CN220186885U - Integrated kitchen of area heat dissipation function - Google Patents

Abstract

The utility model discloses an integrated kitchen with a heat dissipation function, which comprises cooking equipment with a cooking chamber and a kitchen range positioned above the cooking equipment, wherein the kitchen range comprises a kitchen range shell with an open top surface and a kitchen range buckled at the top of the kitchen range shell, a kitchen range tray is arranged on the kitchen range, electronic elements are arranged in the kitchen range shell, a plurality of heat dissipation holes are formed in the surface of the kitchen range shell, the kitchen range tray comprises a kitchen range frame and a heat insulation energy collection tray, and the kitchen range frame is arranged above the heat insulation energy collection tray and is used for supporting a cooker; the heat-insulating energy-collecting plate is arranged on the center of the heat-insulating energy-collecting plate, and the heat-insulating energy-collecting plate is emptied and arranged on the cooking bench through a connecting piece and is used for radiating heat energy generated by combustion of fuel gas to one side far away from the cooking bench. The utility model can solve the problem of downward heat transfer of the gas stove of the integrated stove, and simultaneously increases the heat dissipation space, and omits the heat dissipation fan in the stove shell, thereby reducing noise and manufacturing cost.

Description

Integrated kitchen of area heat dissipation function

Technical Field

The utility model relates to the technical field of integrated stoves, in particular to an integrated stove with a heat dissipation function.

Background

The integrated kitchen is a common kitchen ware in a kitchen, and can integrate the gas kitchen and the range hood, so that the integrated kitchen is more convenient to use. The existing integrated kitchen range is added with cooking equipment in order to save kitchen space, however, the integrated kitchen range with the cooking equipment also has some problems in the use process.

First, the cooktop use of an integrated cooktop can have an unfriendly impact on the equipment below it. This problem arises from the gas cookers in integrated cookers, because a great deal of heat is generated during combustion, and this heat is transferred downwards, raising the service temperature of the underlying equipment, which can lead to poor heat dissipation of the equipment, thus affecting the service life and safety of the equipment, which is particularly pronounced in long-term use.

Secondly, gas-cooker and the cooking equipment of integrated kitchen are integrated design, closely link to each other between the two, have accelerated the heat transfer each other, and cooking equipment's use can make self temperature rise, receives the self heat of the combustion heat of top gas-cooker and below cooking equipment in the kitchen shell, leads to the electrical components life in the kitchen shell to drop sharply.

In the prior art, two types of heat dissipation are carried out on the stove shell, namely, a heat dissipation hole is added on the side wall of the stove shell, so that the air circulation is improved, and the temperature of equipment below is reduced, but because the heat dissipation hole needs to be arranged on the premise of ensuring the basic function and the safety of the integrated stove, higher requirements are put forward on the design and the manufacturing technology of the heat dissipation hole, and the heat dissipation speed and the heat dissipation effect are not ideal; secondly, a heat dissipation device is additionally arranged in the oven shell, and the heat dissipation in the oven shell is accelerated by adopting a fan, an air duct and other structures, for example, a patent CN111503671A is an integrated oven with a cooking device, a heat dissipation system is arranged in the integrated oven, and the heat of an electric element is sent to the outside again through the air inlet of the side wall of the oven shell, so that the heat dissipation of the electric element is realized; however, the fan in the heat dissipation system may increase noise to affect the user's feeling, and at the same time, the heat absorbing assembly provided at the cooking bench may increase the cost of the apparatus, so that the price of the product becomes more expensive.

Disclosure of Invention

In order to overcome at least one of the defects described in the prior art, the utility model provides an integrated stove with a heat dissipation function. The problem of the gas-cooker heat downward transmission of integrated kitchen can be solved, the heat dissipation space has been increaseed simultaneously, the heat dissipation fan in the stove shell has been saved to noise and manufacturing cost have been reduced.

The utility model adopts the technical proposal for solving the problems that:

the integrated kitchen with the heat dissipation function comprises cooking equipment with a cooking chamber and a kitchen range positioned above the cooking equipment, wherein the kitchen range comprises a kitchen range shell with an open top surface and a kitchen range buckled at the top of the kitchen range shell, a kitchen range tray is arranged on the kitchen range, electronic elements are arranged in the kitchen range shell, a plurality of heat dissipation holes are formed in the surface of the kitchen range shell, the kitchen range tray comprises a kitchen range frame and a heat insulation energy collection tray, and the kitchen range frame is arranged above the heat insulation energy collection tray and used for supporting a cooker; the heat-insulating energy-collecting plate is arranged on the center of the heat-insulating energy-collecting plate, and the heat-insulating energy-collecting plate is emptied and arranged on the cooking bench through a connecting piece and is used for radiating heat energy generated by combustion of fuel gas to one side far away from the cooking bench.

Through adopting above-mentioned scheme, thermal-insulated energy collection dish can keep apart the flame temperature of cooking utensils and top of a kitchen range to greatly reduced the influence of flame to the kitchen range shell, thereby make the inside electronic component of kitchen range shell be in suitable operating temperature range, improve electronic component's life greatly.

Further, at least one layer of hollow interlayer is arranged in the heat-insulating energy-gathering disk and used for heat insulation.

Through adopting above-mentioned scheme, through setting up hollow intermediate layer, can effectively be isolated flame temperature, the discoid structure is favorable to gathering flame temperature simultaneously, improves the heating effect of pan, improves cooking efficiency.

Further, the kitchen range frame is connected with the heat-insulating energy-collecting disc in an embedded mode, so that the kitchen range frame is at least partially embedded into the hollow interlayer.

By adopting the scheme, the connection stability between the kitchen range frame and the heat-insulating energy-collecting plate is improved.

Further, the bottom of the heat-insulating energy-collecting plate is provided with an assembly base, the assembly base is provided with an assembly hole, and the connecting piece penetrates through the assembly hole and is connected with the cooking bench and used for supporting and fixing the heat-insulating energy-collecting plate.

By adopting the scheme, the heat-insulating energy-collecting tray is used for being erected, so that direct contact with a cooking bench is avoided, and the distance between flame and the cooking bench is further increased.

Further, a heat dissipation space is arranged between the kitchen range and the cooking equipment, and the height of the heat dissipation space is at least the height of the kitchen range.

Through adopting above-mentioned scheme, can set up cooking utensils and cooking equipment interval to reduce the heat transfer rate between the two, the circulation has the air in the heat dissipation space simultaneously, can realize the radiating effect, thereby reduced the heat that cooking equipment work produced and influenced electronic component in the kitchen shell, improved electronic component's life greatly.

Further, the cooking bench is provided with an exhaust hole, and the exhaust hole is communicated with the cooking chamber through a steam pipeline and is used for exhausting hot steam in the cooking chamber.

Through adopting above-mentioned scheme, can discharge the interior hot steam of cooking to the top of a kitchen range outside, avoid directly discharging from the steam room and lead to steam to rise to the stove shell bottom to can not appear producing the problem that the temperature risees to the stove shell inside, improve electronic component's life greatly.

Further, a control chamber is arranged in the cooking equipment, the exhaust hole is communicated with the control chamber of the cooking equipment through a heat dissipation pipeline, and a fan is arranged in the control chamber and used for pumping hot air in the control chamber.

Through adopting above-mentioned scheme, avoid cooking equipment's control cavity temperature piles up, causes the damage scheduling problem to the electrical components in the control cavity to improve cooking equipment's control cavity's life.

Further, an air collecting cavity is arranged in the kitchen range shell, the air collecting cavity is a cavity with two open ends, one end of the air collecting cavity is connected with the bottom of the kitchen range, and the other end of the air collecting cavity is connected with the bottom plate of the kitchen range shell.

Through adopting above-mentioned scheme, can concentrate the gas in steam pipe and the radiating pipe and collect, realize concentrating the exhaust from the top of a kitchen range, avoid the gas to discharge the position too much, can't be absorbed by the phenomenon completely of cigarette machine.

Further, a gas collecting box is arranged in the gas collecting cavity and is communicated with the exhaust hole, the gas collecting box is also communicated with the steam pipeline and the heat dissipation pipeline, and the side wall of the gas collecting box is arranged at intervals with the gas collecting cavity.

Through adopting above-mentioned scheme, through setting up gas-collecting chamber and gas-collecting box interval, the gas temperature in the gas-collecting box has significantly reduced the influence of gas temperature too high to the interior environment of the kitchen shell outside the gas-collecting chamber.

Further, when the gas collecting cavity is clung to the inner side wall of any side of the kitchen range shell, one side of the gas collecting cavity, which is close to the inner side wall, is opened, and the gas collecting cavity is clung to the inner side wall to form a cavity with two open ends.

By adopting the scheme, the consumable of the gas collection cavity can be saved.

In summary, the integrated stove with the heat dissipation function provided by the utility model has the following technical effects:

1. the heat insulation energy collection disc is arranged on the cooking bench, so that flame temperature generated by the cooking range can be isolated from the cooking bench, the temperature rise of a kitchen range shell below the cooking bench is avoided, the use temperature of electronic elements in the kitchen range shell is proper, and the service life of the electronic elements is greatly prolonged;

2. by arranging the heat dissipation space between the kitchen range and the cooking equipment, the influence of heat generated by the cooking equipment on the temperature in the kitchen range shell is avoided, the heat dissipation area of the kitchen range shell is greatly increased, the heat dissipation effect is improved, and the service life of the electronic element is prolonged;

3. steam and hot air generated by the cooking equipment are discharged through the steam pipeline and the heat dissipation pipeline, so that the influence of direct rising on the temperature of the bottom of the oven shell is avoided, and the proper environment temperature in the oven shell is maintained, thereby prolonging the service life of the electronic element;

4. the gas collection cavity and the gas collection box are arranged in the kitchen cavity, so that the gas exhausted outside the cooking equipment can be collected and discharged in a concentrated manner, and the burden on the smoke absorption of the smoke machine is avoided;

5. the gas collecting box is arranged in the gas collecting cavity, and the gas collecting box are arranged at intervals, so that heat transfer of high-temperature gas in the gas collecting box to the gas collecting cavity can be effectively prevented, temperature rise in the oven shell is not affected, and normal operation of electronic elements in the oven shell is facilitated.

Drawings

FIG. 1 is a schematic perspective view of an integrated kitchen range according to an embodiment of the present utility model;

FIG. 2 is a schematic side view of an integrated kitchen range according to an embodiment of the present utility model;

fig. 3 is a schematic view of an internal pipe connection structure of an integrated range cooking apparatus according to an embodiment of the present utility model;

FIG. 4 is a schematic view of the internal structure of the kitchen range according to the embodiment of the utility model;

FIG. 5 is a schematic view of the bottom surface of a kitchen range plate according to an embodiment of the present utility model;

FIG. 6 is a schematic side view of a cooking plate according to an embodiment of the present utility model;

FIG. 7 is a schematic cross-sectional view of the structure at A-A in FIG. 6;

FIG. 8 is a schematic view of the cross-sectional structure at B-B in FIG. 6.

Wherein the reference numerals have the following meanings: 1. a smoke machine; 2. a stove; 21. a stove housing; 211. a heat radiation hole; 212. an air collection cavity; 213. a gas collection box; 22. a cooking bench; 221. an exhaust hole; 222. a manual knob; 23. a stove plate; 231. a stove frame; 232. a heat-insulating energy-collecting tray; 2321. a hollow interlayer; 2322. assembling a base; 2323. a fitting hole; 233. a gas hole; 3. a cooking device; 31. a control chamber; 32. a blower; 33. a cooking chamber; 4. a heat dissipation space; 5. a steam pipe; 6. and a heat dissipation pipeline.

Detailed Description

For a better understanding and implementation, the technical solutions of the embodiments of the present utility model will be clearly and completely described and discussed below in conjunction with the accompanying drawings, and it is apparent that what is described herein is only a part, but not all, of the examples of the present utility model, and all other embodiments obtained by those skilled in the art without making any inventive effort based on the embodiments of the present utility model are within the scope of protection of the present utility model.

For the purpose of facilitating an understanding of the embodiments of the present utility model, reference will now be made to the drawings, by way of example, of specific embodiments, and the various embodiments should not be construed to limit the embodiments of the utility model.

In the description of the present utility model, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, only for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements to be referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

Referring to fig. 1-8, the utility model discloses an integrated kitchen range with a heat dissipation function, which comprises a kitchen range 2 and a cooking device 3, wherein the cooking device 3 is arranged below the kitchen range 2, the kitchen range 2 comprises a kitchen range shell 21 with an open top surface and a kitchen range 22 buckled at the top of the kitchen range shell 21, a kitchen range tray 23 is arranged on the kitchen range 22, electronic elements are arranged in the kitchen range shell 21, a plurality of heat dissipation holes 211 are arranged on the surface of the kitchen range shell 21, the kitchen range tray 23 comprises a kitchen range frame 231 and a heat insulation energy collection tray 232, and the kitchen range frame 231 is arranged above the heat insulation energy collection tray 232 and is used for supporting cookware; the heat-insulating energy-collecting disc 232 is provided with the gas hole 233 in the center, the heat-insulating energy-collecting disc 232 vacates through the connecting piece and is arranged on the cooking bench 22 and used for radiating heat energy of gas combustion to one side far away from the cooking bench 22, the heat-insulating energy-collecting disc 232 can isolate flame temperature of the kitchen range 2 from the cooking bench 22, so that influence of flame on the kitchen range shell 21 is greatly reduced, electronic components in the kitchen range shell 21 are in a proper working temperature range, the service life of the electronic components is greatly prolonged, a heat radiation fan 32 is not required to be arranged on the electronic components, and the whole manufacturing cost of the integrated kitchen range is saved.

The embodiment 1 of the utility model discloses an integrated kitchen with a heat dissipation function, which comprises a smoke machine 1, a kitchen range 2 and a cooking device 3, wherein the smoke machine 1, the kitchen range 2 and the cooking device 3 are vertically distributed from top to bottom and are applied to the kitchen field, in other embodiments, the smoke machine 1, the kitchen range 2 and the cooking device 3 can be not vertically distributed, the smoke machine 1 can be positioned above the kitchen range 2 and the cooking device 3, the kitchen range 2 and the cooking device 3 can be kept horizontal, and the cooking device 3 can be arranged on any one side of the front side, the rear side, the left side or the right side right below the kitchen range 2, and other uncommitted placement schemes, and the embodiment is not specifically exemplified.

In general, the kitchen range 2 is provided on a marble table of a kitchen, a cabinet is provided under the marble table, and thus the cooking device 3 integrally designed with the kitchen range 2 is placed in the cabinet, and the range 1 is provided on a wall or ceiling right above the kitchen range 2 for absorbing smoke and steam generated from the kitchen range 2 and the cooking device 3.

Specifically, the stove 2 includes a stove housing 21 with an open top surface and a stove top 22 covering the top of the stove housing 21, the stove housing 21 is rectangular, an accommodating cavity is formed inside, at least one edge of the accommodating cavity extends horizontally outwards to form a fitting edge, the fitting portion is connected with the bottom surface of the stove top 22 in a fitting manner, in this embodiment 1, the fitting edge of the stove housing 21 is welded with the stove top 22, and in other embodiments, the connection manner of the fitting edge of the stove housing 21 and the stove top 22 includes, but is not limited to, welding, clamping or adhesive connection.

The gas pipeline, the ignition device and the electronic element for controlling the gas pipeline and the ignition device are arranged in the accommodating cavity of the stove shell 21, and the electronic element can be a control board with a touch screen, can be a serial port screen combined development board with a key, and can also only be composed of the development board and the key; whether the fuel gas pipeline is filled with fuel gas or not can be controlled through the electronic element. The top surface of the cooking bench 22 is also provided with a manual knob 222, the manual knob 222 is connected with a lighting device and used for manually lighting, the cooking bench 22 is also provided with a connecting piece, a cooking stove frame 231 and a heat-insulating energy-collecting disc 232, the heat-insulating energy-collecting disc 232 is bent by an annular energy-collecting plate to form an inside hollow energy-collecting disc, the outer side edge of the annular energy-collecting plate is bent and then is close to the inner side edge of the annular energy-collecting plate until the annular energy-collecting plate is wrapped by the inner side edge and mutually abutted to form a hollow layer in the middle of the bent annular energy-collecting plate, the inner edge of the heat-insulating energy-collecting disc 232 is slightly tilted upwards, and the tilting height is smaller than the height of the outer edge of the heat-insulating energy-collecting disc 232. Because the center of the ring-mounted energy collecting plate is provided with a through hole, the center of the folded heat-insulating energy collecting plate 232 is still provided with a through hole, and the through hole is a gas hole 233 for reserving a hole position for flame of the ignition device, of course, the heat-insulating energy collecting plate 232 can be folded in an overlapping manner so that at least one layer of hollow interlayer 2321 is arranged in the heat-insulating energy collecting plate 232, flame temperature can be effectively isolated by arranging the hollow interlayer 2321, and meanwhile, the disc-shaped structure is favorable for converging flame temperature, so that the heating effect of a cooker is improved, and the cooking efficiency is improved.

In other embodiments, the bending direction of the ring-shaped energy collecting plate is not specifically limited, and the abutting portion of the inner edge and the outer edge of the ring-shaped energy collecting plate may be at the outer edge of the heat-insulating energy collecting plate 232, or may be at the inner edge of the heat-insulating energy collecting plate 232, or may be on the side surface of the heat-insulating energy collecting plate 232.

The bottom of the heat-insulating energy-collecting tray 232 is provided with an assembly base 2322, the assembly base 2322 is a part of the heat-insulating energy-collecting tray 232 protruding outwards, each protruding part is provided with a plane, each plane is located on the same plane after extending, the plane is parallel to the horizontal plane, the plane of the protruding part is provided with an assembly hole 2323, a connecting piece vertically penetrates through the assembly hole 2323 and is connected with the cooking bench 22, and is used for supporting and fixing the heat-insulating energy-collecting tray 232 on the cooking bench 22, so that the heat-insulating energy-collecting tray 232 is parallel to the horizontal plane, the connecting piece is a bolt with a nut in the embodiment 1, and is used for supporting the heat-insulating energy-collecting tray 232, avoiding direct contact with the cooking bench 22 and further increasing the distance between flame and the cooking bench 22.

The number of the manual ignition device, the manual knob 222 and the heat insulation energy collection disc 232 is identical, in this embodiment, the number of the manual ignition device, the manual knob 222 and the heat insulation energy collection disc 232 is two and symmetrically distributed on the cooking bench 22, in other embodiments, the number of the manual ignition device, the manual knob 222 and the heat insulation energy collection disc 232 may not be two, and this embodiment is not limited specifically.

The cooker frame 231 and the heat-insulating energy-collecting tray 232 are connected in an embedded manner, so that the cooker frame 231 is at least partially embedded into the hollow interlayer 2321, and the connection stability between the cooker frame 231 and the heat-insulating energy-collecting tray 232 can be improved. Specifically, the number of the kitchen ranges 231 is four, the interval between every two kitchen ranges 231 is consistent, the cookware can be stably supported, and the stability of the cookware is improved.

In this embodiment 1, the heat-insulating energy-collecting tray 232 is arranged on the cooking bench 22, and the double-layer energy-collecting structure is hollow, so that the effect of converging heat energy from the heat-insulating energy-collecting tray 232 to one side of the cooker is greatly improved, the influence of flame heat energy on the surface of the cooking bench 22 is reduced, the damage caused by overheat temperature is avoided, and the service life of electronic elements in the cooking range shell 21 is prolonged.

In the embodiment 2 of the utility model, the integrated kitchen range with the heat dissipation function is disclosed on the basis of the embodiment 1, and also comprises the kitchen range 1, the kitchen range 2 and the cooking equipment 3, wherein a heat dissipation space 4 is arranged between the kitchen range 2 and the cooking equipment 3, the height of the heat dissipation space 4 is at least the height of the kitchen range 2, in the embodiment 2, the kitchen range 2 and the cooking equipment 3 can be arranged at intervals, air can be circulated, so that the heat transfer speed between the kitchen range 2 and the cooking equipment 3 is reduced, and meanwhile, the heat dissipation effect is realized by circulating air in the heat dissipation space 4, so that the influence of heat generated by the operation of the cooking equipment 3 on electronic elements in the kitchen range shell 21 is reduced, and the service life of the electronic elements is greatly prolonged.

In the embodiment 3 of the present utility model, an integrated stove with a heat dissipation function is disclosed on the basis of the embodiment 1 or 2, which also includes a smoke blower 1, a stove 2 and a cooking device 3, the cooking device 3 is a steaming and baking device, the cooking device 3 includes a housing, a cooking chamber 33 and a control chamber 31, the cooking chamber 33 is disposed in the housing, the cooking chamber 33 is not directly contacted with the housing, the two are isolated by a heat insulation support, or a hollow layer is adopted, the heat transferred from the cooking chamber 33 to the housing is reduced, the control chamber 31 is located between the housing and the cooking chamber 33, the temperature in the control chamber 31 is gradually increased due to continuous overflow of the heat during the operation of the cooking chamber 33, the operation temperature of an electrical component in the control chamber 31 is too high, and therefore, the service life of the electrical component is greatly reduced, in order to solve the above problems, in the embodiment 3, an exhaust fan 32 is disposed outside the control chamber 31, the exhaust port of the exhaust fan 32 is communicated with the interior of the control chamber 31, and the exhaust fan 32 absorbs the smoke from the outside through the exhaust duct 6.

Specifically, the exhaust hole 221 is disposed on the cooking bench 22 of the cooking range 2, and the exhaust hole 221 may be located at any position on the cooking bench 22, and it should be noted that the exhaust hole 221 needs to be staggered with the manual ignition device, the manual knob 222 and the heat insulation energy collection disc 232, so that the smoke machine 1 is convenient to absorb the gas exhausted from the exhaust hole 221. In this embodiment 3, the exhaust hole 221 is disposed at the rear side of the cooking bench 22, and the heat dissipation pipe 6 connected to the air outlet of the exhaust fan 32 passes through or bypasses the cooking shell 21 to directly communicate with the exhaust hole 221, so that the sucked hot air is directly discharged from the upper side of the cooking bench 22, which is beneficial to the direct absorption of the smoke machine 1. The problems of damage to electrical components in the control chamber 31 and the like caused by temperature accumulation of the control chamber 31 of the cooking device 3 can be avoided, so that the service life of the control chamber of the cooking device 3 is prolonged.

In embodiment 4 of the present utility model, an integrated stove with heat dissipation function is disclosed on the basis of embodiment 1 or 2, which also includes a smoke machine 1, a stove 2 and a cooking device 3, wherein the cooking device 3 is a steaming and baking device, the cooking device 3 includes a housing, a cooking chamber 33, and a control chamber 31, the cooking chamber 33 is disposed in the housing, the cooking chamber 33 is not directly contacted with the housing, the two are isolated by a heat insulation support, or a hollow layer is adopted, the heat transferred from the cooking chamber 33 to the housing is reduced, the control chamber 31 is located between the housing and the cooking chamber 33, since the cooking chamber 33 works, hot steam is required to be discharged, the hot steam is usually directly discharged from the surface of the housing of the cooking device 3, the discharged gas flows through the stove housing 21, and causes the temperature of the stove housing 21 to rise, in order to avoid affecting the temperature rise of the stove housing 21, the embodiment 4 is provided with a steam pipe 5 directly communicated with the interior of the cooking chamber 33, the steam pipe 5 is connected to the top of the cooking chamber 33, and the steam pipe is directly discharged from the stove housing 21 to the cooking chamber 3, and the heat is not directly contacted with the stove housing 21.

Specifically, the exhaust hole 221 is disposed on the cooking bench 22 of the cooking range 2, and the exhaust hole 221 may be located at any position on the cooking bench 22, and it should be noted that the exhaust hole 221 needs to be staggered with the manual ignition device, the manual knob 222 and the heat insulation energy collection disc 232, so that the smoke machine 1 is convenient to absorb the gas exhausted from the exhaust hole 221. In this embodiment 4, the exhaust hole 221 is disposed at the rear side of the cooking bench 22, and the steam pipe 5 passes through or bypasses the cooking casing 21 to directly communicate with the exhaust hole 221, so as to realize the exhaust of hot steam, which is beneficial to the direct absorption of the smoke machine 1. By discharging the hot steam in the cooking chamber 33 out of the cooking bench 22, the problem that the temperature rise is generated in the cooking shell 21 is avoided by directly discharging the hot steam from the steam chamber to cause the hot steam to rise to the bottom of the cooking shell 21, and the service life of the electronic component is greatly prolonged.

Embodiment 5 of the present utility model discloses an integrated stove with a heat dissipation function on the basis of embodiment 1 or 2, which also comprises a smoke machine 1, a stove 2 and a cooking device 3, wherein the cooking device 3 is a steaming and baking device, the cooking device 3 comprises a shell, a cooking chamber 33 and a control chamber 31, the cooking chamber 33 is arranged in the shell, the cooking chamber 33 is not directly contacted with the shell, the two are isolated by a heat insulation bracket, or a hollow layer is adopted to reduce the heat transferred from the cooking chamber 33 to the shell. In order to solve the influence of the hot steam and the heat energy generated by the cooking device 3 on the stove housing 21 and the control chamber 31, the stove 22 of the stove 2 is provided with the air vent 221, the air vent 221 may be located at any position on the stove 22, and it should be noted that the air vent 221 needs to be offset from the manual ignition device, the manual knob 222 and the heat insulation energy collection disc 232, and the smoke ventilator 1 is convenient to absorb the air exhausted from the air vent 221. Meanwhile, a steam pipeline 5 and a heat dissipation pipeline 6 are additionally arranged between the cooking equipment 3 and the exhaust port, the steam pipeline 5 is used for communicating the cooking chamber 33 with the exhaust port, hot steam in the cooking chamber 33 can be timely discharged, and meanwhile, surrounding objects cannot be affected after the hot steam is discharged. The control cavity 31 is externally provided with the exhaust fan 32, the air suction port of the exhaust fan 32 is communicated with the inside of the control cavity 31, the heat dissipation pipeline 6 is used for communicating the air outlet of the exhaust fan 32 with the air outlet, hot air is sent to the outside to be absorbed by flue gas, the heat dissipation pipeline 6 is used for pumping away hot air in the control cavity 31, the temperature of the control cavity 31 is reduced, and the temperature can be heat generated by the operation of electric elements in the control cavity 31 or heat transferred by the cooking chamber 33.

The steam pipe 5 and the heat dissipation pipe 6 still can transfer heat for the stove shell 21 when passing through the stove shell 21, in order to reduce the heat transfer, an air collection cavity 212 is arranged in the stove shell 21 and used for isolating the part of the steam pipe 5 and the heat dissipation pipe 6 in the stove shell 21 in a penetrating way, the side walls of the air collection cavity 212 of the steam pipe 5 and the heat dissipation pipe 6 are not contacted, the air collection cavity 212 is a cavity with two open ends, one end of the air collection cavity 212 is connected with the bottom of the stove top 22, the other end of the air collection cavity is connected with the bottom plate of the stove shell 21, and the connection mode of the air collection cavity 212 comprises, but is not limited to, welding, pasting or clamping. When the gas collecting cavity 212 is tightly attached to the inner side wall of any side of the oven shell 21, one side of the gas collecting cavity 212 close to the inner side wall is opened, and the gas collecting cavity is attached to the inner side wall to form a cavity with two open ends, so that consumable materials of the gas collecting cavity 212 can be saved.

In one embodiment, the vapor conduit 5 and the heat sink conduit 6 pass through the plenum 212 and are directly exhausted from the exhaust port.

In one embodiment, the gas collecting chamber 212 is further provided with a gas collecting box 213, and the side wall of the gas collecting box 213 is spaced from the gas collecting chamber 212, so that the influence of the too high temperature of the gas in the gas collecting box 213 on the internal environment of the stove casing 21 outside the gas collecting chamber 212 is greatly reduced by spacing the gas collecting chamber 212 from the gas collecting box 213. The steam pipeline 5 and the heat dissipation pipeline 6 are connected with the gas collection box 213 through the quick connection assembly, so that the gas in the heat dissipation pipeline 6 and the steam pipeline 5 can be concentrated and collected, the concentrated exhaust from the cooking bench 22 is realized, and the phenomenon that the gas is excessively discharged and cannot be completely absorbed by the smoke machine 1 is avoided. The gas collecting box 213 is a box body with an open top, and the opening on the top of the gas collecting box 213 is communicated with the exhaust port of the cooking bench 22, so that hot gas and hot steam in the steam pipeline 5 and the heat dissipation pipeline 6 can be discharged.

The embodiment 6 of the utility model discloses an integrated kitchen range with a heat radiation function on the basis of the embodiments 1-5, and the integrated kitchen range comprises a kitchen ventilator 1, a kitchen range 2, cooking equipment 3 and a linkage device, wherein the linkage device is used for linking at least two of the kitchen ventilator 1, the kitchen range 2 and the cooking equipment 3, so that linkage starting of at least two devices can be realized, intelligent design is realized, and user experience is improved. The signaling means of the linkage includes, but is not limited to, WI F I and/or bluetooth.

In one embodiment, the signal transmission of the linkage device is WI F I signal, the smoke machine 1, the kitchen range 2 and the cooking equipment 3 are networked through WI F I, and a user can remotely control the respective working states of the smoke machine 1, the kitchen range 2 and the cooking equipment 3 through a mobile phone to realize remote control.

In one embodiment, the signal transmission of the linkage device is a bluetooth signal, the range 1, the kitchen range 2 and the cooking device 3 can be started in an induction mode, and when a user starts the kitchen range 2 and the cooking device 3, bluetooth can send a signal to the smoke ventilator 1, so that linkage starting of the smoke ventilator 1 is achieved.

In one embodiment, the linkage signal is a WI F I signal in combination with a bluetooth signal. When the remote control cooking device 3 is started, the cooking device 3 is started and is transmitted to the smoke machine 1 through a Bluetooth signal, and the smoke machine 1 is started through sensing the Bluetooth signal, so that smoke generated by the cooking device 3 is automatically absorbed; when a user manually starts the kitchen range 2 to cook, the kitchen range 2 starts and transmits Bluetooth signals to the smoke ventilator 1, so that the smoke ventilator 1 starts to absorb smoke generated during cooking, intelligent control is realized, linkage effect is improved, and user experience is provided.

In an embodiment, the linkage device can also be provided with a smoke sensor at the air suction inlet of the smoke machine 1, the smoke machine 1 is started through the smoke exhausted by the induction cooker 2 or the cooking equipment 3, and the suction force of the smoke machine 1 can be adjusted through the induction of the smoke, so that intelligent adjustment is realized.

In an embodiment, the linkage device may further set a temperature sensor module at a position where the smoke machine 1 is opposite to the kitchen range 2, when the temperature above the kitchen range 22 is sensed to be too high, the kitchen range 2 is powered off through bluetooth or WI F I signals, so that natural gas or coal gas of the kitchen range 2 stops being introduced, the protection effect of the smoke machine 1 is achieved, the use safety of the kitchen range 22 is improved, and the linkage device is used for a situation that a user forgets to turn off the fire when taking the pot from the kitchen range 2.

In an embodiment, a gas sensing device can be further arranged on the range hood 1, when the concentration of natural gas or coal gas exceeds a normal value, the range 2 is powered off through Bluetooth or WI FI signals, so that the natural gas or coal gas of the range 2 stops being introduced, the protection effect on the range hood 1 is achieved, the use safety of the range hood 22 is improved, the situation that the flame of the range hood 2 is extinguished when a user is not present is used, the leakage problem of the natural gas or coal gas is avoided, and the safety of a kitchen is improved.

In summary, the integrated cooker 2 with the heat dissipation function provided by the utility model has the following technical effects:

1. by arranging the heat-insulating energy-collecting disc 232 on the cooking bench 22, the flame temperature generated by the cooking range 2 can be isolated from the cooking bench 22, so that the temperature rise of the cooking range shell 21 below the cooking bench 22 is avoided, the use temperature of electronic components in the cooking range shell 21 is proper, and the service life of the electronic components is greatly prolonged;

2. by arranging the heat dissipation space 4 between the kitchen range 2 and the cooking equipment 3, the influence of heat generated by the cooking equipment 3 on the temperature in the kitchen range shell 21 is avoided, the heat dissipation area of the kitchen range shell 21 is greatly increased, the heat dissipation effect is improved, and the service life of electronic elements is prolonged;

3. steam and hot air generated by the cooking equipment 3 are discharged through the steam pipeline 5 and the heat dissipation pipeline 6, so that the influence of direct rising on the temperature of the bottom of the oven shell 21 is avoided, and the proper environment temperature in the oven shell 21 is maintained, thereby prolonging the service life of electronic elements;

4. the gas collection cavity 212 and the gas collection box 213 are arranged in the kitchen cavity, so that the gas exhausted from the cooking equipment 3 can be collected and discharged in a concentrated manner, and the burden on the smoke absorption of the smoke machine 1 is avoided;

5. the gas collecting box 213 is disposed in the gas collecting cavity 212 and is disposed at intervals, so that high-temperature gas in the gas collecting box 213 can be effectively prevented from transferring heat to the gas collecting cavity 212, and therefore, temperature rise in the oven shell 21 is not affected, and normal operation of electronic components in the oven shell 21 is facilitated.

The technical means disclosed by the scheme of the utility model is not limited to the technical means disclosed by the embodiment, and also comprises the technical scheme formed by any combination of the technical features. It should be noted that modifications and adaptations to the utility model may occur to one skilled in the art without departing from the principles of the present utility model and are intended to be within the scope of the present utility model.

Claims (10)

1. The integrated kitchen with the heat dissipation function comprises cooking equipment with a cooking chamber and a kitchen range positioned above the cooking equipment, wherein the kitchen range comprises a kitchen range shell with an open top surface and a kitchen range buckled at the top of the kitchen range shell, a kitchen range tray is arranged on the kitchen range, electronic elements are arranged in the kitchen range shell, and a plurality of heat dissipation holes are formed in the surface of the kitchen range shell; the heat-insulating energy-collecting plate is arranged on the center of the heat-insulating energy-collecting plate, and the heat-insulating energy-collecting plate is emptied and arranged on the cooking bench through a connecting piece and is used for radiating heat energy generated by combustion of fuel gas to one side far away from the cooking bench.

2. The integrated cooker with heat dissipation function according to claim 1, wherein at least one hollow interlayer is arranged in the heat insulation energy collection plate for heat insulation.

3. The integrated cooker with heat dissipation function according to claim 2, wherein the cooker rack and the heat insulation energy collection disc are connected in an embedded manner, so that the cooker rack is at least partially embedded into the hollow interlayer.

4. The integrated cooker with a heat radiation function according to claim 3, wherein the bottom of the heat insulation energy collection plate is provided with an assembly base, the assembly base is provided with an assembly hole, and the connecting piece penetrates through the assembly hole and is connected with the cooker bench for supporting and fixing the heat insulation energy collection plate.

5. The integrated cooker with heat dissipation function according to any one of claims 1 to 4, wherein a heat dissipation space is provided between the cooker and the cooking device, and the height of the heat dissipation space is at least the height of the cooker.

6. The integrated cooker with heat dissipation function according to claim 5, wherein the cooking bench is provided with an exhaust hole, and the exhaust hole is communicated with the cooking chamber through a steam pipe for exhausting hot steam in the cooking chamber.

7. The integrated cooker with the heat radiation function according to claim 6, wherein a control chamber is arranged in the cooking device, the exhaust hole is communicated with the control chamber of the cooking device through a heat radiation pipeline, and a fan is arranged in the control chamber and used for pumping hot air in the control chamber.

8. The integrated cooker with the heat radiation function according to claim 6 or 7, wherein an air collecting cavity is arranged in the cooker shell, the air collecting cavity is a cavity with two open ends, one end of the air collecting cavity is connected with the bottom of the cooker top, and the other end of the air collecting cavity is connected with the bottom plate of the cooker shell.

9. The integrated cooker with the heat radiation function according to claim 8, wherein a gas collecting box is arranged in the gas collecting cavity, the gas collecting box is communicated with the exhaust hole, the gas collecting box is also communicated with the steam pipeline and the heat radiation pipeline, and the side wall of the gas collecting box is arranged at intervals with the gas collecting cavity.

10. The integrated cooker with the heat radiation function according to claim 9, wherein when the air collecting cavity is clung to the inner side wall of any side of the cooker shell, one side of the air collecting cavity, which is close to the inner side wall, is opened, and the air collecting cavity is clung to the inner side wall to form a cavity with two open ends.