CN218721683U - Integrated kitchen with cooking device - Google Patents

Abstract

The utility model relates to an integrated kitchen with cooking device, including cooking device and the cigarette machine of setting in this cooking device rear side, above-mentioned cooking device includes the inner bag, and above-mentioned cigarette machine includes the oil smoke fan, the top of inner bag is provided with and is used for carrying out radiating heat dissipation channel to this cooking device, and this heat dissipation channel has the gas outlet, and above-mentioned inner bag has air inlet and the gas vent that can open and close respectively, and the gas outlet of above-mentioned heat dissipation channel and the air inlet phase fluid intercommunication of above-mentioned inner bag, and the gas vent of above-mentioned inner bag and the air intake phase fluid intercommunication of above-mentioned oil smoke fan. The utility model discloses can improve the hydrofuge efficiency when baking the function, promote the hydrofuge effect, can realize arranging outside the high efficiency of surplus steam in the inner bag when evaporating the function completion simultaneously, avoid the direct user of spouting of surplus high temperature steam in the inner bag.

Description

Integrated kitchen with cooking device

Technical Field

The utility model relates to a cooking device field especially relates to an integrated kitchen with cooking device.

Background

The integrated kitchen range is a combined kitchen appliance, and combines a kitchen range, a range hood, a cooking device and the like together. For example, a chinese utility model patent with a patent number zl202122910382.X (grant publication number CN 216557216U), a chinese utility model patent with a patent number zl202122811984.X (grant publication number CN 216557213U), a chinese utility model patent with a patent number ZLCN216557213U (grant publication number CN 216521867U), and the like.

Further, in order to make the functions of the integrated cooker more diversified, the cooking device for the integrated cooker generally has a plurality of cooking functions (for example, a baking function, a steaming function, etc.) at the same time, for example, chinese patent application No. CN202210198914.8 (publication No. CN114468750 a), a steaming oven and an integrated cooker provided with the steaming oven, application No. CN202111651707.5 (publication No. CN 114413302A), etc. Although the existing cooking device for the integrated cooker can meet the common moisture removal requirement during the baking function, the moisture removal effect is not ideal when some dishes (such as lemon slices, bean dissolving and the like) with higher moisture removal performance requirement are baked. In addition, a large amount of steam remains in the inner container when the steaming function is finished, and if the door is opened directly at the moment, the steam in the inner container is directly sprayed to a user, so that the hidden danger of scalding the user exists.

In order to solve the above problems, in the prior art, a blower is generally arranged, air is blown into the inner container by the blower, and the air squeezes water vapor in the inner container, so as to realize forced moisture removal or steam removal of the inner container. For example, a chinese utility model patent having a patent number ZL 201721490531.9 (grant publication number CN 208404222U), and the like. However, this method requires an additional blower, which causes the structure of the cooking apparatus to blow air, resulting in an increase in production cost. In addition, the direct introduction of the cool air into the inner container may lower the temperature inside the inner container, thereby affecting the cooking efficiency of the cooking apparatus.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the first technical problem that provides a simple structure and the effectual integrated kitchen that has cooking device of hydrofuge to prior art.

The utility model aims to solve the second technical problem that provide an integrated kitchen with cooking device that it is effectual and do not influence culinary art effect and culinary art efficiency to dehumidify to prior art.

The utility model aims to solve the third technical problem that to prior art and provide one kind and can avoid steaming the function and finish when opening the door surplus steam in the inner bag directly spout user's integrated kitchen with culinary art device.

The utility model provides a technical scheme that at least one above-mentioned technical problem adopted does: the integrated cooker with the cooking device comprises the cooking device and a range hood arranged on the rear side of the cooking device, wherein the cooking device comprises a liner, the range hood comprises an oil fume fan, and the range hood is characterized in that a heat dissipation channel used for dissipating heat of the cooking device is arranged above the liner, the heat dissipation channel is provided with a gas outlet, the liner is respectively provided with a gas inlet and a gas outlet which can be opened and closed, the gas outlet of the heat dissipation channel is in fluid communication with the gas inlet of the liner, and the gas outlet of the liner is in fluid communication with the gas inlet of the oil fume fan.

Further, the air inlet is formed in the top wall of the inner container. On one hand, the flow path between the air outlet and the air inlet is shortened, and on the other hand, the air blown into the inner container can better extrude the steam in the inner container.

Furthermore, an upper heating pipe is arranged on the inner top surface of the inner container. On the one hand, the heating pipe can heat the air blown into the inner container, the air temperature rises, so that the influence on the temperature field inside the inner container can be better avoided, on the other hand, the flow rate of the air can be accelerated through heating, so that the steam in the inner container can be extruded more quickly, and the outer discharge speed of the steam in the inner container is further improved.

Further, an upper mounting plate is horizontally arranged above the inner container, an upper gap and a lower gap are formed between the lower surface of the upper mounting plate and the top surface of the inner container, an air deflector is covered on the upper surface of the upper mounting plate, the air deflector and the upper surface of the upper mounting plate enclose the heat dissipation channel extending forwards and backwards, a heat dissipation fan is installed on an air inlet port at the rear end of the heat dissipation channel, and the air outlet is formed in the upper mounting plate. Therefore, the heat dissipation channel structure can be well formed, and air of the heat dissipation channel can be more efficiently guided into the inner container.

Furthermore, a guide plate for guiding the air outlet of the heat dissipation fan to the air outlet is arranged on the inner top surface of the air guide plate. The air in the heat dissipation channel is guided to the inner container through the air outlet by the guide plate.

Further, the guide plate is vertically arranged above the air outlet and opposite to the air outlet of the heat dissipation fan, and the cross section of the guide plate is arc-shaped and protrudes towards the direction of the air outlet port of the heat dissipation channel. Thus, part of the air discharged from the heat dissipation fan blows to the guide plate to turn, and flows to the air outlet along the rear surface of the guide plate.

Further, the lower end edge of the guide plate is opposite to the air outlet up and down. Thereby enabling the air blown to the guide plate to better flow into the air outlet.

Furthermore, the central angles of the cross sections of the guide plates are all 45 degrees, and the included angle between the inner top surface of the air deflector where the guide plates are located and the horizontal plane is 30 degrees. Thereby enabling the guide plate to better intercept the airflow in the heat dissipation channel and guiding the airflow to the air outlet.

Furthermore, the air outlet is communicated with the air inlet through a flow guide device, the flow guide device comprises a guide piece, a first component, a second component and a driving motor for driving the first component and the second component to move away from or towards each other along the guide piece respectively,

in the initial state, the guide piece, the first member and the second member are spliced to form a closed cavity structure, each air outlet and the corresponding air inlet are respectively closed by the flow guide device, and in the steam exhaust state of the liner, the first member and the second member are driven by the driving motor to move away from each other, so that a first air guide opening communicated with the air outlet is formed between the first member and the guide piece, and a second air guide opening communicated with the air inlet is formed between the second member and the guide piece. Therefore, on-off control between the air outlet and the air inlet can be realized through the flow guide device, and the opening sizes of the first air guide port and the second air guide port can be controlled by controlling the moving distance of the first member and the second member relative to the guide piece, so that the air blowing speed can be controlled according to different dehumidifying requirements of different dishes.

Further, the air outlet and the air inlet are arranged opposite to each other up and down, the first member and the second member are both vertically arranged cylindrical pieces, wherein the first member is embedded in the air outlet and can move up and down relative to the air outlet, the second member is embedded in the air inlet and can move up and down relative to the air inlet, the upper end of the first member is sealed, the lower end of the second member is vertically inserted into the upper end of the first member, the side walls of the first member and the second member on the same side are both provided with openings and vertically spliced to form an air guide window, the guide piece is a vertically arranged plate piece and is covered on the air guide window, and is detachably connected with the first member through a first guide assembly and is guided up and down, and is detachably connected with the second member through a second guide assembly and is guided up and down,

in the initial state, the guide part is covered on the air guide window, and in the steam exhaust state of the liner, the upper end edge of the guide part and the upper end opening edge of the air guide window form the first air guide opening, and the lower end edge of the guide part and the lower end opening edge of the air guide window form the second air guide opening, so that the on-off control between the air outlet and the air inlet can be better realized.

Further, the lower end of the air guide window is transversely provided with an air inlet grid plate, and the air inlet grid plate is sealed in the second air guide port in the steam exhaust state of the liner. Therefore, air can enter the inner container more uniformly through the air inlet, and the influence of the blown air on the temperature field in the inner container is better avoided.

Further, the lower part of the outer surface of the first member is recessed inward in the circumferential direction to form an assembly groove matching the size of the second member, and in an initial state, the second member is embedded in the assembly groove and can move up and down relative to the first member along the assembly groove. Thereby enabling the upper and lower insertion of the first member and the second member and facilitating the smooth relative movement of the first member and the second member.

Further, one end of the guide piece in the transverse direction extends outwards to form an extension plate, the first guide assembly comprises a first guide convex strip and a first guide groove, the first guide convex strip and the first guide groove are arranged in the extension plate and the outer surface of the first member, the first guide convex strip and the first guide groove respectively extend vertically, the first guide convex strip is embedded in the first guide groove and can move up and down along the first guide groove,

the second guide assembly includes a second guide protrusion provided on one of the extension plate and the outer surface of the second member and a second guide groove provided on the other of the extension plate and the outer surface of the second member, the second guide protrusion and the second guide groove extend vertically, respectively, and the second guide protrusion is fitted in the second guide groove and can move up and down along the second guide groove. On the one hand, the guide part is detachably connected with the first component and the second component, and on the other hand, the first component and the second component can move relatively more smoothly.

The diversion device further comprises a transmission mechanism, the transmission mechanism comprises a first transmission rack, a second transmission rack and a transmission gear, the first transmission rack is vertically fixed on the outer surface of the first member, the second transmission rack is vertically fixed on the outer surface of the second member and is arranged opposite to the first transmission rack at intervals, the transmission gear is arranged on an output shaft of the driving motor, and the transmission gear is clamped between the first transmission rack and the second transmission rack and is meshed with the transmission racks respectively. When the driving motor rotates forwards, the transmission gear is linked with the first transmission rack to drive the first component to move upwards, and simultaneously, the transmission gear is linked with the second transmission rack to drive the second component to move downwards, so that the first component and the second component move away from each other.

Furthermore, the two air inlets are arranged in the middle of the front end of the top wall of the inner container at intervals left and right, correspondingly, the two air outlets are in one-to-one correspondence with the air inlets, and therefore air in the heat dissipation channel can be blown into the inner container more uniformly.

Further, the air outlet is arranged at one end of the upper side of the back wall of the inner container. When the baking function dehumidifying state or the steaming function is finished, steam in the inner container can be discharged through the exhaust port more quickly, and the steam discharging efficiency is improved.

Compared with the prior art, the utility model has the advantages of: the air outlet of the heat dissipation channel is in fluid communication with the air inlet of the inner container, the air outlet of the inner container is in fluid communication with the air inlet of the oil smoke fan, when the baking function is used for dehumidifying, air in the heat dissipation channel sequentially enters the inner container through the air outlet and the air inlet, and steam generated in the baking process is efficiently discharged under the combined action of extrusion of the entered air and suction of the oil smoke fan, so that the dehumidifying efficiency is improved, and the dehumidifying effect is improved. Meanwhile, air with certain temperature is blown into the heat dissipation channel, so that the influence on the temperature field inside the inner container is small, and the cooking efficiency and the cooking effect of the cooking device are ensured.

In addition, when the function of steaming finishes, the air inlet is opened, and during the air drum in the heat dissipation channel went into the inner bag, under the cooperation of cigarette machine fan suction, the surplus steam in the inner bag was arranged outward fast, when avoiding the user to open the door, and surplus high temperature steam in the inner bag directly spouts the user.

Drawings

Fig. 1 is a schematic structural view of an integrated cooker in embodiment 1 of the present invention;

fig. 2 is a schematic view of a partial structure of an integrated cooker in embodiment 1 of the present invention;

fig. 3 is another schematic partial structure diagram of the integrated cooker in embodiment 1 of the present invention;

fig. 4 is a sectional view of a cooking apparatus according to embodiment 1 of the present invention (a deflector is not shown);

fig. 5 is a schematic partial structure view of a cooking device according to embodiment 1 of the present invention;

fig. 6 is a schematic structural view of a flow guiding device in an initial state according to embodiment 1 of the present invention;

fig. 7 is a cross-sectional view of the deflector in an initial state according to embodiment 1 of the present invention;

fig. 8 is an exploded view of the flow guiding device according to embodiment 1 of the present invention;

FIG. 9 is a schematic view of the structure of FIG. 8 in another direction;

FIG. 10 is a schematic view of the structure of FIG. 8 in still another orientation;

fig. 11 is a schematic structural view of a flow guiding device in a steam exhaust state of an inner container in embodiment 1 of the present invention;

fig. 12 is a sectional view of the flow guiding device in the steam exhaust state of the liner in embodiment 1 of the present invention;

fig. 13 is a schematic view of a partial structure of an integrated stove in embodiment 2 of the present invention;

fig. 14 is a schematic structural view of an air deflector according to embodiment 2 of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate the orientation or positional relationship indicated based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, since the disclosed embodiments of the invention can be arranged in different orientations, these directional terms are for illustrative purposes only and should not be considered as limiting, e.g., "upper" and "lower" are not necessarily limited to directions opposite to or consistent with the direction of gravity. Furthermore, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature.

As shown in fig. 1 to 12, an integrated cooker with a cooking device includes a cooking device 1, a cooker 3 is disposed above the cooking device 1, a range hood 2 is disposed at a rear side of the cooking device 1, the cooking device 1 includes an inner container 10, and the range hood 2 includes a smoke blower 21.

Further, a heat dissipation channel 11 for dissipating heat from the cooking device 1 is provided above the inner container 10. The heat dissipating channel 11 has an air outlet 121, the inner container 10 has an air inlet 101 and an air outlet 102 which can be opened and closed, respectively, the air outlet 121 of the heat dissipating channel 11 is in fluid communication with the air inlet 101 of the inner container 10, and the air outlet 102 of the inner container 10 is in fluid communication with the air inlet of the soot blower 21. Specifically, the range hood 2 of the present embodiment has a smoke chamber 20, the smoke blower 21 is installed in the smoke chamber 20, and the smoke chamber 20 has an air inlet 201 in fluid communication with the air outlet 102 of the inner container 10.

When the roast function hydrofuge like this, the air in the heat dissipation channel 11 loops through gas outlet 121 and air inlet 101 and is bloated into inner bag 10, and the steam that produces among the baking process is arranged outward by the high efficiency under the combined action of the extrusion of the air of bloating and oil smoke fan 21 suction to improve hydrofuge efficiency, obtain the effect of forced ventilated, promote the hydrofuge effect. Meanwhile, air with a certain temperature is blown into the heat dissipation channel 11, so that the influence on the temperature field inside the inner container 10 is small, and the cooking efficiency and the cooking effect of the cooking device 1 are ensured. In addition, when the function of steaming finishes, air inlet 101 is opened, and during the air in the heat dissipation channel 11 was bloated into inner bag 10, under the cooperation of 2 fan suction of cigarette machines, the remaining steam in inner bag 10 was arranged outward fast, when avoiding the user to open the door, the user was directly spouted to remaining high temperature steam in the inner bag 10.

Further, in the present embodiment, the air inlet 101 is provided in the ceiling wall of the inner container 10. On the one hand, the flow path between the air outlet 121 and the air inlet 101 is shortened, and on the other hand, the air blown into the inner container 10 can better press the steam in the inner container 10. Meanwhile, the exhaust port 102 is formed in one end of the upper side of the back wall of the inner container 10, so that steam in the inner container 10 can be exhausted through the exhaust port 102 more quickly in a moisture exhausting state of the baking function or when the steaming function is finished, and the steam exhaust efficiency is improved. Further, an upper heating pipe 15 is installed on an inner top surface of the inner container 10. On the one hand, the heating pipe 15 can heat the air blown into the inner container 10, the air temperature rises, so that the influence on the temperature field inside the inner container 10 can be better avoided, on the other hand, the flow rate of the air is accelerated through heating energy, so that the steam in the inner container 10 can be extruded more quickly, and the outward discharge speed of the steam in the inner container 10 is further improved.

Specifically, in this embodiment, an upper mounting plate 12 is horizontally disposed above the inner container 10, an upper gap is formed between a lower surface of the upper mounting plate 12 and a top surface of the inner container 10, an air deflector 13 is covered on an upper surface of the upper mounting plate 12, the air deflector 13 and the upper surface of the upper mounting plate 12 define the heat dissipation channel 11 extending forward and backward, a heat dissipation fan 14 is mounted on an air inlet 111 at a rear end of the heat dissipation channel 11, an air outlet 112 of the heat dissipation channel 11 communicates with the outside, and exhausts air toward the front side of the cooking device 1 through an air hole (not shown) formed above the door body, and the air outlet 121 is formed on the upper mounting plate 12, so that the structure of the heat dissipation channel 11 can be well formed, and air in the heat dissipation channel 11 can be more efficiently introduced into the inner container 10. In this embodiment, the heat dissipation fan 14 is a cross flow fan.

Preferably, a guide plate 131 for guiding the outlet air of the heat dissipation fan 14 to the air outlet 121 is disposed on an inner top surface of the air guide plate 13. The air in the heat dissipation channel 11 is guided to the inner container 10 through the air outlet 121 by the guide plate 131. The air deflector 131 is disposed above the air outlet 121 and opposite to the air outlet 140 of the heat dissipation fan 14, and the cross section of the air deflector 131 is arc-shaped and protrudes toward the air outlet 112 of the heat dissipation channel 11. Thus, part of the air from the heat dissipation fan 14 is blown to the air guide plate 131 to be diverted and flows along the rear surface of the air guide plate 131 to the air outlet 121. Further preferably, the lower end edge of the baffle 131 is vertically opposite to the air outlet 121, so that the air blown to the baffle 131 can better flow into the air outlet 121. Still further preferably, the central angles of the cross sections of the air deflectors 131 are all 45 °, and the included angle between the inner top surface of the air deflector 13 where the air deflector 131 is located and the horizontal plane is 30 °, so that the air deflector 131 can better intercept the air flow in the heat dissipation channel 11 and guide the air flow to the air outlet 121.

Further, the air outlet 121 and the air inlet 101 are communicated through a flow guiding device 4, and each flow guiding device 4 includes a guide 41, a first member 42, a second member 43, and a driving motor 44 for driving the first member 42 and the second member 43 to move away from or toward each other along the guide 41. In the initial state, the guide 41, the first member 42 and the second member 43 are assembled to form a closed cavity structure, and each air outlet 121 and the corresponding air inlet 101 are respectively closed by the flow guide device 4. In the steam exhaust state of the inner bag 10, the first member 42 and the second member 43 are driven by the driving motor 44 to move apart, so that a first air guide opening 401 communicated with the air outlet 121 is defined between the first member 42 and the guide 41, and a second air guide opening 402 communicated with the air inlet 101 is defined between the second member 43 and the guide 41. The air guide device 4 can control the opening and closing of the air outlet 121 and the air inlet 101, and the opening sizes of the first air guide opening 401 and the second air guide opening 402 can be controlled by controlling the moving distance of the first member 42 and the second member 43 relative to the guide 41, so that the air blowing speed can be controlled according to different dehumidifying requirements of different dishes.

Specifically, in the present embodiment, the air outlet 121 is disposed opposite to the air inlet 101, and the first member 42 and the second member 43 are vertically disposed cylinders, wherein the first member 42 is embedded in the air outlet 121 and can move up and down relative to the air outlet 121, and the second member 43 is embedded in the air inlet 101 and can move up and down relative to the air inlet 101. The upper end of the first member 42 is sealed, the lower end of the second member 43 is sealed, the lower end of the first member 42 and the upper end of the second member 43 are inserted and sleeved up and down, and the side walls of the two on the same side are both crevasse and spliced up and down to form the air guide window 40. The guide 41 is a vertically disposed plate, and the guide 41 is covered on the air guide window 40, and detachably connected to the first member 42 through a first guide unit and vertically guided, and detachably connected to the second member 43 through a second guide unit and vertically guided. In an initial state, the guide 41 covers the air guide window 40, and in a steam exhaust state of the liner 10, the upper end edge of the guide 41 and the upper end opening edge of the air guide window 40 enclose the first air guide opening 401, and the lower end edge of the guide 41 and the lower end opening edge of the air guide window 40 enclose the second air guide opening 402, so that on-off control between the air outlet 121 and the air inlet 101 can be better realized.

Preferably, the lower end of the air guide window 40 is transversely provided with an air inlet grid 46, and in the steam exhaust state of the liner 10, the air inlet grid 46 is sealed in the second air guide opening 402, so that air can more uniformly enter the liner 10 through the air inlet 101, and the influence of the blown air on the internal temperature field of the liner 10 is better avoided. In addition, the lower portion of the outer surface of the first member 42 is recessed inward in the circumferential direction to form a fitting groove 422 matching the size of the second member 43, and in an initial state, the second member 43 is fitted into the fitting groove 422, and the second member 43 can move up and down relative to the first member 42 along the fitting groove 422, so that the vertical insertion of the first member 42 and the second member 43 can be realized, and the smooth relative movement of the first member 42 and the second member 43 can be facilitated.

In this embodiment, it is preferable that one end of the guide in the lateral direction extends outward to form an extension plate 41a, the first guide assembly includes a first guide protrusion 421 provided on one of the extension plate 41a and the outer surface of the first member 42 and a first guide recess 411 provided on the other of the extension plate and the outer surface of the first member 42, the first guide protrusion 421 and the first guide recess 411 respectively extend vertically, and the first guide protrusion 421 is fitted in the first guide recess 411 and can move up and down along the first guide recess 411. Specifically, the first guide recess 411 is opened in the extension plate 41a, and the first guide protrusion 421 is protruded on the outer surface of the first member 42. The second guide assembly includes a second guide protrusion 431 provided on one of the extension plate 41a and the outer surface of the second member 43 and a second guide groove 412 provided on the other, the second guide protrusion 431 and the second guide groove 412 extend vertically, respectively, and the second guide protrusion 431 is fitted in the second guide groove 412 and can move up and down along the second guide groove 412. On the one hand, a detachable connection of the guide with the first and second members 42, 43 is achieved, and on the other hand, a more smooth relative movement of the first and second members 42, 43 is enabled. Specifically, the second guide groove 412 is formed on the extension plate 41a, and the second guide protrusion 431 is protruded on the outer surface of the second member 432.

Further, the deflector 4 further includes a transmission mechanism 45, the transmission mechanism 45 includes a first transmission rack 451, a second transmission rack 452, and a transmission gear 453, wherein the first transmission rack 451 is vertically fixed on an outer surface of the first member 42, the second transmission rack 452 is vertically fixed on an outer surface of the second member 43 and is disposed opposite to the first transmission rack 451 at an interval, the transmission gear 453 is mounted on an output shaft of the driving motor 44, and the transmission gear 453 is sandwiched between the first transmission rack 451 and the second transmission rack 452 and is engaged with each transmission rack. Thus, when the driving motor 44 rotates forward, the first member 42 is driven to move upward by the linkage of the transmission gear 453 and the first transmission rack 451, and simultaneously, the second member 43 is driven to move downward by the linkage of the transmission gear 453 and the second transmission rack 452, so that the first member 42 and the second member 43 move away from each other, and when the driving motor 44 rotates backward, the first member 42 is driven to move downward by the linkage of the transmission gear 453 and the first transmission rack 451, and simultaneously, the second member 43 is driven to move upward by the linkage of the transmission gear 453 and the second transmission rack 452, so that the first member 42 and the second member 43 move toward each other.

Example 2:

as shown in fig. 13 and 14, unlike embodiment 1, in this embodiment, two air inlets 101 are provided at the center of the front end of the top wall of the inner container 10 at left and right intervals, and correspondingly, two air outlets 121 are provided and correspond to the air inlets 101 one by one, so that the air in the heat dissipation channel 11 can be more uniformly blown into the inner container 10. The air guiding devices 4 are respectively disposed in each air inlet 101 and the corresponding air inlet 101, and two air guiding plates 131 corresponding to the air outlets 121 are disposed on the inner top surface of the air guiding plate 131.

The term "fluid communication" as used herein refers to a spatial relationship between two components or portions (hereinafter, referred to as a first portion and a second portion) in a unified manner, i.e., a fluid (gas, liquid or a mixture thereof) can flow along a flow path from the first portion or/and be transported to the second portion, and may be directly communicated between the first portion and the second portion, or indirectly communicated between the first portion and the second portion via at least one third member, such as a fluid channel, e.g., a pipe, a channel, a duct, a flow guide member, a hole, a groove, or a chamber allowing the fluid to flow through, or a combination thereof.

Claims (16)

1. An integrated kitchen range with a cooking device comprises the cooking device (1) and a smoke machine (2) arranged on the rear side of the cooking device (1), wherein the cooking device (1) comprises a liner (10), the smoke machine (2) comprises a lampblack fan (21), and the integrated kitchen range is characterized in that a heat dissipation channel (11) used for dissipating heat of the cooking device (1) is arranged above the liner (10), the heat dissipation channel (11) is provided with an air outlet (121), the liner (10) is respectively provided with an air inlet (101) and an air outlet (102) which can be opened and closed, the air outlet (121) of the heat dissipation channel (11) is in fluid communication with the air inlet (101) of the liner (10), and the air outlet (102) of the liner (10) is in fluid communication with an air inlet (210) of the lampblack fan (21).

2. The integrated cooker with cooking device according to claim 1, wherein the air inlet (101) is opened on the top wall of the inner container (10).

3. The integrated cooker with cooking device according to claim 2, wherein an upper heating pipe (15) is installed on the inner top surface of the inner container (10).

4. The integrated cooker with a cooking device according to claim 3, wherein an upper mounting plate (12) is horizontally disposed above the inner container (10), an upper and a lower gap is formed between a lower surface of the upper mounting plate (12) and a top surface of the inner container (10), an air deflector (13) is covered on an upper surface of the upper mounting plate (12), the air deflector (13) and the upper surface of the upper mounting plate (12) form the heat dissipation channel (11) extending in the front-back direction, a heat dissipation fan (14) is installed on an air inlet port (111) at the rear end of the heat dissipation channel (11), and the air outlet (121) is opened on the upper mounting plate (12).

5. The integrated cooker with cooking device according to claim 4, wherein a deflector (131) for guiding the outlet air of the heat dissipation fan (14) to the air outlet (121) is disposed on the inner top surface of the air deflector (13).

6. The integrated cooker with cooking device according to claim 5, wherein the deflector (131) is disposed above and below the air outlet (121) and opposite to the air outlet (140) of the heat dissipation fan (14), and the cross section of the deflector (131) is arc-shaped and protrudes toward the air outlet (112) of the heat dissipation channel (11).

7. The integrated range with a cooking apparatus according to claim 6, wherein the lower end edge of the baffle plate (131) is opposite to the air outlet (121) up and down.

8. The integrated range with cooking apparatus according to claim 6 or 7, wherein the central angle of the cross section of the deflector (131) is 45 °, and the angle between the inner top surface of the air deflector (13) where the deflector (131) is located and the horizontal plane is 30 °.

9. The integrated range with cooking device according to any one of claims 1 to 7, wherein the air outlet (121) is in communication with the air inlet (101) through a deflector (4), the deflector (4) comprises a guide (41), a first member (42), a second member (43), and a driving motor (44) for driving the first member (42) and the second member (43) to move away from or toward each other along the guide (41), respectively,

in an initial state, the guide piece (41), the first member (42) and the second member (43) are spliced to form a closed cavity structure, each air outlet (121) and the corresponding air inlet (101) are respectively closed by the flow guide device (4), and in a steam discharging state of the inner container (10), the first member (42) and the second member (43) are driven by the driving motor (44) to move away from each other, so that a first air guide opening (401) communicated with the air outlet (121) is formed between the first member (42) and the guide piece (41), and a second air guide opening (402) communicated with the air inlet (101) is formed between the second member (43) and the guide piece (41).

10. The integrated range with cooking apparatus according to claim 9, wherein the air outlet (121) is disposed opposite to the air inlet (101) in a vertical direction, the first member (42) and the second member (43) are vertically disposed cylindrical members, wherein the first member (42) is embedded in the air outlet (121) and can move up and down with respect to the air outlet (121), the second member (43) is embedded in the air inlet (101) and can move up and down with respect to the air inlet (101), the first member (42) is sealed at an upper end and the second member (43) is sealed at a lower end, the first member (42) is vertically inserted into the second member (43) at an upper end, and side walls thereof are opened on the same side and vertically combined to form the air guide window (40), the guide (41) is a vertically disposed plate member, and the guide (41) is covered on the air guide window (40) and is detachably connected to the first member (42) through a first guide assembly and is detachably connected to the upper and lower guide assembly and detachably connected to the second member (43) through a second guide assembly,

in an initial state, the guide member 41 is covered on the air guide window 40, and in a steam exhaust state of the inner container 10, the upper end edge of the guide member 41 and the upper end opening edge of the air guide window 40 enclose the first air guide opening 401, and the lower end edge of the guide member 41 and the lower end opening edge of the air guide window 40 enclose the second air guide opening 402.

11. The integrated range with cooking apparatus as claimed in claim 10, wherein the air guide window (40) is provided at a lower end thereof with an air inlet grill (46), and the air inlet grill (46) is sealed in the second air guide opening (402) in the steam exhaust state of the inner container (10).

12. The integrated range with a cooking apparatus according to claim 10, wherein a lower portion of an outer surface of the first member (42) is recessed inward in a circumferential direction to form a fitting groove (422) having a size matched with a sidewall of the second member (43), the second member (43) is fitted in the fitting groove (422) in an initial state, and the second member (43) can move up and down along the fitting groove (422) with respect to the first member (42).

13. The integrated range with cooking apparatus according to claim 10, wherein one end of the guide member (41) in a lateral direction is extended outward to form an extension plate (41 a), the first guide assembly includes a first guide rib (421) provided in both the extension plate (41 a) and the outer surface of the first member (42) and a first guide groove (411) provided in the other one, the first guide rib (421) and the first guide groove (411) are vertically extended, respectively, and the first guide rib (421) is fitted in the first guide groove (411) and can be moved up and down along the first guide groove (411),

the second guide assembly includes a second guide rib (431) provided on one and a second guide groove (412) provided on the other of the outer surfaces of the extension plate (41 a) and the second member (43), the second guide rib (431) and the second guide groove (412) extend vertically, respectively, and the second guide rib (431) is fitted in the second guide groove (412) and can move up and down along the second guide groove (412).

14. The integrated cooker with cooking function according to claim 10, wherein the deflector (4) further comprises a transmission mechanism (45), the transmission mechanism (45) comprises a first transmission rack (451), a second transmission rack (452) and a transmission gear (453), wherein the first transmission rack (451) is vertically fixed on the outer surface of the first member (42), the second transmission rack (452) is vertically fixed on the outer surface of the second member (43) and is oppositely arranged with a space from the first transmission rack (451), the transmission gear (453) is mounted on the output shaft of the driving motor (44), and the transmission gear (453) is clamped between the first transmission rack (451) and the second transmission rack (452) and is respectively engaged with the transmission racks.

15. The integrated range with a cooking apparatus according to any one of claims 1 to 7, wherein the number of the air inlets (101) is two and is spaced apart from each other in the middle of the front end of the top wall of the inner container (10), and correspondingly, the number of the air outlets (121) is two and corresponds to one of the air inlets (101).

16. The integrated range with a cooking apparatus according to claim 15, wherein the exhaust port (102) is opened at one end of the upper side of the back wall of the inner container (10).

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