, cook the edible material of room and cook state monitoring, discernment, illumination, be convenient for then control culinary art firepower, time and progress, guarantee the culinary art effect, realize intelligent culinary art.

4. The utility model discloses in, the image recognition subassembly of slope installation helps its a plurality of shooting faces that gather visual angle cover food, carries out image acquisition, the discernment of a plurality of shooting faces to food.

Drawings

The technical solution of the present invention will be described in further detail with reference to the accompanying drawings and examples, but it should be understood that these drawings are designed for illustrative purposes only and thus are not intended to limit the scope of the present invention. Furthermore, unless otherwise indicated, the drawings are intended to be illustrative of the structural configurations described herein and are not necessarily drawn to scale.

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic diagram of the explosion structure of the present invention;

FIG. 3 is an exploded view of the wind scooper assembly with the appliance compartment and the cooking compartment;

FIG. 4 is a schematic view of the wind scooper;

FIG. 5 is a schematic view of another view of the wind scooper;

fig. 6 is a schematic diagram of the exploded structure of fig. 5.

In the figure: 1. the temperature measuring device comprises an outer cover, a cavity wall, an electric appliance chamber, a cooking chamber, an air inlet, an air blower, a fan, an air outlet, an air guiding cover, an infrared temperature measuring component, a furnace lamp component, an image identifying component, an air inlet, a fan outlet, a baffle, a ventilation opening, a guide structure, an image identifying hole, an infrared temperature measuring hole, a furnace lamp hole, a support structure, a furnace door component, a cooking device, an electric appliance and a control box component, wherein the outer cover is 2, the cavity wall is 3, the electric appliance chamber is 4, the cooking chamber is 5, the.

Detailed Description

First, it should be noted that the specific structures, features, advantages, etc. of the present invention will be described in detail below by way of example, but all the descriptions are only for illustrative purpose and should not be construed as forming any limitation to the present invention. Furthermore, any single feature described or implicit in any embodiment or any single feature shown or implicit in any drawing may still be combined or subtracted between any of the features (or equivalents thereof) to obtain still further embodiments of the invention that may not be directly mentioned herein. In addition, for the sake of simplicity, the same or similar features may be indicated in only one place in the same drawing.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "disposed," "connected," "fixed," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate medium, and may be connected through the inside of two elements or in an interaction relationship between two elements, unless otherwise specifically defined, and the specific meaning of the above terms in the present invention will be understood by those skilled in the art according to specific situations. The present invention will be described in detail with reference to fig. 1 to 6.

Example 1:

an air duct structure is positioned in a microwave oven, the microwave oven comprises an outer cover 1, an electric appliance chamber 3 and a cooking chamber 4, the electric appliance chamber 3 and the cooking chamber 4 are positioned in the outer cover 1 and are separated by a cavity wall 2, an air inlet 5 and a fan 6 are arranged on one side in the microwave oven, and an air outlet 7 is arranged on the other side in the microwave oven; the air channel structure comprises a main air channel and at least one air guide cover assembly, wherein the main air channel is sequentially communicated with an air inlet 5, an electric appliance chamber 3, a cooking chamber 4 and an air outlet 7, the air guide cover assembly is arranged in the microwave oven and used for forming a bypass air channel, the air guide cover assembly comprises an air guide cover 8 used for shunting and guiding, an infrared temperature measurement assembly 9, an image recognition assembly 11 and an oven lamp assembly 10, the infrared temperature measurement assembly 9, the image recognition assembly 11 and the oven lamp assembly 10 are assembled in the air guide cover 8, and assembly positions for installing the infrared temperature measurement assembly 9, the image recognition assembly 11 and the oven lamp assembly 10 are.

The working principle is as follows: in the technical scheme, the air channel structure is arranged in the microwave oven and comprises a main air channel and at least one air guide cover assembly, wherein the main air channel is sequentially communicated with an air inlet 5, an electric appliance chamber 3, a cooking chamber 4 and an air outlet 7, the air guide cover assembly is arranged in the microwave oven and is used for forming a bypass air channel, the main air channel and the bypass air channel are mutually assisted, the main air channel is mainly used for cooling the electric appliance chamber and discharging water vapor from the cooking chamber, the bypass air channel is mainly used for radiating and cooling an image identification assembly, an infrared temperature measurement assembly and an oven lamp assembly, and the main air channel and the bypass air channel are mutually independent; on one hand: when fan 6 opens, fan 6 is arranged in passing through air intake 5 with air current in the external environment and carries to electrical apparatus room 3, and the air current is most to be cooled down the electrical apparatus in electrical apparatus room 3 through the main wind channel in the external environment and take away the steam in the culinary art room 4, promptly: external air flow is sucked into the electric appliance chamber 3 through the air inlet 5, enters the cooking chamber 4 through the air inlet of the cooking chamber 4, is exhausted out of the cooking chamber 4 through the air outlet of the cooking chamber 4, and is finally exhausted out of the microwave oven through the air outlet 7, and partial water vapor in the cooking chamber 4 can be carried away by the air flow in the process of passing through the cooking chamber 4; on the other hand, when the fan 6 is started, a part of the air is guided and shunted into the wind guide cover 8 through the air inlet end of the wind guide cover 8 and is exhausted out of the microwave oven through the air outlet end and the air outlet 7, the infrared temperature measurement component 9, the image identification component 11 and the oven lamp component 10 are assembled in the wind guide cover 8, the air flow of the fan 6 can be guided into the wind guide cover by the arrangement of the wind guide cover 8, the image identification component 11 arranged in the wind guide cover is enabled to be cooled by the infrared temperature measurement component 9 and the oven lamp component 10, the temperature of each component is enabled to be at a lower temperature, the temperature rise of each component is ensured, the service lives of the infrared temperature measurement component 9, the image identification component 11 and the oven lamp component 10 are greatly prolonged, the infrared temperature measurement component 9, the image identification component 11 and the oven lamp component 10 respectively extend into the cooking chamber through respective installation positions, and the cooking state of food materials in, and then, the cooking firepower, time and progress are convenient to control, the cooking effect is guaranteed, intelligent cooking is realized, a consumer does not need to operate, and intellectualization is realized. Wherein: the image recognition component 11 is used for recognizing the shape and the category, the weight change and the like of food placed in the cooking chamber, the infrared temperature measurement component 9 is used for detecting the problem change of the surface of the food in the cooking chamber, and the oven lamp component is used for providing illumination for the cooking chamber.

Furthermore, it is also considered in this embodiment that the air inlet 5, the air outlet 7, the air inlet 12 of the cooking chamber 4, and the air outlet 13 are respectively in a mesh structure.

Furthermore, it can be considered in this embodiment that the air inlet 12 of the cooking chamber 4 is disposed on the cavity wall 2 between the electric appliance chamber 3 and the cooking chamber 4, and the air outlet 13 of the cooking chamber 4 is disposed on the cavity wall 2 above the cooking chamber 4 or on the cavity wall 2 opposite to the position of the cavity wall 2 where the air inlet 12 of the cooking chamber 4 is located. When the air outlet 13 is arranged on the cavity wall 2 above the cooking chamber 4 or on the cavity wall 2 opposite to the position of the cavity wall 2 where the air inlet 12 of the cooking chamber 4 is positioned, the air flow enters the cooking chamber 4 through the air inlet 12 of the cooking chamber and is exhausted through the air outlet 13 of the cooking chamber, the air flow enters the microwave oven through the air inlet 5 along the arrow direction in figure 1 and is divided into two groups, and one group of air flow is exhausted through the electric device, the air inlet 12, the air outlet 13 and the air outlet 7 in sequence, so that the water vapor on one side of the cooking chamber 4 is favorably blown to the middle part above/on the other side, and most of the water vapor in the cooking chamber 4 can be carried away; the other air flow is discharged through the air inlet end and the air outlet end of the air guide cover 8 and the air outlet 7 in sequence.

Furthermore, it can be considered in this embodiment that the wind scooper assembly is located above the cooking chamber 4, the wind scooper 8 is installed along a diagonal direction of the cooking chamber 4, and a straight line of a connecting line between the wind inlet 12 and the wind outlet 13 of the cooking chamber 4 projected on the top surface of the cooking chamber 4 intersects a straight line of a central axis of the wind scooper 8 projected on the top surface of the cooking chamber 4. The two air flows do not interfere with each other and each takes its own role.

Furthermore, it can be considered in this embodiment that the wind scooper 8 is a cubic wind scooper structure with three closed sides, the wind scooper 8 is installed above the cooking chamber 4 through the bottom open end, and the wind inlet end and the wind outlet end of the wind scooper 8 are arranged opposite to each other. The wind scooper 8 can fix the positions of the infrared temperature measurement component 9, the image recognition component 11 and the furnace lamp component 10 on the one hand, and can also contribute to cooling and heat dissipation of monitoring components such as the infrared temperature measurement component 9, the image recognition component 11 and the furnace lamp component 10 on the other hand.

Furthermore, it can be considered in this embodiment that a baffle 14 is transversely disposed above the fan 6, a vent 15 is disposed on the baffle 14, the vent 15 and the fan 6 are located on the same vertical plane, a guide structure 16 extends from the air inlet end of the air guiding cover 8, and the guide structure 16 extends above the vent 15. As shown in fig. 1 to 6, the guiding structure 16 is a baffle structure formed by extending from the air inlet end of the air guiding cover 8, and the air discharged from the fan partially flows upwards through the air vent 15 and is blocked by the guiding structure 16 to flow through the air guiding cover 8, so as to facilitate heat dissipation and cooling of the image recognition component 11, the infrared temperature measurement component 9 and the furnace lamp component 10.

Furthermore, it can be considered in this embodiment that the infrared temperature measuring component 9 and the oven lamp component 10 are respectively installed vertically toward the inside of the cooking chamber 4, and the image recognition component 11 is installed obliquely toward the inside of the cooking chamber 4. The infrared temperature measurement component 9 is used for detecting the problem change of the surface of food in the cooking chamber, the stove lamp component is used for providing illumination for the cooking chamber, preferably, the infrared temperature measurement component 9 and the stove lamp component 10 are located on the central axis of the cooking chamber, and the infrared temperature measurement component 9 is located in the central position of the cooking chamber, so that the temperature of the central part of food materials can be monitored; the image recognition component 11 is used for recognizing the changes of the shape, the category and the like of food placed in the cooking chamber, the obliquely installed image recognition component 11 is beneficial to the collection visual angle of the image recognition component 11 to cover a plurality of shooting surfaces of the food, and the image collection and recognition of the plurality of shooting surfaces are carried out on the food, preferably, the image recognition component 11 is located at one side of the cooking chamber, is located at the left side or the right side (or the front part/the rear part) of the center of the cooking chamber, and is installed at an inclination, and further preferably, the installation inclination of the image recognition component 11 is 30-45 degrees relative to the central axis of the cooking chamber.

Furthermore, it can be considered in this embodiment that the assembly position of the image recognition component 11 is inclined inward and recessed toward the inside of the cooking chamber 4, the assembly position of the image recognition component 11 is provided with an image recognition hole 17 for inclined installation of the acquisition end of the image recognition component 11, and the assembly positions of the infrared temperature measurement component 9 and the furnace lamp component 10 are respectively provided with an infrared temperature measurement hole 18 and a furnace lamp hole 19 for vertical installation of the acquisition end of the infrared temperature measurement component 9 and the furnace lamp end of the furnace lamp component 10. The top of the cooking chamber is correspondingly provided with an infrared temperature measuring hole 18, a furnace lamp hole 19 and an image recognition hole 17 which are respectively provided with an infrared temperature measuring component 9, a furnace lamp component 10 and an image recognition component 11, and simultaneously, the top of the cooking chamber and the wind scooper 8 can also form an air channel for facilitating the air flow to pass through.

Furthermore, in this embodiment, it is also considered that the wind scooper 8 is further provided with a supporting structure 20 for supporting and fixing the infrared temperature measuring component 9, the furnace lamp component 10, and the image recognition component 11, respectively. As shown in fig. 5 to 6, the supporting structure 20 may include, but is not limited to, a limiting angle for respectively supporting and fixing the positions of the infrared temperature measuring assembly 9, the furnace lamp assembly 10, and the image recognition assembly 11, a threaded post for respectively fixing the positions of the infrared temperature measuring assembly 9, the furnace lamp assembly 10, and the image recognition assembly 11, and the like.

Example 2:

a microwave oven comprising a housing 1, an appliance compartment 3 and a cooking compartment 4 located within the housing 1 and separated by a cavity wall 2, an oven door assembly 21 cooperating with the cooking compartment 4, and a control box assembly 23 for controlling electrical devices 22 and a fan 6 within the appliance compartment 3, characterized in that: the air duct structure is arranged in the microwave oven. Through the cooperation of the main air duct and the bypass air duct in the microwave oven, not only can the water vapor in the cooking chamber 4 be effectively discharged in time, but also the infrared temperature measurement component 9, the oven lamp component 10, the image identification component 11 and other components can be synchronously cooled. It should be noted that the infrared temperature measurement component 9 may be, but is not limited to, an infrared temperature measurement sensor with model number ANT-OTP-538U, and the image recognition component 11 may be, but is not limited to, a wide-angle camera.

It should be noted that the utility model discloses the concrete structure, theory of operation and the circuit structure of infrared temperature measurement subassembly, stove lamp subassembly, image recognition subassembly that uses are prior art, consequently do not explain in detail again.

To sum up, the utility model provides a main air duct is supplementary each other with bypass wind channel, not only can effectually in time discharge the steam in the culinary art room, can also carry out the cooling in step to each monitoring part simultaneously, and the control of being convenient for cooks firepower, time and progress, guarantees the wind channel structure and the microwave oven of culinary art effect.

The above embodiments are described in detail, but the above description is only for the preferred embodiments of the present invention, and should not be construed as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims

1. The utility model provides an air flue structure, is located the microwave oven, the microwave oven includes the dustcoat and is located the dustcoat and through separated electrical apparatus room, culinary art room of cavity wall, one side is equipped with air intake, fan in the microwave oven, and the opposite side is equipped with air exit, its characterized in that:

2. A duct structure according to claim 1, wherein: the air inlet of the cooking chamber is formed in the cavity wall between the electric appliance chamber and the cooking chamber, and the air outlet of the cooking chamber is formed in the cavity wall above the cooking chamber or in the cavity wall opposite to the position of the cavity wall where the air inlet of the cooking chamber is formed.

3. A duct structure according to claim 2, wherein: the air inlet, the air outlet, the air inlet of the cooking chamber and the air outlet are respectively of a mesh structure.

4. A duct structure according to claim 2, wherein: the air guide cover assembly is located above the cooking chamber, the air guide cover is installed along the diagonal direction of the cooking chamber, and a straight line of a connecting line between an air inlet and an air outlet of the cooking chamber, projected on the top surface of the cooking chamber, and a straight line of a central axis of the air guide cover, projected on the top surface of the cooking chamber, are crossed mutually.

5. A duct structure according to claim 1, wherein: the air guide cover is of a cubic air guide structure with three closed surfaces, the air guide cover is arranged above the cooking chamber through the bottom open end, and the air inlet end and the air outlet end of the air guide cover are arranged oppositely.

6. An air duct structure according to claim 5, wherein: the fan is characterized in that a baffle is transversely arranged above the fan, a vent is formed in the baffle, the vent and the fan are located on the same vertical plane, a guide structure extends from the air inlet end of the air guide cover, and the guide structure extends into the upper portion of the vent.

7. A duct structure according to claim 1, wherein: the infrared temperature measurement assembly and the oven lamp assembly are vertically installed towards the inside of the cooking chamber respectively, and the image recognition assembly is obliquely installed towards the inside of the cooking chamber.

8. An air duct structure according to claim 7, wherein: the assembly position of the image identification assembly faces towards the inner part of the cooking chamber and is inwards inclined and sunken, the assembly position of the image identification assembly is provided with an image identification hole position for inclined installation of the acquisition end of the image identification assembly, and the assembly position of the infrared temperature measurement assembly and the furnace lamp assembly is respectively provided with an acquisition end of the infrared temperature measurement assembly, an infrared temperature measurement hole position and a furnace lamp hole position for vertical installation of the furnace lamp end of the furnace lamp assembly.

9. An air duct structure according to claim 8, wherein: and the wind guide cover is also provided with a supporting structure which is used for supporting and fixing the infrared temperature measurement component, the furnace lamp component and the image recognition component respectively.

10. A microwave oven comprising an outer hood, an electrical appliance chamber and a cooking chamber located within the outer hood and separated by a cavity wall, a door assembly cooperating with the cooking chamber, and a control box assembly for controlling electrical appliances and fans within the electrical appliance chamber, characterized in that: the microwave oven is provided with the air duct structure according to any one of claims 1 to 9.