CN216790246U - Integrated kitchen with cooking device - Google Patents

Abstract

The utility model relates to an integrated cooker with a cooking device, which comprises the cooking device with an inner container and a cooker arranged on the cooking device, wherein the inner container is provided with a first exhaust port, the cooker comprises a cooker shell with an exhaust cavity, the cooker shell comprises a base plate with an opening at the upper part and a panel covered on the base plate, an exhaust window is arranged at the rear side of the panel, a first air inlet and a first air outlet are arranged on the cavity wall of the exhaust cavity, the first air inlet is communicated with the first exhaust port in a fluid mode, the first air outlet is communicated with the exhaust window in a fluid mode, a second exhaust port capable of being opened and closed is further arranged on the inner container, an exhaust fan is further arranged to exhaust the inner container through the second exhaust port, and the second exhaust port is communicated with the second air inlet of the exhaust cavity. Compared with the prior art, the utility model can improve the steam exhaust efficiency of the lower liner of the baking mode, and simultaneously can prevent the residual steam in the liner from being directly injected to a user when the steam mode is finished, thereby improving the use experience of the user.

Description

Integrated kitchen with cooking device

Technical Field

The utility model relates to the field of integrated cookers, in particular to an integrated cooker with a cooking device.

Background

An integrated cooker is a device that integrates a cooker (generally, a gas cooker) with other household appliances, and an integrated cooker with a cooking device is a type of integrated cooker that integrates a cooker with a cooking device (an electric steamer, an electric oven, or an all-in-one steaming and baking machine, etc.), and the cooker is installed above the cooking device. For example, chinese invention patent with application number CN202010620832.9 (publication number CN111735080A), chinese utility model patent with patent number ZL202021260123.6 (publication number CN212585007U) and the like all disclose this type of integrated cooker.

Present culinary art device of function is baked in area (for example oven, evaporate roast all-in-one etc.) can't high-efficient exhaust under roast mode, and then influences the effect of toasting, especially toast when having higher food to the hydrofuge requirement, for example: dissolving beans, dried vegetables and fruits, cakes, puffs and the like. Simultaneously, for pursuing high-efficient culinary art, current area evaporates cooking device's of function steam generator's power also is bigger and bigger, brings the culinary art thereupon and finishes when opening the door, and a large amount of remaining steam can directly spout the user in the inner bag, influences user's use and experiences.

Disclosure of Invention

The first technical problem to be solved by the utility model is to provide an integrated cooker with a cooking device, which has high steam exhaust efficiency, aiming at the prior art.

The second technical problem to be solved by the present invention is to provide an integrated cooker with a cooking device, which can avoid the direct injection of steam in the inner container when the door is opened.

The technical scheme adopted by the utility model for solving at least one technical problem is as follows: an integrated cooker with a cooking device comprises the cooking device with a liner and a cooker arranged on the cooking device, wherein the liner is provided with a first exhaust port, the cooker comprises a cooker shell with an exhaust cavity, the cooker shell comprises a base plate with an upper opening and a panel covered on the base plate, an exhaust window is arranged on the rear side of the panel, a first air inlet and a first air outlet are arranged on the cavity wall of the exhaust cavity, the first air inlet is communicated with the first exhaust port in a fluid mode, the first air outlet is communicated with the exhaust window in a fluid mode, and the integrated cooker is characterized in that a second exhaust port capable of being opened and closed is further formed in the liner, an exhaust fan is further arranged to exhaust air to the liner through the second exhaust port, and the second exhaust port is communicated with the second air inlet of the exhaust cavity in a fluid mode.

Further, the exhaust fan is an axial flow fan blade which can be started and stopped, the axial flow fan blade is installed in an exhaust channel, an air inlet port of the exhaust channel is communicated with the second exhaust port, an air outlet port of the exhaust channel is communicated with a second air inlet of the exhaust cavity through a second exhaust pipe, a shielding plate is arranged on the air outlet port of the exhaust channel, the shielding plate shields the air outlet port of the exhaust channel when the axial flow fan blade is in a static state, and the air outlet port of the exhaust channel is opened when the axial flow fan blade is in a rotating state. When the axial flow fan blades are in a static state, the shielding plate shields the air outlet port of the exhaust channel, and the second exhaust port is closed, so that the sealing performance of the liner is ensured, particularly in a steaming mode; when the axial flow fan blades rotate and the air outlet ports of the exhaust channels are opened, air flow in the inner container is driven by the axial flow fan blades to be rapidly discharged through the exhaust channels, and therefore the steam in the inner container can be rapidly discharged through the cooperation of the first exhaust port and the second exhaust port.

Furthermore, the second air outlet is arranged on the back plate of the inner container, and the air exhaust channel is positioned outside the inner container and extends along the front-back direction, so that the air flow entering the air exhaust channel can be more smoothly discharged outwards.

Furthermore, a guide shaft extending in the front-rear direction is arranged in the air outlet port of the exhaust channel, the shielding plate is sleeved on the guide shaft and can slide back and forth along the guide shaft, a return spring is sleeved on the guide shaft, and the axial flow fan blades are static and the shielding plate shields the air outlet port, so that the shielding plate has the tendency of moving forwards along the guide shaft to shield the air outlet port by the return spring under the state that the axial flow fan blades are static and the shielding plate shields the air outlet port. When the axial flow fan blade is not in operation, the shielding plate shields the air outlet port of the exhaust channel under the action of the elastic force of the return spring, the second exhaust port is closed, when the axial flow fan blade rotates, the airflow entering the exhaust channel under the driving of the axial flow fan blade generates backward pressure difference on the front surface and the rear surface of the shielding plate, the pressure difference overcomes the elastic force of the return spring to enable the shielding plate to face backward for a certain time, the air outlet port is opened, and the air in the liner is discharged outside through the exhaust channel.

Further, the opening area of the air inlet port of the exhaust channel is larger than that of the air outlet port. Therefore, in the process that the air flow flows from the air inlet port to the air outlet port of the exhaust channel, the air pressure is increased, on one hand, the shielding plate can be better driven to move backwards to open the air outlet port, and on the other hand, the speed of the air flow discharged from the exhaust channel can be increased.

Furthermore, the back of the liner is covered with a horizontally extending exhaust funnel at the second exhaust port, the inner cavity of the exhaust funnel forms the exhaust channel, the front end opening of the exhaust funnel is the air inlet port, and the rear end opening of the exhaust funnel is the air outlet port, so that the exhaust channel structure can be well formed.

Furthermore, the fan blade shaft of the axial flow fan blade is arranged along the central shaft direction of the exhaust funnel, the fan blade shaft has magnetism, and the exhaust funnel is a conductive cylinder capable of being powered on and off. The state of the fan blade shaft can be controlled by controlling the on-off control of the exhaust cylinder, namely when the exhaust cylinder is powered on, the fan blade shaft rotates, the axial flow fan blades rotate, and when the exhaust cylinder is powered off, the fan blade shaft stops rotating, the axial flow fan blades stop rotating, and the on-off control of the axial flow fan blades is realized.

Furthermore, the cross section of the exhaust funnel is circular, the front end of the exhaust funnel is cylindrical, and the rear end of the exhaust funnel is inwards smoothly contracted from front to back along the circumferential direction, so that the inner surface of the rear end of the exhaust funnel forms an air guide arc surface. The air flow of the exhaust channel can be better guided to the air outlet port from the air inlet port through the air guide cambered surface.

Furthermore, an exhaust cover plate is arranged on an upper cover of the air inlet port of the exhaust funnel, and small exhaust holes are distributed in the exhaust cover plate. The oil smoke in the exhaust gas discharged from the inner container can be filtered through the exhaust cover plate, and the oil stain prevention effect is achieved.

Furthermore, a support with a vent is fixed in the air outlet port of the exhaust funnel, a rear shaft seat is fixed at the center of the front end face of the support, a front shaft seat is fixed at the center of the rear surface of the exhaust cover plate, and the front end and the rear end of the fan blade shaft of the axial flow fan blade are respectively and rotatably connected to the front shaft seat and the rear shaft seat, so that the axial flow fan blade is stably installed.

Further, the front end of the guide shaft is fixed at the center of the rear end face of the bracket, the rear end of the guide shaft is fixed with a limiting projection, and the return spring is limited between the shielding plate and the limiting projection. Thereby realizing the firm installation of guiding axle and reset spring.

Furthermore, the first exhaust port is also arranged on the back plate of the inner container, the opening height of the first exhaust port is higher than that of the second exhaust port, and the first exhaust port and the second exhaust port are arranged in a left-right staggered mode. When the second gas vent is opened, first gas vent performance is to the effect of inner bag supplementary air, and the density of air is greater than the hot-air in the inner bag, and the seting up of first gas vent highly is higher than above-mentioned second gas vent, and the air that enables first gas vent to drum into drives the moisture in the inner bag better downwards and outwards discharges towards the second gas vent direction, further improves steam extraction efficiency. In addition, in the steaming mode process, the gas in the inner container is discharged outside through the first exhaust port, the position of the first exhaust port is arranged relatively higher, the staying time of the steam in the inner container can be prolonged, and the cooking efficiency of the steam to food is further prolonged.

Furthermore, an exhaust box is arranged in the base plate of the cooker, the exhaust box is covered on the lower surface of the panel where the exhaust window is located to enclose the exhaust cavity, the upper opening of the exhaust box is the first air outlet, and the first air inlet and the second air inlet are respectively arranged on the bottom wall of the exhaust box. Thereby facilitating the arrangement of the exhaust cavity in the cooktop housing and further facilitating the interconnection between each corresponding port.

Furthermore, a condensed water box is embedded in the exhaust box, a first condensation interface and a second condensation interface are respectively arranged on the bottom wall of the condensed water box, the first condensation interface is communicated with the first air inlet, and the second condensation interface is communicated with the second air inlet. The condensed water formed in the exhaust box can be collected through the condensed water box, and the condensed water is prevented from flowing in the exhaust box.

Furthermore, a first air guide cover and a second air guide cover are respectively arranged in the condensed water box at the upper first condensation interface and the second condensation interface in an enclosing manner. Through setting up first wind scooper and second wind scooper can avoid two outer air currents of arranging in first condensation interface and the second condensation interface to take place mutual interference, guarantee the exhaust efficiency of integrated kitchen.

Compared with the prior art, the utility model has the advantages that: first gas vent and second gas vent have been seted up on the inner bag, under the roast mode, when humidity in the inner bag is higher, the second gas vent is opened, under the effect of exhaust fan, the moisture in the inner bag is arranged outward through second gas vent and exhaust window fast, forms the negative pressure in the inner bag, and at this moment, during the outside air mended the inner bag through first gas vent, the steam extraction efficiency of inner bag under the improvement roast mode. When the mode of evaporating ended, the second gas vent was opened, and under the effect of exhaust fan, the surplus steam in the inner bag was arranged outward through the second gas vent fast, and during the outer air mended the inner bag through first gas vent simultaneously, the steam in the inner bag was directly spouted the user when avoiding opening the door.

Drawings

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

FIG. 2 is a schematic view of a partial structure of an integrated cooker according to an embodiment of the present invention (with an exhaust grill omitted);

FIG. 3 is a partial exploded view of an integrated cooker according to an embodiment of the present invention;

FIG. 4 is a schematic structural view of an exhaust box and a condensate box according to an embodiment of the present invention;

FIG. 5 is a schematic view of another partial structure of an integrated cooker according to an embodiment of the present invention;

FIG. 6 is a schematic view of the structure of FIG. 5 in another direction;

FIG. 7 is a schematic view of an assembly structure of the exhaust funnel and the second exhaust pipe according to an embodiment of the present invention;

FIG. 8 is an exploded view of the exhaust stack and the second exhaust pipe in accordance with the present invention;

FIG. 9 is a sectional view of an exhaust stack and a second exhaust pipe according to an embodiment of the present invention.

Detailed Description

The utility model is described in further detail below with reference to the accompanying examples.

As shown in fig. 1 to 9, an integrated cooker with a cooking apparatus includes a cooking apparatus 1 having an inner container 10 and a cooker 2 disposed on the cooking apparatus 1, wherein the inner container 10 has a first exhaust opening 101, the cooker 2 includes a cooker housing having an exhaust cavity 30, the cooker housing includes a bottom plate 21 with an upper opening and a panel 22 covering the bottom plate 21, an exhaust window 221 is opened at a rear side of the panel 22, a first air inlet 31 and a first air outlet 33 are disposed on a cavity wall of the exhaust cavity 30, the first air inlet 31 is in fluid communication with the first exhaust opening 101, and the first air outlet 33 is in fluid communication with the exhaust window 221. The exhaust window 221 is fitted with an exhaust grill 7.

Further, in the present embodiment, as shown in fig. 2 to 4, an exhaust box 3 is disposed in the chassis 21 of the cooker 2 along the left-right direction, the exhaust box 3 is covered on the lower surface of the panel 22 where the exhaust window 221 is located to enclose the exhaust cavity 30, the upper opening of the exhaust box 3 is the first air outlet 33, and the first air inlet 31 and the second air inlet 32 are respectively disposed on the bottom wall of the exhaust box 3, so as to facilitate the disposition of the exhaust cavity 30 in the cooker housing and further facilitate the interconnection between the corresponding ports. Further, in order to prevent the condensed water formed in the exhaust box 3 from flowing and affecting the exhaust efficiency, the condensed water box 4 is embedded in the exhaust box 3, a first condensation port 41 and a second condensation port 42 are respectively formed on the bottom wall of the condensed water box 4, the first condensation port 41 is communicated with the first air inlet 31, and the second condensation port 42 is communicated with the second air inlet 32. The condensed water formed in the exhaust box 3 can be collected by the condensed water box 4, and the condensed water is prevented from flowing in the exhaust box 3. Preferably, the condensed water box 4 is surrounded by a first wind scooper 43 and a second wind scooper 44 at the upper first condensation port 41 and the second condensation port 42, respectively. Through the arrangement of the first air guiding cover 43 and the second air guiding cover 44, mutual interference of two flows of exhaust air in the first condensation connector 41 and the second condensation connector 42 can be avoided, and the exhaust efficiency of the integrated stove is ensured. In this embodiment, the mouth edge of each condensation port extends downward and is inserted into the corresponding inlet, and the first exhaust port 101 is in fluid communication with the first inlet 31 through the first exhaust pipe 11.

Further, as shown in fig. 6, a second exhaust port 102 capable of being opened and closed is further formed on the inner container 10, an exhaust fan is installed on the second exhaust port 102, and the second exhaust port 102 is communicated with the second air inlet 32 of the exhaust cavity 30. First exhaust port 101 and second exhaust port 102 have been seted up on the inner bag 10, roast mode is down, when the humidity in the inner bag 10 is higher, second exhaust port 102 is opened, under exhaust fan's effect, moisture in the inner bag 10 is outer through second exhaust port 102 and exhaust window 221 fast, form the negative pressure in the inner bag 10 simultaneously, at this moment, during the inner bag 10 was mended into to first exhaust port 101 of outside air accessible, first exhaust port 101 improved roast mode lower inner bag 10's steam extraction efficiency with second exhaust port 102 mating reaction. When the mode of steaming finishes, second gas vent 102 is opened, and under the effect of exhaust fan, the surplus steam in inner bag 10 is outer arranging through second gas vent 102 fast, and during the outer air mended inner bag 10 through first gas vent 101 simultaneously, the quick outer arranging of surplus steam in inner bag 10 is realized to first gas vent 101 and second gas vent 102 cooperation, and the steam in the inner bag 10 is directly spouted the user when avoiding opening the door.

Further, in this embodiment, as shown in fig. 8 and 9, the exhaust fan is an axial fan 5 that can be started and stopped, and the axial fan 5 is installed in the exhaust passage 60, the air inlet 601 of the exhaust passage 60 is communicated with the second exhaust port 102, the air outlet 602 is communicated with the second air inlet 32 of the exhaust cavity 30 through the second exhaust pipe 12, the air outlet 602 of the exhaust passage 60 is provided with a shielding plate 61, the shielding plate 61 shields the air outlet 602 of the exhaust passage 60 when the axial fan 5 is in a stationary state, and the air outlet 602 of the exhaust passage 60 is opened when the axial fan 5 is in a rotating state. When the axial flow fan 5 is in a static state, the shielding plate 61 shields the air outlet port 602 of the exhaust channel 60, and the second exhaust port 102 is closed, so that the sealing performance of the inner container 10 (especially in a steaming mode) is ensured; when the axial flow fan blade 5 rotates and the air outlet port 602 of the exhaust channel 60 is opened, the air flow in the inner container 10 is driven by the axial flow fan blade 5 to be quickly discharged through the exhaust channel 60, and the steam in the inner container 10 can be quickly discharged through the cooperation of the first exhaust port 101 and the second exhaust port 102.

In order to make the airflow entering the exhaust channel 60 more smoothly discharged, in this embodiment, the second exhaust port 102 is formed on the back plate of the liner 10, and the exhaust channel 60 is located outside the liner 10 and extends in the front-rear direction. Preferably, a guide shaft 64 extending in the front-rear direction is provided in the air outlet port 602 of the exhaust passage 60, the shielding plate 61 is fitted over the guide shaft 64 and can slide back and forth along the guide shaft 64, and a return spring 65 is further fitted over the guide shaft 64, so that the axial flow fan 5 is stationary and the shielding plate 61 has a tendency to move forward along the guide shaft 64 to shield the air outlet port 602 in a state where the shielding plate 61 shields the air outlet port 602. Thus, when the axial flow fan 5 is not operated, the shielding plate 61 shields the air outlet port 602 of the exhaust passage 60 by the elastic force of the return spring 65, the second exhaust port 102 is closed, and when the axial flow fan 5 rotates, the air flow entering the exhaust passage 60 by the driving of the axial flow fan 5 generates a backward pressure difference on the front and rear surfaces of the shielding plate 61, the pressure difference overcomes the elastic force of the return spring 65 to make the shielding plate 61 face backward to be fixed, the air outlet port 602 is opened, and the air in the inner container 10 is discharged through the exhaust passage 60. Further, preferably, the opening area of the inlet port 601 of the exhaust channel 60 is larger than the opening area of the outlet port 602, so that when the airflow flows from the inlet port 601 of the exhaust channel 60 to the outlet port 602, the air pressure is increased, on one hand, the shielding plate 61 can be better driven to move backwards to open the outlet port 602, and on the other hand, the speed of the airflow discharged from the exhaust channel 60 can be increased.

Preferably, the first exhaust port 101 is also formed in the back plate of the inner container 10, the first exhaust port 101 is formed higher than the second exhaust port 102, and the first exhaust port 101 and the second exhaust port 102 are formed to be shifted from each other in the left-right direction. When the second exhaust port 102 is opened, the first exhaust port 101 plays a role of supplementing air to the liner 10, and the density of the supplemented air (the temperature of the supplemented air is lower than that of the hot air in the liner 10) is higher than that of the hot air in the liner 10, so that the opening height of the first exhaust port 101 is higher than that of the second exhaust port 102, the air blown in by the first exhaust port 101 can better move downwards to extrude moisture in the liner 10 to be discharged outwards towards the second exhaust port 102, and the steam discharge efficiency is further improved.

Specifically, in this embodiment, the horizontally extending exhaust tube 6 is covered on the second exhaust port 102 at the back of the liner 10, the inner cavity of the exhaust tube 6 forms the exhaust channel 60, the front opening of the exhaust tube 6 is the air inlet 601, and the rear opening of the exhaust tube 6 is the air outlet 602, so that the structure of the exhaust channel 60 can be well formed. In order to achieve the opening and closing of the axial flow fan 5, the fan shaft 51 of the axial flow fan 5 is disposed along the central axis direction of the exhaust funnel 6, the fan shaft 51 has magnetism, and the exhaust funnel 6 is a conductive tube capable of being turned on and off. The operation state of the fan blade shaft 51 can be controlled by controlling the on/off state of the exhaust pipe 6, that is, when the exhaust pipe 6 is energized, the fan blade shaft 51 rotates, and the axial flow fan blades 5 rotate, and when the exhaust pipe 6 is de-energized, the fan blade shaft 51 stops rotating, and the axial flow fan blades 5 stop rotating, thereby realizing the on/off control of the axial flow fan blades 5. Further, it is preferable that the cross section of the exhaust duct 6 is circular, the front end of the exhaust duct 6 is cylindrical, and the rear end of the exhaust duct 6 is smoothly tapered inward from front to rear in the circumferential direction so that the inner surface of the rear end of the exhaust duct 6 forms an air guide curved surface 603. The air flow of the exhaust channel 60 can be better guided from the air inlet port 601 to the air outlet port 602 through the air guide arc surface 603. In the present embodiment, the outlet port 602 of the exhaust passage 60 is communicated with the second inlet port 32 of the exhaust box 3 through the second exhaust pipe 12, and preferably, in the present embodiment, an exhaust hood 121 is formed at the lower end of the second exhaust pipe 12, and the exhaust hood 121 is connected to the outlet port end of the exhaust pipe 6.

Further, an exhaust cover plate 62 is provided on the intake port 601 of the exhaust pipe 6, and an exhaust hole 621 is provided in the exhaust cover plate 62. The oil smoke in the exhaust gas discharged from the inner container 10 can be filtered through the exhaust cover plate 62, and the oil stain prevention effect is achieved. Meanwhile, a support 63 having a vent hole 631 is fixed in the outlet port 602 of the exhaust funnel 6, a rear shaft seat 632 is fixed at the center of the front end surface of the support 63, a front shaft seat 622 is fixed at the center of the rear surface of the exhaust cover plate 62, and the front and rear ends of the fan shaft 51 of the axial flow fan blade 5 are respectively rotatably connected to the front shaft seat 622 and the rear shaft seat 632, thereby realizing the stable installation of the axial flow fan blade 5. In this embodiment, the front end of the guide shaft 64 is fixed to the center of the rear end surface of the bracket 63, the rear end of the guide shaft 64 is fixed to a limit projection 641, and the return spring 65 is limited between the shutter 61 and the limit projection 641, thereby achieving stable mounting of the guide shaft 64 and the return spring 65.

The working process of the utility model is as follows:

in the normal baking mode and the steaming mode, the second exhaust port 102 is closed, the gas in the inner container 10 is discharged outside through the first exhaust port 101, and the first exhaust port 101 performs a normal exhaust function. When the moisture content of the baked moisture is high and the humidity in the inner container 10 is high, the second exhaust port 102 is opened, the moisture in the inner container 10 is exhausted through the second exhaust port 102, meanwhile, the outside air is supplemented into the inner container 10 through the first exhaust port 101, the moisture in the inner container 10 is exhausted rapidly, and the steam exhaust efficiency of the inner container 10 is improved. When the steaming mode is finished, the second exhaust port 102 is opened, residual steam in the liner 10 is discharged outside through the second exhaust port 102, meanwhile, outside air is supplemented into the liner 10 through the first exhaust port 101, the residual steam in the liner 10 is discharged outside quickly, and direct injection of the steam in the liner 10 to a user is avoided when the door is opened.

The term "fluid communication" as used herein refers to a spatial relationship between two components or portions (hereinafter collectively referred to as a first portion and a second portion, respectively), i.e., a fluid (gas, liquid or a mixture of both) can flow from the first portion along a flow path or/and be transported to the second portion, and may be a direct communication between the first portion and the second portion, or an indirect communication between the first portion and the second portion via at least one third element, such as a fluid channel, e.g., a pipe, a channel, a conduit, a flow guide, a hole, a groove, or a chamber that allows a fluid to flow through, or a combination thereof.

Claims (15)

1. An integrated cooker with a cooking device, comprising a cooking device (1) with an inner container (10) and a cooker (2) arranged on the cooking device (1), wherein the inner container (10) is provided with a first exhaust port (101), the cooker (2) comprises a cooker shell with an exhaust cavity (30), the cooker shell comprises a chassis (21) with an upper opening and a panel (22) covered on the chassis (21), an exhaust window (221) is arranged at the rear side of the panel (22), a first air inlet (31) and a first air outlet (33) are respectively arranged on the cavity wall of the exhaust cavity (30), the first air inlet (31) is in fluid communication with the first exhaust port (101), the first air outlet (33) is in fluid communication with the exhaust window (221), and the integrated cooker is characterized in that a second exhaust port (102) capable of opening and closing is also arranged on the inner container (10), and an exhaust fan is arranged for exhausting the inner container (10) through the second exhaust port (102), and the second exhaust port (102) is in fluid communication with the second inlet (32) of the exhaust cavity (30).

2. The integrated range with a cooking device according to claim 1, wherein the exhaust fan is an axial fan (5) that can be turned on and off, and the axial fan (5) is installed in an exhaust duct (60), an inlet port (601) of the exhaust duct (60) is communicated with the second exhaust port (102) and an outlet port (602) is communicated with the second inlet port (32) of the exhaust chamber (30) through a second exhaust duct (12), a shielding plate (61) is disposed on the outlet port (602) of the exhaust duct (60), and when the axial fan (5) is in a stationary state, the shielding plate (61) shields the outlet port (602) of the exhaust duct (60), and when the axial fan (5) is in a rotating state, the outlet port (602) of the exhaust duct (60) is opened.

3. The integrated range with a cooking apparatus according to claim 2, wherein the second exhaust port (102) is opened on a back plate of the inner container (10), and the exhaust passage (60) is located outside the inner container (10) and extends in a front-rear direction.

4. The integrated cooker with cooking device according to claim 3, wherein a guide shaft (64) extending in a front-rear direction is provided in the air outlet port (602) of the exhaust duct (60), the shielding plate (61) is sleeved on the guide shaft (64) and can slide back and forth along the guide shaft (64), and a return spring (65) is further sleeved on the guide shaft (64), the return spring (65) makes the shielding plate (61) have a tendency of moving forward along the guide shaft (64) to shield the air outlet port (602) in a state that the axial fan (5) is stationary and the shielding plate (61) shields the air outlet port (602).

5. The integrated hob with a cooking device according to claim 4, characterized in that an opening area of the air inlet port (601) of the exhaust channel (60) is larger than an opening area of the air outlet port (602).

6. The integrated range with cooking apparatus according to claim 4, wherein a horizontally extending exhaust funnel (6) is covered on the back of the inner container (10) at the second exhaust port (102), the inner cavity of the exhaust funnel (6) forms the exhaust channel (60), the front opening of the exhaust funnel (6) is the air inlet port (601), and the rear opening of the exhaust funnel (6) is the air outlet port (602).

7. The integrated cooker with cooking device according to claim 6, wherein the fan shaft (51) of the axial fan (5) is disposed along the central axis direction of the exhaust funnel (6), and the fan shaft (51) has magnetism, and the exhaust funnel (6) is a conductive tube capable of being turned on and off.

8. The integrated range with cooking apparatus according to claim 7, wherein the cross section of the exhaust funnel (6) is circular, the front end of the exhaust funnel (6) is cylindrical, and the rear end of the exhaust funnel (6) is rounded inward from front to rear along the circumferential direction to form an air guide arc surface (603) on the inner surface of the rear end of the exhaust funnel (6).

9. The integrated cooker with cooking device according to claim 7, wherein the exhaust cover plate (62) is covered on the air inlet port (601) of the exhaust funnel (6), and the exhaust cover plate (62) is provided with the exhaust small holes (621).

10. The integrated range with cooking device as claimed in claim 9, wherein a support (63) with a vent (631) is fixed in the outlet port (602) of the exhaust funnel (6), a rear axle seat (632) is fixed at the center of the front end surface of the support (63), a front axle seat (622) is fixed at the center of the rear surface of the exhaust cover plate (62), and the front and rear ends of the fan shaft (51) of the axial fan (5) are respectively rotatably connected to the front axle seat (622) and the rear axle seat (632).

11. The integrated cooker with cooking apparatus according to claim 10, wherein a guide shaft (64) extending in a front-rear direction is fixed at a center of a rear end surface of the bracket (63), the shielding plate (61) is fitted over the guide shaft (64) and can move back and forth along the guide shaft (64), a return spring (65) is fitted over the guide shaft (64), a limit protrusion (641) is fixed to a rear end of the guide shaft (64), the return spring (65) is limited between the shielding plate (61) and the limit protrusion (641), and the return spring (65) makes the shielding plate (61) have a tendency of shielding the air outlet port (602) when the air outlet port (602) is opened.

12. The integrated cooker with a cooking device according to any one of claims 1 to 11, wherein the first exhaust port (101) is also opened on the back plate of the inner container (10), the opening height of the first exhaust port (101) is higher than that of the second exhaust port (102), and the first exhaust port (101) and the second exhaust port (102) are arranged in a left-right staggered manner.

13. The integrated cooker with cooking device according to any claim 1 to 11, wherein an exhaust box (3) is disposed in the bottom plate (21) of the cooker (2), the exhaust box (3) is covered on the lower surface of the panel (22) where the exhaust window (221) is located to form the exhaust cavity (30), the upper opening of the exhaust box (3) is the first air outlet (33), and the first air inlet (31) and the second air inlet (32) are respectively disposed on the bottom wall of the exhaust box (3).

14. The integrated cooker with cooking device according to claim 13, wherein the exhaust box (3) is embedded with a condensed water box (4), a first condensation port (41) and a second condensation port (42) are respectively opened on a bottom wall of the condensed water box (4), the first condensation port (41) is communicated with the first air inlet (31), and the second condensation port (42) is communicated with the second air inlet (32).

15. The integrated cooker with cooking device according to claim 14, wherein the condensed water box (4) is surrounded by a first wind scooper (43) and a second wind scooper (44) at the upper first condensation port (41) and the second condensation port (42), respectively.

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