CN217423343U - Integrated kitchen range - Google Patents

Abstract

The utility model provides an integrated kitchen, integrated kitchen includes: a cooking table comprising a first cavity; the box body is connected with the cooking table and comprises a second cavity communicated with the first cavity; the controller is arranged in the second cavity; the heat dissipation part is connected with the cooking table and/or the box body and used for dissipating heat of the first cavity and the second cavity. Through setting up the box body that is used for holding the controller, reduced the controller and received the influence of external heat source, can give off under the effect of heat dissipation part through setting up the radiating heat dissipation part that can be to box body inner space, make the heat in the controller. Therefore, the technical problems that the main control board is easy to lose efficacy or damage at high temperature and the safety and reliability of the integrated stove are poor are solved.

Description

Integrated kitchen range

Technical Field

The utility model relates to a kitchen utensil technical field particularly, relates to an integrated kitchen.

Background

In the related art, the main control panel of the integrated cooker gradually heats up due to self heating and the influence of an external heat source, so that the processing efficiency of the main control panel is influenced, and even the phenomenon of high-temperature damage of the main control panel is caused. Resulting in the safety and reliability of the product being affected.

Therefore, how to design an integrated cooker capable of effectively solving the above technical problems becomes a technical problem to be solved urgently.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least.

Therefore, the utility model discloses an aspect provides an integrated kitchen.

In view of this, according to the utility model discloses an aspect, the utility model provides an integrated kitchen, integrated kitchen includes: a cooking table comprising a first cavity; the box body is connected with the cooking table and comprises a second cavity communicated with the first cavity; the controller is arranged in the second cavity; the heat dissipation part is connected with the cooking table and/or the box body and used for dissipating heat of the first cavity and the second cavity.

The utility model provides an among the integrated kitchen, including culinary art platform and controller. The cooking bench is a main structure of the integrated cooker and is used for positioning and supporting other structures on the integrated cooker. The cooking table can provide a cooking operation table top for a user, and the user can finish heating of food materials on the cooking table top to obtain finished food meeting the requirements of the user. The cooking table is internally provided with a first cavity, the first cavity is used for accommodating electric devices such as a heating assembly, a sensor and a communicator, the heating assembly is taken as an example, the heating assembly can form a heating area on the cooking table, a cooker placed above the heating area is heated through the heating assembly, and therefore the high-temperature cooking requirement is met. The controller is connected with the electric device and used for controlling the working state of the electric device so as to meet the requirements of automatic cooking and intelligent cooking.

In the related art, the main control board of the integrated cooker may generate heat during the operation, and the heat of other electric devices may also be transferred to the main control board, resulting in the temperature of the main control board increasing with the operation time. When the temperature is too high, the problem that the function of the main control board is invalid and even the main control board is damaged at high temperature can occur. This problem can influence the life of integrated kitchen, and the container produces safety problems such as conflagration.

To this, among the technical scheme that this application injectd, integrated kitchen still is provided with box body and heat dissipation portion. Specifically, the box body is connected with the cooking table, is specifically located the cooking table outside, is formed with the second cavity in the box body, and the controller setting is in the second cavity. By arranging the controller in a second chamber located outside the first chamber, the controller can be isolated from the electrical device in the first chamber to reduce the effect of heat generated by the electrical device on the controller. On this basis, first cavity and second cavity are linked together to set up the heat dissipation part on culinary art platform and/or box body, the heat dissipation part can be simultaneously to the heat dissipation of the first cavity and the second cavity of intercommunication, with the heat dissipation demand that satisfies the internal controller of box simultaneously of heat dissipation demand of electrical part in the first cavity, thereby reduce the operating temperature of controller.

Therefore, the box body used for containing the controller is arranged, the influence of an external heat source on the controller is reduced, and the heat dissipation part capable of dissipating heat in the inner space of the box body is arranged, so that heat in the controller can be dissipated under the effect of the heat dissipation part. Therefore, the technical problems that the main control board is easy to lose efficacy or damage at high temperature and the safety and reliability of the integrated cooker are poor in the related technology are solved. And then realized optimizing integrated kitchen inner structure overall arrangement, promoted integrated kitchen security and reliability, extension controller life's technological effect.

Specifically, the heat dissipation part comprises a heat dissipation fan, a semiconductor refrigeration piece, a water cooling system and other structures, the specific structural form of the heat dissipation part is not rigidly limited by the technical scheme, and the heat dissipation requirements of the first cavity and the second cavity can be met.

Additionally, the utility model provides an above-mentioned integrated kitchen can also have following additional technical characterstic:

in the above technical solution, the cooking table further comprises a first vent; the box body is buckled on the outer side of the cooking table, and the first ventilation opening is communicated with the first cavity and the second cavity.

In this technical scheme, be provided with first vent on the culinary art platform, the opening lock of box body is in first vent week side to make first vent can communicate first cavity and second cavity. Through setting up first vent, can make the heat dissipation portion compromise the heat dissipation demand of first cavity and second cavity.

For example: when the heat dissipation part is provided with the fan, the first through hole can be used for transmitting heat dissipation airflow so as to take away heat on the electric device and the controller through the heat dissipation airflow flowing through the first cavity and the second cavity, and therefore heat dissipation of the first cavity and the second cavity is achieved.

When the heat dissipation part is provided with the semiconductor refrigerating piece, the first through hole can be used for transmitting cold energy, so that heat dissipated by the electric device and heat dissipated by the controller can be absorbed by the cold end on the semiconductor refrigerating piece, and heat dissipation of the first cavity and the second cavity is achieved.

When the heat dissipation part is provided with the water cooling system, the first through hole can be used for a water cooling pipeline to pass through and also can be used for transmitting cooling water, so that the heat dissipated by the electric device and the controller is absorbed by the cooling water flowing in the first cavity and the second cavity, and the heat dissipation of the first cavity and the second cavity is realized.

Therefore, through the arrangement of the first through holes, on one hand, the safety and the reliability of the integrated cooker are improved, and the technical effect of reducing the failure rate of the integrated cooker is achieved. On the other hand, make single heat dissipation portion can satisfy the heat dissipation demand of first cavity and second cavity simultaneously, compare in the technical scheme who sets up two sets of heat dissipation portions respectively, realized reducing integrated kitchen cost, for the miniaturized design of integrated kitchen and the light-weighted technical effect of designing the condition of facilitating that provides.

In any one of the above technical solutions, the cooking table further includes a second ventilation opening, the box body includes a third ventilation opening, and the heat dissipation portion includes: and the heat radiation fan is arranged in the first cavity and/or the second cavity.

In this technical scheme, the heat dissipation part includes the cooling fan. Specifically, a second ventilation opening is formed in the cooking table and communicated with the first cavity and the external space. The box body is provided with a third air inlet which is communicated with the second cavity and the external space. The second ventilation opening, the first cavity, the first ventilation opening, the second cavity and the third ventilation opening form a heat dissipation air duct, so that air can circulate among the external space, the first cavity and the second cavity, and heat on the electric device and the controller is taken away through air flow. On the basis, a heat dissipation fan is arranged in the first cavity and/or the second cavity and used for driving air in the heat dissipation air duct to flow so as to form heat dissipation airflow.

Wherein, can switch the function of second ventilation opening and third ventilation opening through switching cooling fan's the direction of turning to. For example, when the heating element in the first cavity is in a high-power working state, the heat generated by the heating element is far greater than the heat generated by the controller, and accordingly the third air inlet can be used for air inlet and the second air outlet can be used for air outlet by controlling the cooling fan to rotate along the first rotation direction, so that the heat dissipation effect of the controller is prevented from being influenced by a large amount of heat generated by the electric device.

Correspondingly, when the heating assembly is in a low-power working state or a shutdown state, the heat dissipation fan can be controlled to rotate along the second rotation direction, so that the second air inlet is enabled to be used for air inlet, and the third air inlet is enabled to be used for air outlet. Thereby avoiding the influence of the radiating airflow sprayed out of the cooking table on the user experience. And then realize promoting the radiating part radiating effect, promote the technological effect of integrated kitchen intelligent degree.

In any one of the above technical solutions, the cooling fan includes: the first heat dissipation fan is arranged in the first cavity and opposite to the first vent.

In this technical scheme, cooling fan includes first cooling fan, and first cooling fan sets up in first cavity, and first cooling fan sets up with first vent relatively. Specifically, when the electric device and/or the controller have heat dissipation requirements, the first heat dissipation fan is controlled to be started. Taking the first heat dissipation fan as an example to convey airflow to the first vent, under the action of the first heat dissipation fan, the external air is pumped into the first cavity through the second vent, and is discharged into the first vent by the first heat dissipation fan after the first cavity is subjected to heat dissipation, and then the air is discharged back to the external environment through the third vent after the heat dissipation of the second cavity is completed. Thereby satisfying the synchronous heat dissipation requirement of the first cavity and the second cavity. Wherein, set up first cooling fan in first cavity, can rational utilization culinary art platform's inner space, can reduce the wiring degree of difficulty on the one hand, on the other hand helps reducing the size of box body to avoid the box body to occupy too much space. And then realize optimizing integrated kitchen structural layout, reduce the technological effect of integrated kitchen structural complexity.

In any one of the above technical solutions, the cooling fan includes: and the second cooling fan is arranged in the second cavity and is opposite to the third air inlet.

In this technical scheme, the heat dissipation portion still includes second radiator fan. Specifically, the second cooling fan is arranged in the second cavity, and the second cooling fan is arranged opposite to the third air inlet. And the rated power of the second heat dissipation fan is smaller than that of the first heat dissipation fan, and the size of the second heat dissipation fan is smaller than that of the first heat dissipation fan correspondingly. When the electric device is in a shutdown state or a low-power state, the heat accumulated in the first cavity is less, and accordingly the second cooling fan with lower power can be controlled to be started so as to drive the gas to cool the first cavity and the second cavity. Thereby reduce the heat dissipation consumption of integrated kitchen, realize optimizing heat dissipation part structure, energy-concerving and environment-protective technological effect.

In any of the above technical solutions, the box body further includes a fourth vent; the third air inlet and the fourth air inlet are arranged on the peripheral side face of the box body and are arranged oppositely.

In the technical scheme, under the condition that the first cooling fan and the second cooling fan are simultaneously arranged in the integrated stove, the box body is also provided with a fourth air inlet. Specifically, the fourth air inlet and the third air inlet are both arranged on the peripheral side face of the box body, and the third air inlet and the fourth air inlet are respectively located on two opposite sides of the box body. Through setting up fourth wind gap, can form the second heat dissipation wind channel of constituteing by third wind gap, second cavity and fourth wind gap in the box body. When the electric device in the first cavity is in a low-power state or a shutdown state, the second cooling fan is independently controlled to be started so as to perform centralized cooling on the controller through the second cooling air duct, and airflow can rapidly circulate between the external space and the second cavity. When the electric device in the first cavity is in a high-power state, the first cooling fan is controlled to be started so as to simultaneously cool the first cavity and the second cavity. Therefore, the fourth air opening is arranged, so that the heat dissipation efficiency of the controller during heat dissipation is improved independently.

In any of the above technical solutions, there are a plurality of third vents and a plurality of fourth vents; the diameter ranges of the third air inlet and the fourth air inlet are as follows: greater than or equal to 1mm and less than or equal to 3 mm.

In the technical scheme, a plurality of third air inlets are formed in the first peripheral side face of the box body, and the third air inlets are uniformly distributed on at least part of the first peripheral side face. And a plurality of fourth air openings are arranged on the second peripheral side surface opposite to the first peripheral side surface and are uniformly distributed on at least partial area of the second peripheral side surface so as to ensure the inlet and outlet uniformity of cooling air flow and improve the heat dissipation uniformity.

On the basis, the diameters of the third air inlet and the fourth air inlet are more than or equal to 1mm and less than or equal to 3 mm. Through the diameter more than or equal to 1mm of injecing third wind gap and fourth wind gap, can guarantee the smooth and easy degree of heat dissipation air current circulation to be favorable to reducing aerodynamic noise. By limiting the diameters of the third air inlet and the fourth air inlet to be less than or equal to 3mm, large-size pollutants and insects can be prevented from entering the box body. Therefore, a reliable working environment is provided for the controller, and the failure rate of the controller is reduced.

In any one of the above technical solutions, the controller is spaced from the box body, and the integrated cooker further includes: the supporting part is arranged in the second cavity and connected with the box body and the controller.

In this technical scheme, integrated kitchen still is provided with the supporting part. The supporting part is arranged in the second cavity, one end of the supporting part is connected with the box body, the other end of the supporting part is connected with the controller, and the controller is supported through the supporting part, so that the controller is spaced from the inner surface of the box body. Through setting up the supporting part, can avoid the box body to shelter from the controller on the one hand, make the air current fully contact with the surface of controller to promote the radiating efficiency. On the other hand, the supporting part can select insulating material preparation to insulate through supporting part and air, avoid the control box to appear the electric leakage problem. And then realize promoting the controller radiating effect, promote the technological effect of integrated kitchen security.

The support part can be selected as an insulating stud, the controller is provided with a mounting hole corresponding to the stud, and the controller is riveted on the insulating stud through a screw on the basis. The structure is favorable for improving the positioning accuracy and the positioning reliability of the controller and reducing the probability that the controller loosens or even falls off. On the other hand, the structure has the advantage of card disassembly, and the operation difficulty of a user can be reduced when the controller is maintained. Thereby realizing the technical effects of improving the structural stability of the integrated cooker and providing convenience conditions for users.

In any of the above technical solutions, the cooking table includes: the first cavity is positioned in the shell, and the box body is connected with the shell; the panel is arranged on the shell and used for supporting the cooker; wherein, the casing is the metal casing, and the box body is the metal box body.

In this technical solution, the structure of the cooking table is defined. Specifically, the cooking table includes a housing and a panel. The shell is a main body frame structure of the integrated cooker and is used for positioning and supporting other structures on the integrated cooker. The panel is the structure that exposes of integrated kitchen, and the panel lid is established in the casing top, accomplishes the installation back of integrated kitchen, and the surface of panel is the operation mesa of integrated kitchen promptly, and the user can prevent the cooking utensil in the panel top to accomplish the high temperature culinary art of food. Be provided with the air intake on the panel, produce the negative pressure in the air intake in the course of the work, under the negative pressure effect, the oil smoke in the panel outside is impressed integrated kitchen via the air intake to accomplish the collection of oil smoke, thereby avoid the oil smoke to spread indoor.

On this basis, the casing is metal casing, and the box body is metal box body, and after the assembly of accomplishing box body and controller, metal box body encloses and closes out the second cavity, and the air intake on the metal box body is closed to the metal casing lid to make the controller wrapped up by metal casing and metal box body. The metal material possesses the advantage that can shield magnetic field to a certain extent, can avoid the controller to be influenced by the produced magnetic field of the electrical part in the first cavity through setting up metal casing and metal box body to guarantee the job stabilization nature of controller, reduce controller fault rate. Especially, when the electromagnetic heating structure is arranged in the first cavity, the controller and other electric equipment can be damaged by an electromagnetic field generated by the electromagnetic heating structure, and the negative influence of the electromagnetic heating structure can be reduced by arranging the metal shell and the metal box body. Further, the technical effects of optimizing the EMC (Electromagnetic Compatibility) of the integrated cooker and reducing the failure rate of the integrated cooker are achieved.

In any one of the above technical solutions, the integrated cooker further includes: the heating assembly is arranged in the first cavity.

In this technical scheme, integrated kitchen still includes heating element, and heating element installs in first cavity. Specifically, the heating assembly is coupled to the panel to form a heating zone on the panel. The heating assembly may directly heat the panel to heat the cooking appliance placed on the panel through the heated panel, or the heating assembly directly heats the cooking appliance placed on the corresponding region of the panel through the panel. Therefore, the technical scheme does not make hard limitation on the specific structure of the heating assembly, and the heating area can be formed on the panel.

In any one of the above technical scheme, the panel includes the air intake, and the casing includes the air outlet, and the culinary art platform still includes: and the air duct is arranged in the first cavity and communicated with the air inlet and the air outlet.

In the technical scheme, an air inlet used for extracting oil smoke is formed in the panel. An air outlet is arranged on the shell, and an air duct communicated with the air inlet and the air outlet is arranged in the first cavity. In the working process, the smoke machine pumps the oil smoke above the panel into the air duct through the air inlet, and finally the oil smoke is pumped into the smoke machine through the air duct and the air outlet so as to finish the collection of the oil smoke. Through setting up air intake, wind channel and air outlet, can fall the electrical part in oil smoke and the first cavity and separate to avoid the oil smoke to pollute electrical apparatus structure, and prevent that the oil smoke from getting into the box body. And then realize promoting integrated kitchen reliability, reduce the technological effect of integrated kitchen fault rate.

In any one of the above technical solutions, the integrated cooker further includes: the separating piece is arranged in the air channel and used for separating grease in the air channel.

In the technical scheme, the integrated cooker is further provided with a separating piece, the separating piece is arranged in the air duct, and after the separating piece is assembled, the separating piece is located on the inner side of the air inlet and opposite to the air inlet. During the working process, the oil smoke flowing into the air inlet firstly flows into the separating piece, and the oil in the oil smoke is separated from the air by the separating piece so as to prevent the oil smoke from continuously flowing into the range hood along with the air. Through setting up this separator, can avoid the grease in the oil smoke to adhere to on the inside working structure of integrated kitchen to prevent on the one hand that the grease from blockking up the wind channel, and avoid adhering to the grease on the inside working structure and cause troubles such as short circuit. On the other hand, the requirement of frequently cleaning the grease in the integrated cooker is avoided. Thereby solving the technical problems that the internal structure of the integrated cooker is easy to be damaged and the cleaning burden is increased by sucking grease.

In any one of the above technical solutions, the integrated cooker further includes: the cigarette machine subassembly is connected with the air outlet.

In this technical scheme, integrated kitchen still includes the cigarette machine subassembly, and the cigarette machine unit mount is on the casing, and is provided with the inlet end on the cigarette machine subassembly, and the inlet end is linked together with the air outlet, and the separator sets up between air inlet and inlet end to grease in the oil smoke that will flow to the inlet end separates out. The smoke machine component can extract air in the air duct to generate negative pressure in the area, and under the action of the negative pressure, oil smoke on the outer side of the panel is pressed into the smoke machine component to complete collection of the oil smoke, so that the oil smoke is prevented from being diffused into the room.

Through setting up this separator, can avoid the grease in the oil smoke to adhere to in the cigarette machine subassembly to prevent on the one hand that the grease from blockking up the cigarette machine subassembly, avoid the grease that adheres to on the cigarette machine subassembly to cause faults such as short circuit, on the other hand removes the demand of frequently wasing the inside grease of cigarette machine subassembly from. And then realize optimizing integrated kitchen structure, reduce integrated kitchen fault rate, extension integrated kitchen life promotes the technological effect that the user used and experienced for the condition that facilitates is provided to the user.

In any of the above technical solutions, the cigarette maker assembly and the cartridge body are both located at the bottom of the housing.

In this technical scheme, cigarette machine subassembly and box body all set up in the casing bottom, and the box body is located cigarette machine subassembly week side. Through setting up cigarette machine subassembly and box body in the casing bottom, can shelter from cigarette machine subassembly and box body through the culinary art platform, avoid cigarette machine subassembly and box body to expose in the user field of vision. And the longitudinal layout mode can save the transverse space and provide convenient conditions for the layout of the integrated cooker on the cooking bench.

In any one of the above technical solutions, the integrated cooker further includes: the flue component is connected with the smoke machine component.

In this technical scheme, integrated kitchen still includes the flue subassembly. The flue assembly is connected with the cigarette machine assembly. In the working process, under the driving of the operating smoke machine component, the gas flowing through the separating component is pumped into the smoke machine component and is finally discharged to a designated area through the flue component, so that the concentrated discharge of filtered oil smoke is completed on the basis of realizing the oil smoke extraction.

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

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 shows one of the structural schematics of an integrated cooker according to one embodiment of the present invention;

fig. 2 shows a second schematic structural view of an integrated cooker according to an embodiment of the present invention;

fig. 3 shows a third schematic structural view of an integrated cooker according to an embodiment of the present invention;

fig. 4 shows a fourth structural schematic view of an integrated cooker according to an embodiment of the present invention;

fig. 5 shows a fifth structural schematic view of an integrated cooker according to an embodiment of the present invention;

fig. 6 shows an exploded view of an integrated cooker according to an embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the component names in fig. 1 to 6 is:

100 integrated kitchen, 110 cooking bench, 112 first cavity, 114 first vent, 116 second vent, 117 casing, 118 panel, 120 box body, 122 second cavity, 124 third vent, 126 fourth vent, 130 controller, 140 heat dissipation portion, 142 first heat dissipation fan, 144 second heat dissipation fan, 150 support portion, 160 cigarette machine subassembly, 170 flue subassembly.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

An integrated cooker according to some embodiments of the present invention is described below with reference to fig. 1 to 6.

Example one

As shown in fig. 1, fig. 2, fig. 4 and fig. 5, an embodiment of the first aspect of the present invention provides an integrated oven 100, where the integrated oven 100 includes: a cooking table 110 including a first cavity 112; a case 120 connected to the cooking table 110, and including a second cavity 122 communicating with the first cavity 112; a controller 130 disposed in the second chamber 122; and a heat dissipating part 140 connected to the cooking table 110 and/or the case 120, for dissipating heat from the first and second cavities 112 and 122.

The utility model provides an among the integrated kitchen 100, including culinary art platform 110 and controller 130. The cooking table 110 is a main structure of the integrated hob 100 for positioning and supporting other structures on the integrated hob 100. The cooking table 110 can provide a cooking operation table for a user, and the user can finish heating food materials above the cooking table 110 to obtain finished food meeting the user's requirements. The cooking table 110 is formed with a first cavity 112 inside, the first cavity 112 is used for accommodating electric devices such as a heating assembly, a sensor, a communicator and the like, taking the heating assembly as an example, the heating assembly can form a heating area on the cooking table 110, so that cookers placed above the heating area are heated by the heating assembly, and the high-temperature cooking requirement is met. The controller 130 is connected with the electric devices and is used for controlling the working states of the electric devices so as to meet the requirements of automatic cooking and intelligent cooking.

In the related art, the main control board of the integrated cooker 100 generates heat during operation, and heat on other electric devices may be transferred to the main control board, resulting in an increase in temperature of the main control board with an increase in operation time. When the temperature is too high, the problem that the function of the main control board fails and even the main control board is damaged at high temperature can occur. This problem affects the life span of the integrated cooker 100, and the container generates a safety problem such as a fire.

In this regard, in the embodiment defined in the present application, the integrated hob 100 is further provided with a box 120 and a heat dissipation part 140. Specifically, the box 120 is connected to the cooking table 110, specifically, is located outside the cooking table 110, a second cavity 122 is formed in the box 120, and the controller 130 is disposed in the second cavity 122. By locating the controller 130 in the second housing 122 outside the first housing 112, the controller 130 may be isolated from the electrical components in the first housing 112 to reduce the effects of heat generated by the electrical components on the controller 130. On this basis, the first cavity 112 and the second cavity 122 are communicated, and the heat dissipation part 140 is disposed on the cooking table 110 and/or the box body 120, the heat dissipation part 140 can dissipate heat of the communicated first cavity 112 and second cavity 122 at the same time, so as to satisfy the heat dissipation requirement of the electric device in the first cavity 112 and the heat dissipation requirement of the controller 130 in the box body 120, thereby reducing the working temperature of the controller 130.

Therefore, the case 120 for accommodating the controller 130 is provided to reduce the influence of an external heat source on the controller 130, and the heat dissipation part 140 for dissipating heat from the internal space of the case 120 is provided to dissipate heat in the controller 130 by the heat dissipation part 140. Therefore, the technical problems that the main control panel is easy to fail or damage at high temperature and the safety and reliability of the integrated cooker 100 are poor in the related technology are solved. And then realized optimizing integrated kitchen 100 inner structure overall arrangement, promoted integrated kitchen 100 security and reliability, extension controller 130 life's technical effect.

Specifically, the heat dissipation portion 140 includes a heat dissipation fan, a semiconductor cooling element, a water cooling system, and the like, and the specific structural form of the heat dissipation portion 140 is not rigidly limited in this embodiment, so that the heat dissipation requirements of the first cavity 112 and the second cavity 122 can be satisfied.

Example two

As shown in fig. 1, 2 and 3, in the second aspect embodiment of the present invention, the cooking table 110 further includes a first ventilation opening 114; the box 120 is fastened to the outside of the cooking table 110, and the first ventilation opening 114 is communicated with the first cavity 112 and the second cavity 122.

In this embodiment, the cooking table 110 is provided with a first ventilation opening 114, and the opening of the box body 120 is fastened around the first ventilation opening 114, so that the first ventilation opening 114 can communicate the first cavity 112 and the second cavity 122. By providing the first ventilation openings 114, the heat dissipation portion 140 can satisfy the heat dissipation requirements of the first cavity 112 and the second cavity 122.

For example: when the heat dissipating part 140 is provided with a fan, the first through hole may be used to transmit a heat dissipating airflow to take heat away from the electric device and the controller 130 by the heat dissipating airflow flowing through the first and second cavities 112 and 122, so as to dissipate the heat of the first and second cavities 112 and 122.

When the heat dissipating part 140 is provided with the semiconductor cooler, the first through hole may be used to transfer cold energy, so that heat dissipated by the electric device and heat dissipated by the controller 130 may be absorbed by the cold end of the semiconductor cooler, so as to dissipate heat of the first cavity 112 and the second cavity 122.

When the heat dissipating part 140 is provided with a water cooling system, the first through hole may pass through a water cooling pipeline and may also be used to transfer cooling water, so that heat dissipated from the electric devices and the controller 130 is absorbed by the cooling water flowing in the first and second cavities 112 and 122, thereby dissipating heat from the first and second cavities 112 and 122.

Therefore, through the arrangement of the first through holes, on one hand, the safety and the reliability of the integrated cooker 100 are improved, and the technical effect of reducing the failure rate of the integrated cooker 100 is achieved. On the other hand, a single heat dissipation portion 140 can simultaneously satisfy the heat dissipation requirements of the first cavity 112 and the second cavity 122, and compared with an embodiment in which two sets of heat dissipation portions 140 are respectively provided, the technical effects of reducing the cost of the integrated cooker 100 and providing convenience for the miniaturization design and the lightweight design of the integrated cooker 100 are achieved.

In any of the above embodiments, the cooking table 110 further includes the second ventilation opening 116, the box 120 includes the third ventilation opening 124, and the heat dissipation part 140 includes: and the heat radiation fan is arranged in the first cavity 112 and/or the second cavity 122.

In this embodiment, the heat dissipation portion 140 includes a heat dissipation fan. Specifically, the cooking table 110 is provided with a second ventilation opening 116, and the second ventilation opening 116 communicates the first cavity 112 and the external space. The box body 120 is provided with a third vent 124, and the third vent 124 communicates the second chamber 122 with the external space. The second ventilation opening 116, the first cavity 112, the first ventilation opening 114, the second cavity 122 and the third ventilation opening 124 form a heat dissipation air duct, so that air can circulate between the external space, the first cavity 112 and the second cavity 122, and heat on the electric device and the controller 130 can be taken away through air flow. On the basis, a heat dissipation fan is arranged in the first cavity 112 and/or the second cavity 122, and the heat dissipation fan is used for driving air in the heat dissipation air duct to flow so as to form heat dissipation air flow.

Wherein, the functions of the second ventilation opening 116 and the third ventilation opening 124 can be switched by switching the rotation direction of the heat dissipation fan. For example, when the heating element in the first cavity 112 is in the high power operation state, the heat generated by the heating element is much larger than the heat generated by the controller 130, and therefore, the third ventilation opening 124 can be used for air intake and the second ventilation opening 116 can be used for air outlet by controlling the cooling fan to rotate along the first rotation direction, so as to prevent a large amount of heat generated by the electric device from affecting the cooling effect of the controller 130.

Correspondingly, when the heating assembly is in a low power operating state or a shutdown state, the heat dissipation fan can be controlled to rotate in the second rotation direction, so that the second air inlet 116 is enabled to be supplied with air, and the third air inlet 124 is enabled to be supplied with air. Thereby preventing the radiating airflow jetted out of the cooking bench 110 from affecting the user experience. Thereby realizing the technical effects of improving the heat dissipation effect of the heat dissipation part 140 and improving the intelligent degree of the integrated cooker 100.

EXAMPLE III

As shown in fig. 1 and fig. 2, in the third embodiment of the present invention, the cooling fan includes: the first heat dissipation fan 142 is disposed in the first cavity 112 and opposite to the first ventilation opening 114.

In this embodiment, the heat dissipation fan includes a first heat dissipation fan 142, the first heat dissipation fan 142 is disposed in the first cavity 112, and the first heat dissipation fan 142 is disposed opposite to the first ventilation opening 114. Specifically, the first heat dissipation fan 142 is controlled to be turned on when there is a heat dissipation demand from the electrical device and/or the controller 130. Taking the first heat dissipation fan 142 as an example of delivering airflow to the first ventilation opening 114, under the action of the first heat dissipation fan 142, the external air is drawn into the first cavity 112 through the second ventilation opening 116, and is discharged into the first ventilation opening 114 by the first heat dissipation fan 142 after the first cavity 112 is subjected to heat dissipation, and then the external air is discharged back to the external environment through the third ventilation opening 124 after the heat dissipation of the second cavity 122 is completed. Thereby satisfying the simultaneous heat dissipation requirements of the first and second cavities 112 and 122. Wherein, set up first cooling fan 142 in first cavity 112, can rational utilization culinary art platform 110's inner space, can reduce the wiring degree of difficulty on the one hand, on the other hand helps reducing the size of box body 120 to avoid box body 120 to occupy too much space. And further, the technical effects of optimizing the structural layout of the integrated cooker 100 and reducing the structural complexity of the integrated cooker 100 are achieved.

In any of the above embodiments, the heat dissipation fan includes: the second heat dissipation fan 144 is disposed in the second cavity 122 and opposite to the third ventilation opening 124.

In this embodiment, the heat dissipation part 140 further includes a second heat dissipation fan 144. Specifically, the second heat dissipation fan 144 is disposed in the second cavity 122, and the second heat dissipation fan 144 is disposed opposite to the third air outlet 124. The rated power of the second heat dissipation fan 144 is smaller than the rated power of the first heat dissipation fan 142, and correspondingly, the size of the second heat dissipation fan 144 is smaller than the size of the first heat dissipation fan 142. When the electrical device is in the shutdown state or the low power state, the heat accumulated in the first chamber 112 is less, and for this reason, the second heat dissipation fan 144 with lower power can be controlled to be turned on to drive the gas to dissipate the heat of the first chamber 112 and the second chamber 122. Therefore, the heat dissipation power consumption of the integrated cooker 100 is reduced, the structure of the heat dissipation part 140 is optimized, and the technical effects of energy conservation and environmental protection are achieved.

In any of the above embodiments, the cartridge body 120 further includes a fourth vent 126; the third vent 124 and the fourth vent 126 are disposed on the peripheral side of the box 120, and the third vent 124 and the fourth vent 126 are disposed opposite to each other.

In this embodiment, in the case that the first and second heat dissipation fans 142 and 144 are simultaneously disposed in the integrated oven 100, the fourth air outlet 126 is further disposed on the box body 120. Specifically, the fourth ventilation opening 126 and the third ventilation opening 124 are both disposed on the peripheral side surface of the box body 120, and the third ventilation opening 124 and the fourth ventilation opening 126 are respectively located on two opposite sides of the box body 120. By providing the fourth air vent 126, a second heat dissipation air duct composed of the third air vent 124, the second cavity 122 and the fourth air vent 126 can be formed in the box body 120. When the electric devices in the first chamber 112 are in a low power state or a shutdown state, the second cooling fan 144 is independently controlled to be turned on to perform centralized cooling on the controller 130 through the second cooling air duct, so that the air flow can rapidly circulate between the external space and the second chamber 122. When the electric devices in the first cavity 112 are in a high power state, the first heat dissipation fan 142 is controlled to be turned on to simultaneously dissipate heat from the first cavity 112 and the second cavity 122. Therefore, the fourth ventilation opening 126 is provided to help improve the heat dissipation efficiency when the controller 130 is separately dissipated.

In any of the above embodiments, there are a plurality of third vents 124 and a plurality of fourth vents 126; the range of the diameters of the third vent 124 and the fourth vent 126 is: greater than or equal to 1mm and less than or equal to 3 mm.

In this embodiment, the first peripheral side of the box body 120 is provided with a plurality of third ventilation openings 124, and the plurality of third ventilation openings 124 are uniformly distributed on at least a partial region of the first peripheral side. A plurality of fourth air ports 126 are arranged on the second peripheral side surface opposite to the first peripheral side surface, and the plurality of fourth air ports 126 are uniformly distributed on at least partial area of the second peripheral side surface so as to ensure the inlet and outlet uniformity of cooling air flow and improve the heat dissipation uniformity.

On this basis, the diameters of the third vent 124 and the fourth vent 126 need to be greater than or equal to 1mm and less than or equal to 3 mm. By limiting the diameters of the third vent 124 and the fourth vent 126 to be greater than or equal to 1mm, the smoothness of the circulation of the heat dissipation airflow can be ensured, and the reduction of aerodynamic noise is facilitated. By defining the diameters of the third ventilation opening 124 and the fourth ventilation opening 126 to be 3mm or less, large-sized contaminants and insects can be prevented from entering the box body 120. Thereby providing a reliable operating environment for the controller 130 and reducing the failure rate of the controller 130.

Example four

As shown in fig. 1 and 2, in the fourth embodiment of the present invention, the controller 130 is spaced apart from the box 120, and the integrated cooker 100 further includes: and a support part 150 disposed in the second chamber 122 and connecting the case 120 and the controller 130.

In this embodiment, the integrated cooker 100 is further provided with a support portion 150. The supporting part 150 is disposed in the second cavity 122, and one end of the supporting part 150 is connected to the case 120 and the other end is connected to the controller 130, so that the controller 130 is supported by the supporting part 150 to be spaced apart from the inner surface of the case 120. By providing the supporting portion 150, on one hand, the box 120 can be prevented from shielding the controller 130, so that the air flow can be sufficiently contacted with the outer surface of the controller 130, thereby improving the heat dissipation efficiency. On the other hand, the supporting portion 150 can be made of an insulating material, so that the supporting portion 150 is insulated from air, and the problem of electric leakage of the control box is avoided. Thereby realizing the technical effects of improving the heat dissipation effect of the controller 130 and improving the safety of the integrated cooker 100.

The support part 150 may be an insulating stud, and the controller 130 is provided with a mounting hole corresponding to the stud, and the controller 130 is riveted to the insulating stud by a screw. On one hand, the structure is beneficial to improving the positioning precision and the positioning reliability of the controller 130 and reducing the probability that the controller 130 loosens or even falls off. On the other hand, the structure has the advantage of card detachment, and the operation difficulty of a user can be reduced when the controller 130 is maintained. Thereby realizing the technical effects of improving the structural stability of the integrated cooker 100 and providing convenience for users.

EXAMPLE five

As shown in fig. 4, 5 and 6, in the fifth embodiment of the present invention, the cooking table 110 includes: the shell 117, the first cavity 112 is positioned in the shell 117, and the box 120 is connected with the shell 117; a panel 118 disposed on the housing 117, the panel 118 supporting the cooker; wherein, the housing 117 is a metal housing 117, and the case 120 is a metal case 120.

In this embodiment, the structure of the cooking table 110 is defined. Specifically, the cooking table 110 includes a housing 117 and a panel 118. The housing 117 is a main frame structure of the integrated cooker 100 for positioning and supporting other structures on the integrated cooker 100. The panel 118 is an exposed structure of the integrated cooker 100, the panel 118 is covered above the housing 117, after the integrated cooker 100 is installed, the surface of the panel 118 is an operation table of the integrated cooker 100, and a user can prevent the cooker from being above the panel 118 to finish high-temperature cooking of food. The panel 118 is provided with an air inlet, negative pressure is generated in the air inlet in the working process, and under the action of the negative pressure, oil smoke outside the panel 118 is pressed into the integrated stove 100 through the air inlet to complete collection of the oil smoke, so that the oil smoke is prevented from being diffused into the room.

On this basis, the housing 117 is a metal housing 117, and the box 120 is a metal box 120, after the assembly of the box 120 and the controller 130 is completed, the metal box 120 encloses a second cavity 122, and the metal housing 117 covers the air inlet on the metal box 120, so that the controller 130 is wrapped by the metal housing 117 and the metal box 120. The metal material has the advantage of shielding the magnetic field to a certain extent, and the metal shell 117 and the metal box 120 are arranged to prevent the controller 130 from being influenced by the magnetic field generated by the electric device in the first cavity 112, so that the working stability of the controller 130 is ensured, and the failure rate of the controller 130 is reduced. Particularly, when the electromagnetic heating structure is disposed in the first cavity 112, the controller 130 and other electric devices may be damaged by an electromagnetic field generated by the electromagnetic heating structure, and the adverse effect of the electromagnetic heating structure may be reduced by disposing the metal housing 117 and the metal box 120. Thereby realizing the technical effects of optimizing the electromagnetic Compatibility of the integrated cooker 100 and reducing the failure rate of the integrated cooker 100.

EXAMPLE six

As shown in fig. 4, 5 and 6, in the sixth embodiment of the present invention, the integrated cooker 100 further includes: a heating element disposed in the first chamber 112.

In this embodiment, the integrated cooker 100 further includes a heating assembly mounted in the first cavity 112. Specifically, the heating assembly is coupled to the panel 118 to form a heating zone on the panel 118. The heating assembly may directly heat the panel 118 to heat the cooking utensil placed on the panel 118 through the warmed panel 118, or the heating assembly directly heats the cooking utensil placed on the corresponding area of the panel 118 through the panel 118. In this regard, the embodiment does not rigidly limit the specific structure of the heating assembly, and the heating region may be formed on the panel 118.

In any of the above embodiments, the panel 118 includes an air inlet, the housing 117 includes an air outlet, and the cooking table 110 further includes: and the air duct is arranged in the first cavity 112 and is communicated with the air inlet and the air outlet.

In this embodiment, the panel 118 is provided with an air inlet for extracting oil smoke. An air outlet is formed in the housing 117, and an air duct communicating the air inlet and the air outlet is formed in the first cavity 112. During operation, the smoke machine pumps the oil smoke above the panel 118 into the air duct via the air inlet, and finally the oil smoke is pumped into the smoke machine via the air duct and the air outlet to complete collection of the oil smoke. By providing the air inlet, the air duct, and the air outlet, the oil smoke can be separated from the electrical devices in the first cavity 112 to prevent the oil smoke from contaminating the electrical device structure and entering the box 120. Thereby realizing the technical effects of improving the reliability of the integrated cooker 100 and reducing the failure rate of the integrated cooker 100.

In any of the above embodiments, the integrated cooker 100 further includes: the separating piece is arranged in the air channel and used for separating grease in the air channel.

In this embodiment, the integrated cooker 100 is further provided with a separating member, the separating member is disposed in the air duct, and after the assembly of the separating member is completed, the separating member is located inside the air inlet and opposite to the air inlet. During the working process, the oil smoke flowing into the air inlet firstly flows into the separating piece, and the oil in the oil smoke is separated from the air by the separating piece so as to prevent the oil smoke from continuously flowing into the range hood along with the air. Through setting up this separator, can avoid the grease in the oil smoke to adhere to on the internal work structure of integrated kitchen 100 to prevent on the one hand that the grease from blockking up the wind channel, and avoid adhering to the grease on the internal work structure and cause troubles such as short circuit. And on the other hand, the requirement of frequently cleaning grease inside the integrated cooker 100 is avoided. Thereby solving the technical problems that the internal structure of the integrated cooker 100 is easy to be damaged, and the grease is sucked to increase the cleaning load.

In any of the above embodiments, the integrated cooker 100 further includes: the cigarette machine component 160 is connected with the air outlet.

In this embodiment, the integrated cooker 100 further comprises a cigarette maker assembly, the cigarette maker assembly is mounted on the housing 117, and is provided with an air inlet end, the air inlet end is communicated with the air outlet, and the separating member is disposed between the air inlet and the air inlet end to separate grease flowing into the oil smoke of the air inlet end. The smoke exhaust assembly can draw air in the air duct to generate negative pressure in the area, and under the action of the negative pressure, oil smoke outside the panel 118 is pressed into the smoke exhaust assembly to complete collection of the oil smoke, so that the oil smoke is prevented from being diffused into the room.

Through setting up this separator, can avoid the grease in the oil smoke to adhere to in the cigarette machine subassembly to prevent on the one hand that the grease from blockking up the cigarette machine subassembly, avoid the grease that adheres to on the cigarette machine subassembly to cause faults such as short circuit, on the other hand removes the demand of frequently wasing the inside grease of cigarette machine subassembly from. And then realize optimizing integrated kitchen 100 structure, reduce integrated kitchen 100 fault rate, prolong integrated kitchen 100 life, for the user provides the condition of facilitating, promote the technological effect that the user used and experienced.

In any of the above embodiments, the cigarette maker assembly 160 and the cartridge 120 are both located at the bottom of the housing 117.

In this embodiment, the cigarette maker assembly 160 and the packet 120 are both disposed at the bottom of the housing 117, and the packet 120 is located on the periphery of the cigarette maker assembly 160. By positioning the cigarette maker assembly 160 and the cartridge 120 at the bottom of the housing 117, the cigarette maker assembly 160 and the cartridge 120 may be shielded by the cooking station 110, preventing the cigarette maker assembly 160 and the cartridge 120 from being exposed to the user's view. And the longitudinal layout mode can save the transverse space and provide convenient conditions for the layout of the integrated cooker 100 on the cooking bench.

In any of the above embodiments, the integrated cooker 100 further includes: a flue assembly 170 connected to the cigarette maker assembly 160.

In this embodiment, the integrated cooker 100 further includes a flue assembly 170. The flue assembly 170 is connected to the cigarette maker assembly 160. In operation, under the drive of the operating cigarette machine assembly 160, the gas flowing through the separating member is drawn into the cigarette machine assembly 160 and finally discharged to a designated area by the flue assembly 170, thereby accomplishing the concentrated discharge of filtered lampblack on the basis of realizing the lampblack extraction.

In the description of the present invention, the terms "plurality" or "a plurality" refer to two or more, and unless otherwise specifically defined, the terms "upper" and "lower" and the like indicate orientations or positional relationships based on the drawings, which are merely for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention; the terms "connected," "mounted," "secured," and the like are to be construed broadly and include, for example, fixed connections, removable connections, or integral connections; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the description of the present invention, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In the present disclosure, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (15)

1. An integrated cooker, characterized by comprising:

a cooking table comprising a first cavity;

the box body is connected with the cooking table and comprises a second cavity communicated with the first cavity;

the controller is arranged in the second cavity;

and the heat dissipation part is connected with the cooking table and/or the box body and is used for dissipating heat of the first cavity and the second cavity.

2. The integrated cooker according to claim 1,

the cooking table further comprises a first vent;

the box body is buckled on the outer side of the cooking table, and the first ventilation opening is communicated with the first cavity and the second cavity.

3. The integrated cooker of claim 2, wherein the cooking table further comprises a second ventilation opening, the case comprises a third ventilation opening, and the heat dissipation part comprises:

and the heat radiation fan is arranged in the first cavity and/or the second cavity.

4. The integrated cooker according to claim 3, wherein the cooling fan comprises:

and the first heat dissipation fan is arranged in the first cavity and is opposite to the first ventilation opening.

5. The integrated cooker according to claim 4, wherein the cooling fan further comprises:

and the second cooling fan is arranged in the second cavity and is opposite to the third air inlet.

6. The integrated cooker according to claim 5,

the box body also comprises a fourth air inlet;

the third air inlet and the fourth air inlet are arranged on the peripheral side face of the box body, and the third air inlet and the fourth air inlet are arranged oppositely.

7. The integrated cooker according to claim 6,

the number of the third ventilation openings is multiple, and the number of the fourth ventilation openings is multiple;

the diameters of the third vent and the fourth vent are within the following ranges: greater than or equal to 1mm and less than or equal to 3 mm.

8. The integrated cooker according to any one of claims 1 to 7, wherein the controller is spaced apart from the case, the integrated cooker further comprising:

and the supporting part is arranged in the second cavity and connected with the box body and the controller.

9. The integrated cooker according to any one of claims 1 to 7, wherein the cooking table comprises:

the first cavity is positioned in the shell, and the box body is connected with the shell;

the panel is arranged on the shell and used for supporting the cooker;

the shell is a metal shell, and the box body is a metal box body.

10. The integrated cooker of claim 9, further comprising:

and the heating assembly is arranged in the first cavity.

11. The integrated cooktop of claim 9, wherein the panel comprises an air intake, the housing comprises an air outlet, the cooking table further comprising:

and the air channel is arranged in the first cavity and communicated with the air inlet and the air outlet.

12. The integrated cooker of claim 11, further comprising:

and the separating piece is arranged in the air channel and used for separating grease in the air channel.

13. The integrated cooker of claim 11, further comprising:

the cigarette machine subassembly, with the air outlet is connected.

14. The integrated cooktop of claim 13, wherein the assembly of cigarette machines and the cartridge are both located at the bottom of the housing.

15. The integrated cooker of claim 13, further comprising:

the flue component is connected with the cigarette machine component.

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