CN115451481A - Integrated Kitchen Appliances - Google Patents

Abstract

The invention discloses an integrated kitchen appliance. The integrated kitchen appliance includes a cooking module; an air-conditioning module, including a box body, an air-conditioning assembly and a heat dissipation assembly, the air-conditioning assembly is located in the box body, the cooking module is located outside the box body, and the heat dissipation assembly includes a first A heat insulation board and a heat dissipation fan, the first heat insulation board is installed on the outside of the side plate close to the box body of the cooking module and forms a heat dissipation air passage between the side plate close to the box body of the cooking module, the The heat dissipation fan is located at the bottom of the box body, and the heat dissipation fan is used to generate airflow input into the heat dissipation air duct. The above-mentioned integrated kitchen appliance is provided with a first heat insulation plate on the outside of the side plate of the box body to form a heat dissipation air duct to absorb the heat generated during the operation of the cooking module, so that the temperature of the air in the box will not exceed the overheat protection temperature of the air conditioning component, ensuring that the air conditioner The components start up smoothly, bringing users a cool experience.

Description

Integrated Kitchen Appliances

technical field

The invention relates to the technical field of household appliances, in particular to an integrated kitchen appliance.

Background technique

If the integrated cooker with cooling function is equipped with a steaming and grilling module at the same time, a large amount of heat will be generated when the steaming and grilling module is working, and a large amount of heat will also be generated by the flame of the stove during the cooking process, which will easily cause the ambient temperature near the air conditioning module to exceed the temperature of the air conditioner. The overheating protection temperature of the module will make the air conditioning module unable to start or affect the cooling efficiency of the air conditioning module, affecting the user experience.

Contents of the invention

The embodiment of the present invention provides an integrated kitchen appliance.

The integrated kitchen appliance according to the embodiment of the present invention includes:

cooking module;

The air-conditioning module includes a box body, an air-conditioning assembly and a heat dissipation assembly, the air-conditioning assembly is located in the box body, the cooking module is located outside the box body, and the heat dissipation assembly includes a first heat insulation board and a heat dissipation fan. The first heat insulation board is installed on the outside of the side plate close to the box body of the cooking module and forms a heat dissipation air passage between the side plate close to the box body of the cooking module, and the heat dissipation fan is located at the bottom of the box body , the heat dissipation fan is used to generate an airflow input into the heat dissipation air duct.

The above-mentioned integrated kitchen appliance is provided with a first heat insulation plate on the outside of the side plate of the box body to form a heat dissipation air duct to absorb the heat generated during the operation of the cooking module, so that the air temperature in the box will not exceed the overheat protection temperature of the air conditioning component, ensuring that the air conditioner The components start up smoothly, bringing a cool experience to users.

In some embodiments, the upper part of the first heat insulation board is provided with an air outlet hole, and the air outlet hole is connected to the heat dissipation air duct, and the lower part of the first heat insulation board is provided with an air inlet hole, and the air inlet hole The hole communicates with the heat dissipation air channel and the air outlet of the heat dissipation fan.

In some embodiments, the heat dissipation assembly includes a second heat insulation board, and the second heat insulation board is located outside the top plate of the box body.

In some embodiments, the first heat insulation board includes a body, a first connection part and a second connection part, the first connection part is located at the upper part, the front part and the rear part of the body and connects the body and the outside of the side plate of the box body, the second connecting part is located at the lower part of the body and connects the body, the outside of the side plate of the box body and the cooling fan.

In some embodiments, the second connecting portion defines an air inlet hole, and the air inlet hole communicates with the air outlet of the heat dissipation fan and the heat dissipation air duct.

In some embodiments, the cooking module is located on the upper side and the side of the box body, the cooking module located on the side of the box body includes an oven module and/or a steamer module, and the cooking module located on the upper side of the box body The cooking module includes a cooker module.

In some embodiments, the oven module and the steamer module are stacked.

In some embodiments, a partition is provided in the box, and the partition divides the storage chamber in the box into an upper chamber and a lower chamber, the air conditioning assembly includes an evaporator and a condenser, and the evaporator The condenser is arranged in the upper chamber, and the condenser is arranged in the lower chamber.

In some embodiments, the air conditioning module includes a cold air duct, the cold air duct is connected to the evaporator, and the cold air duct guides the cold air flow discharged from the evaporator along a preset direction, and after guiding The cold air flow is exhausted from the front middle area of the integrated kitchen appliance.

In some embodiments, the air conditioning module includes a hot air duct, the hot air duct is connected to the condenser, and the hot air duct guides the hot air flow discharged from the condenser along a preset direction, and after guiding The hot air flow is discharged from the flue of the integrated kitchen appliance.

Additional aspects and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Description of drawings

The above and/or additional aspects and advantages of the present invention will become apparent and comprehensible from the description of the embodiments in conjunction with the following drawings, wherein:

Fig. 1 is a schematic structural view of an integrated kitchen appliance according to an embodiment of the present invention;

Fig. 2 is another schematic structural view of the integrated kitchen appliance according to the embodiment of the present invention;

Fig. 3 is a schematic structural view of an air-conditioning module according to an embodiment of the present invention;

Fig. 4 is another schematic structural view of the air conditioning module according to the embodiment of the present invention;

Fig. 5 is a front view of an air conditioning module according to an embodiment of the present invention;

Fig. 6 is a left side view of the air conditioning module according to the embodiment of the present invention;

Fig. 7 is a bottom view of the air conditioning module according to the embodiment of the present invention;

Fig. 8 is a schematic cross-sectional view of the air-conditioning module in Fig. 7 along line A-A;

9 is a schematic structural diagram of a heat dissipation assembly according to an embodiment of the present invention;

Fig. 10 is a schematic structural view of a first heat insulation board according to an embodiment of the present invention;

Fig. 11 is a schematic diagram of the installation state of the box body and the first heat insulation board according to the embodiment of the present invention;

Fig. 12 is a schematic diagram of a disassembled state of the box body and the first heat insulation board according to the embodiment of the present invention.

detailed description

Embodiments of the present invention are described in detail below, examples of which are shown in the drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The embodiments described below by referring to the figures are exemplary only for explaining the present invention and should not be construed as limiting the present invention.

In describing the present invention, it should be understood that the terms "center", "longitudinal", "transverse", "length", "width", "thickness", "upper", "lower", "front", " Orientation indicated by rear, left, right, vertical, horizontal, top, bottom, inside, outside, clockwise, counterclockwise, etc. The positional relationship is based on the orientation or positional relationship shown in the drawings, which is only for the convenience of describing the present invention and simplifying the description, rather than indicating or implying that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, Therefore, it should not be construed as limiting the invention. In the description of the present invention, "plurality" means two or more, unless otherwise specifically defined.

The disclosure herein provides many different embodiments or examples for implementing different structures of the invention. To simplify the disclosure of the present invention, components and arrangements of specific examples are described herein. Of course, they are merely examples and are not intended to limit the invention. Furthermore, the present disclosure may repeat reference numerals and/or reference letters in different instances, such repetition is for simplicity and clarity and does not in itself indicate a relationship between the various embodiments and/or arrangements discussed. In addition, various specific process and material examples are provided herein, but one of ordinary skill in the art may recognize the use of other processes and/or the use of other materials.

Please refer to FIG. 1 to FIG. 4 together. An integrated kitchen appliance 100 according to an embodiment of the present invention includes a cooking module 10 , an air conditioning module 12 and a cooling assembly 18 .

The air-conditioning module 12 includes a box body 14, an air-conditioning assembly 16 and a cooling assembly 18. The air-conditioning assembly 16 is located in the box body 14, the cooking module 10 is located outside the box body 14, and the cooling assembly 18 includes a first heat shield 20 and a cooling fan 22. The first heat insulation board 20 is installed on the outside of the side plate 15 near the box body 14 of the cooking module 10 and forms a cooling air passage 24 between the side plate 15 near the box body 14 of the cooking module 10, and the cooling fan 22 is positioned at the box body 14 At the bottom, the heat dissipation fan 22 is used to generate the airflow input into the heat dissipation air duct 24 .

The above-mentioned integrated kitchen appliance 100 is provided with a first heat insulation board 20 on the outside of the side plate 15 of the box body 14, and forms a heat dissipation air duct 24 with the side plate 15, and the low temperature air is transported from bottom to top to the heat dissipation air through the heat dissipation fan 22. In the channel, the low-temperature air absorbs the heat radiated by the steaming oven, reducing the baking effect of the radiated heat on the side panels 15 of the box body 14 when the cooking module 10 is working, so that the air temperature in the box body 14 will not exceed the overheating protection temperature of the air conditioning unit 16 , to ensure the smooth start-up of the air-conditioning unit 16, and bring a cool experience to the user.

Specifically, when the cooking module 10 of the integrated kitchen appliance 100 is in operation, a large amount of heat is generated, and a heat dissipation assembly 18 is arranged on the side of the air conditioning module 12 close to the cooking module 10, wherein the first heat shield 20 and the side close to the cooking module 10 The outside of the side plate 15 of the box body 14 and the side plate 15 of the box body 14 close to the cooking module 10 form a cooling air duct 24, and the cooling fan 22 is installed on the bottom of the box body 14 and communicates with the cooling air duct 24. The cooling fan 22 During work, the air with lower temperature can be transported into the heat dissipation duct 24 to reduce the temperature inside the air conditioning module 12, so that the air temperature in the box body 14 will not exceed the overheating protection temperature of the air conditioning assembly 16, so as to ensure the smooth start of the air conditioning assembly 16.

In the embodiment shown in Fig. 4, the side plate 15 close to the box body 14 of the cooking module 10 is the left side plate 19 of the box body, and the first heat insulating plate 20 is arranged on the outside of the left side plate 19 and is connected with the left side plate. A heat dissipation air duct 24 is formed between the 19. The material of the first heat insulation board 20 may be a metal plate, which is convenient for processing. In other embodiments, the material of the first heat insulation board 20 may also be glass fiber board, asbestos board or other heat insulation materials, which is not limited here. The first heat insulating plate 20 is threadedly connected with the left side plate 19 by offering a through hole at the junction of the side and the left side plate 19 of the box body, and the first heat insulating plate 20 can also be bonded or connected with the side plate 19 way to connect.

In some embodiments, please refer to FIG. 10 , the upper part of the first heat insulation board 20 is provided with an air outlet hole 26, and the air outlet hole 26 communicates with the heat dissipation air duct 24, and the lower part of the first heat insulation board 20 is provided with an air inlet hole 28, which The air hole 28 communicates with the air outlet of the heat dissipation air channel 24 and the heat dissipation fan 22 . In this way, the flow direction of the airflow from bottom to top can be formed, heat dissipation can be accelerated, and the temperature inside the air-conditioning module 12 can be prevented from being too high.

Specifically, the upper part of the first heat shield 20 is provided with an air outlet hole 26, and the lower part is provided with an air inlet hole 28. The air inlet hole 28 communicates with the cooling air channel 24 and the air outlet of the cooling fan 22. The air outlet of 22 transports the low-temperature air from the air inlet 28 into the heat dissipation air duct 24, and the low-temperature air absorbs the heat radiated by the steam oven and is discharged from the air outlet 26 on the top of the first heat insulation board 20, forming in the heat dissipation air duct 24 The air flow direction from bottom to top accelerates heat dissipation and prevents the temperature inside the air conditioning module 12 from being too high.

In some embodiments, please refer to FIG. 4 , the heat dissipation assembly 18 includes a second heat shield 30 , and the second heat shield 30 is located outside the top plate 32 of the box body 14 . In this way, the influence of the heat generated by the cooking module 10 located on the upper part of the air conditioning assembly 16 on the temperature of the air conditioning module 12 during the cooking process can be reduced.

Specifically, the cooking module 10 can be arranged on the upper side or the side of the box body 14. When the cooking module 10 is arranged on the upper side of the box body 14, the second heat insulation board 30 is arranged outside the top plate 32 of the box body 14. When the cooking module 10 on the upper side of the body 14 is in operation, the second insulation board 30 can effectively insulate the heat generated by the cooking module 10 and keep the temperature inside the air conditioning module 12 at a relatively low state. The material of the second heat insulation board 30 may be metal plate, glass fiber board, asbestos board or other heat insulation materials, which is not limited here. The connection method between the second heat insulation board 30 and the top plate 32 of the box body 14 may be bonding or other connection methods.

In some embodiments, please refer to FIGS. 10 to 12 , the first heat shield 20 includes a body 34 , a first connection portion 36 and a second connection portion 38 , the first connection portion 36 is located on the upper and front portion of the body 34 And the rear part and connect the outside of the side plate 15 of the body 34 and the box body 14, the second connecting part 38 is located at the bottom of the body 34 and connects the outside of the side plate 15 of the body 34, the box body 14 and the cooling fan 22. In this way, the first heat insulation board 20 can form a cooling air duct 24 with the outside of the side plate 15 of the box body 14 .

Specifically, the main body 34 of the first heat insulating board 20 is arranged outside the side plate 15 of the box body 14 , and the first connecting part 36 and the second connecting part 38 connect the main body 34 of the first heat insulating board 20 and the side of the box body 14 . The outside of the board 15 encloses a relatively closed area to form a heat dissipation air duct 24. The first connecting part 36 connects and fixes the body 34 of the first heat insulation board 20 with the two sides and the top outside the side board 15 of the box body 14. The second The connection portion 38 is connected to the heat dissipation fan 22 , and at the same time connects and fixes the body 34 of the first heat shield 20 and the bottom outside the side plate 15 of the box body 14 . The upper part of the body 34 of the first heat insulating board 20 offers an air outlet 26. When the heat dissipation fan 22 works, the low-temperature air enters the heat dissipation air passage 24 from the bottom of the heat dissipation air passage 24, and the low-temperature air absorbs the heat radiated by the cooking module 10 and flows from the first The air outlet hole 26 on the upper part of the heat insulation board 20 is discharged to prevent the temperature inside the air conditioning module 12 from being too high.

In some embodiments, the second connecting portion 38 defines an air inlet hole 28 , and the air inlet hole 28 communicates with the air outlet of the heat dissipation fan 22 and the heat dissipation air duct 24 . In this way, the cooling fan 22 can deliver low-temperature air into the cooling air channel 24 through the air inlet hole 28 .

Specifically, the first heat insulation board 20 is installed outside the side plate 15 of the box body 14 close to the cooking module 10, and the first connection part 36 and the second connection part 38 are arranged on the first heat insulation board 20, and the first heat insulation board 20 is provided. The side plates 15 of the plate 20 body 34 and the box body 14 enclose the heat dissipation air duct 24, and the second connecting portion 38 is provided with an air inlet 28, and the upper part of the body 34 of the first heat shield 20 is provided with an air outlet 26, and the heat dissipation fan 22 Connect the air inlet 28, when the heat dissipation fan 22 is working, the low-temperature air at the bottom of the box body 14 is transported to the heat dissipation air duct 24 through the air inlet 28, and the low-temperature air absorbs the heat radiated by the steamer oven, and passes through the first heat insulation board 20 The air outlet 26 on the top of the main body 34 can effectively reduce the temperature inside the air conditioning module 12, so that the air temperature in the box body 14 will not exceed the overheating protection temperature of the air conditioning assembly 16, ensuring that the air conditioning assembly 16 starts smoothly.

In some embodiments, please refer to FIG. 2 , the cooking module 10 is located on the upper side and the side of the box body 14, and the cooking module 10 located on the side of the box body 14 includes an oven module 11 and/or a steam box module 13, which are located on the box body. The cooking module 10 on the upper side of 14 includes a cooker module 17 . In this way, the integrated kitchen appliance 100 can meet the daily needs of users, and has the advantages of being practical and cost-effective.

Specifically, the cooker module 17 includes a cooker, which may be a natural gas cooker, an artificial gas cooker, a liquefied petroleum gas cooker, or the like. The cooker module 17 is arranged on the upper side of the air conditioner module 12 , so that the cold airflow blown out by the air conditioner module 12 can be prevented from affecting the use of the cooker module 17 when the cooker module 17 is used. The second heat insulating layer is provided with the outer surface of the top plate 32, which can isolate the heat generated by the cooker module 17 during operation, so that the air temperature in the box body 14 will not exceed the overheating protection temperature of the air-conditioning module 12, so as to ensure that the air-conditioning module 12 starts smoothly. The user brings a cool experience.

The cooking module 10 on the side of the box body 14 includes an oven module 11 and/or a steamer module 13, that is to say, the cooking module 10 on the side of the box body 14 can be one of the oven module 11 and the steamer module 13, Or both. The first heat insulation plate 20 is arranged on the outer surface of the side plate 15 of the box body 14 close to the cooking module 10, and the first heat insulation plate 20 on the outer surface of the side plate 15 can work the oven module 11 and/or the steam box module 13 The heat generated during the operation is isolated, so that the air temperature in the box body 14 will not exceed the overheat protection temperature of the air-conditioning module 12, so as to ensure the smooth start of the air-conditioning module 12 and bring a cool experience to the user.

In some embodiments, the oven module 11 and the steam box module 13 are stacked. In this way, the structure of the integrated kitchen appliance 100 can be made compact, and the utilization rate of kitchen space can be improved.

Specifically, the cooking module 10 includes an oven module 11 and a steamer module 13 , and the oven module 11 , the steamer module 13 and the air conditioner module 12 are arranged in rows under the cooker module 17 . The size of the steamer module 13 and the oven module 11 can be the same, and both can be cuboid in shape. The steam box module 13 and the oven module 11 are stacked vertically, the steam box module 13 is located above the oven module 11, the oven module 11 and the steam box module 13 are located on the side of the air conditioning module 12, and the sides include the left side and right side. The stacked arrangement of the oven module 11 and the steamer module 13 can facilitate the installation of the heat dissipation component 18, and can also make the integrated kitchen appliance 100 compact in structure, reasonable in design, have multiple practical functions, and can effectively reduce the occupied kitchen space and improve the utilization of kitchen space Rate.

In some embodiments, please refer to FIG. 8 , a partition 40 is provided inside the box body 14, and the partition 40 divides the accommodating chamber 42 in the box body 14 into an upper chamber 43 and a lower chamber 44, and the air-conditioning assembly 16 includes an evaporation A device 46 and a condenser 48, the evaporator 46 is arranged in the upper chamber 43, and the condenser 48 is arranged in the lower chamber 44. In this way, the partition plate 40 has the effect of blocking the wind, effectively preventing the upper cavity 43 and the lower cavity 44 from competing for wind, and ensuring the cooling effect of the integrated kitchen appliance 100 .

Specifically, the box body 14 includes an accommodating cavity 42 for accommodating the air conditioner assembly 16 . The partition 40 can divide the accommodating chamber 42 into an upper chamber 43 and a lower chamber 44 . The air conditioning assembly 16 includes an evaporator 46 and a condenser 48 . An evaporator 46 is arranged in the upper chamber 43, and the evaporator 46 can exchange heat and cool down the air to generate a cold air flow. A condenser 48 is provided in the lower chamber 44 , and the condenser 48 can exchange heat and raise the temperature of the air to generate a hot air flow, so that the external air can be made into a cold air flow and a hot air flow by the air conditioning unit 16 after being sucked into the accommodating chamber 42 .

The partition 40 divides the accommodating chamber 42 into an upper chamber 43 and a lower chamber 44 , and when the air conditioner assembly 16 is working, external airflow is drawn into the upper chamber 43 and the lower chamber 44 respectively. The partition 40 divides the accommodating chamber 42 into upper and lower parts, effectively avoiding the upper chamber 43 and the lower chamber 44 from competing for wind, avoiding uneven air volume, and ensuring the cooling effect of the integrated kitchen appliance 100 .

The partition 40 may be made of metal, and the partition 40 may also be made of plastic, which is not limited here. The metal material can be equivalent to a sheet metal part, and the metal partition 40 is stronger and more durable, and is less prone to deformation, damage and other problems. The separator 40 made of plastic can reduce the production process and production cost. In some embodiments, the partition 40 is substantially in the shape of a "U", and an opening is formed on the partition 40, and the opening is used for the air-conditioning assembly 16 to pass through. The partition plate 40 is installed in the accommodating cavity 42 , so that the utilization rate of the space in the accommodating cavity 42 can be improved, and the wind isolation effect of the partition plate 40 can also be ensured.

In some embodiments, the air conditioning module 12 includes a cold air duct 50, the cold air duct 50 is connected to the evaporator 46, the cold air duct 50 guides the cold air flow discharged from the evaporator 46 along a preset direction, and the guided cold air flow from The front middle area of the integrated kitchen appliance 100 is drained. In this way, the cold air duct 50 can be used to exhaust the cold air from the front middle area of the integrated kitchen appliance 100 , which can make the wind feel symmetrical when the cold air blows to the user, effectively improving the user's cooking experience.

Specifically, the cold air duct 50 is connected to the evaporator 46, and the evaporator 46 can exchange heat and cool down the airflow. The air inlet of the cold air duct 50 is connected to the air outlet of the evaporator 46 , and the air outlet of the cold air duct 50 can be arranged in the front middle area of the integrated kitchen appliance 100 . The cold airflow generated by the evaporator 46 can be discharged through the cold air duct 50, the cold air duct 50 can guide the cold airflow, and discharge the guided cold airflow from the front middle area of the integrated kitchen appliance 100, so that the cold airflow blows to The wind feeling on the user's body is symmetrical from left to right, which effectively improves the user's cooking experience.

In some embodiments, the air conditioning module 12 includes a hot air duct 52 connected to the condenser 48. The hot air duct 52 guides the hot air discharged from the condenser 48 along a preset direction, and the guided hot air flows from the The flue 54 of the integrated kitchen appliance 100 exits. In this way, the hot air can be exhausted outdoors through the hot air duct 52 and the flue 54 to ensure a cool cooking environment for users.

Specifically, the hot air duct 52 is connected to the condenser 48, and the condenser 48 can exchange heat and lower the temperature of the airflow. The air inlet of the hot air duct 52 is connected to the air outlet of the condenser 48 , and the air outlet of the hot air duct 52 is connected to the flue 54 . In this way, the hot air flow is guided through the hot air duct 52 and discharged to the flue 54 , and then discharged to the outside through the flue 54 .

To sum up, the integrated kitchen appliance 100 is provided with a heat dissipation assembly 18 in the air conditioning module 12, and the heat dissipation assembly 18 includes a first heat insulation board 20 disposed on the outer surface of the side plate 15 of the box body 14 close to the cooking assembly and disposed on the box body. 14 The second heat insulation board 30 on the outer side of the top plate 32, the first heat insulation board 20 and the side plate 15 of the box body 14 form a heat dissipation air duct 24, and the low temperature air is transported through the heat dissipation fan 22, and the low temperature air enters through the air inlet 28, and passes through The air outlet 26 discharges air, forming a bottom-up airflow in the cooling air duct 24, and actively absorbing the heat generated by the cooking module 10 during operation. By setting the cooling assembly 18, the heat generated during the operation of the cooking module 10 can be isolated, so that the air temperature in the box body 14 will not exceed the overheating protection temperature of the air conditioning module 12, ensuring the smooth start of the air conditioning module 12 and bringing a cool experience to the user feel.

In the description of this specification, reference to the terms "one embodiment", "some embodiments", "exemplary embodiments", "example", "specific examples" or "some examples" etc. Specific features, structures, materials, or features described in an embodiment or example are included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the described specific features, structures, materials or characteristics may be combined in any suitable manner in any one or more embodiments or examples.

Although the embodiments of the present invention have been shown and described above, it can be understood that the above embodiments are exemplary and should not be construed as limiting the present invention, those skilled in the art can make the above-mentioned The embodiments are subject to changes, modifications, substitutions and variations.

Claims (10)

1. An integrated kitchen appliance, characterized in that it comprises: cooking module; The air-conditioning module includes a box body, an air-conditioning assembly and a heat dissipation assembly, the air-conditioning assembly is located in the box body, the cooking module is located outside the box body, and the heat dissipation assembly includes a first heat insulation board and a heat dissipation fan. The first heat insulation board is installed on the outside of the side plate close to the box body of the cooking module and forms a heat dissipation air passage between the side plate close to the box body of the cooking module, and the heat dissipation fan is located at the bottom of the box body , the heat dissipation fan is used to generate an airflow input into the heat dissipation air duct. 2. The integrated kitchen appliance according to claim 1, wherein an air outlet hole is opened on the upper part of the first heat insulation board, and the air outlet hole communicates with the heat dissipation air duct, and the first heat insulation board The lower part is provided with an air inlet hole, and the air inlet hole communicates with the heat dissipation air channel and the air outlet of the heat dissipation fan. 3 . The integrated kitchen appliance according to claim 1 , wherein the heat dissipation assembly includes a second heat insulation board, and the second heat insulation board is located outside the top plate of the box body. 4 . 4. The integrated kitchen appliance according to claim 1, wherein the first heat insulation board comprises a main body, a first connecting portion and a second connecting portion, and the first connecting portion is located on the upper part of the main body , front and rear and connect the body and the outside of the side panel of the box body, the second connecting part is located at the lower part of the body and connects the body, the outside of the side panel of the box body and the cooling fan. 5 . The integrated kitchen appliance according to claim 4 , wherein the second connection part defines an air inlet hole, and the air inlet hole communicates with the air outlet of the heat dissipation fan and the heat dissipation air duct. 5 . 6. The integrated kitchen appliance according to claim 1, wherein the cooking module is located on the upper side and the side of the box body, and the cooking module located on the side of the box body includes an oven module and/or a steamer The box module, the cooking module located on the upper side of the box body includes a cooker module. 7 . The integrated kitchen appliance according to claim 6 , wherein the oven module and the steamer module are stacked. 8. The integrated kitchen appliance according to claim 1, wherein a partition is provided in the box, and the partition divides the storage cavity in the box into an upper cavity and a lower cavity, and the air conditioner The assembly includes an evaporator and a condenser, the evaporator is arranged in the upper chamber, and the condenser is arranged in the lower chamber. 9. The integrated kitchen appliance according to claim 8, wherein the air conditioning module includes a cold air duct, the cold air duct is connected to the evaporator, and the cold air duct discharges the evaporator The cold air flow is guided along a preset direction, and the guided cold air flow is discharged from the front middle area of the integrated kitchen appliance. 10. The integrated kitchen appliance according to claim 8, wherein the air conditioning module includes a hot air duct, the hot air duct is connected to the condenser, and the hot air duct discharges the air from the condenser The hot air flow is guided along a preset direction, and the guided hot air flow is discharged from the flue of the integrated kitchen appliance.

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