CN111503668A - Integrated stove with cooking device - Google Patents

Abstract

The invention relates to an integrated stove with a cooking device, which comprises the cooking device with a door body and a stove arranged on the upper part of the cooking device, wherein the stove comprises a stove shell and a heat dissipation system, the heat dissipation system comprises a heat dissipation channel and a fan arranged in the heat dissipation channel, the heat dissipation channel is provided with a first air outlet port, the front side wall of the stove shell is provided with a first ventilation opening, the door body comprises a first door plate and a second door plate, a ventilation interlayer is reserved between the first door plate and the second door plate, the ventilation interlayer comprises an inlet positioned at the top and an outlet positioned at the bottom, and the first ventilation opening is in fluid communication with the inlet of the ventilation interlayer. The heat dissipation channel is arranged in the stove shell, airflow in the heat dissipation channel can be blown to the first air outlet on the front side wall of the stove shell through the first air outlet port on the heat dissipation channel, and air outlet of the second air outlet can be blown to the ventilation interlayer of the door body, so that cooling and heat dissipation of the door body are realized, and a user is prevented from being scalded due to overhigh temperature of the door body.

Description

Integrated stove with cooking device

Technical Field

The invention relates to the field of cooking devices, in particular to an integrated stove with a cooking device.

Background

Integration is the development direction of future cooking equipment, and integrated cooking equipment has advantages such as occupation kitchen space is little, convenient to use. The existing integrated cooker generally integrates a cooker and a steam box or an oven or a dish washer or a disinfection cabinet. The oil smoke exhaust is one of the important problems to be solved by the integrated cooker, the existing integrated cooker generally utilizes the existing range hood in the kitchen to process the oil smoke generated during the operation of the integrated cooker, the oil smoke problem generated by the cooker part of the integrated cooker can be better solved by the mode, but the oil smoke or steam generated by other parts (such as a steam box, an oven and the like) of the integrated cooker has poor treatment effect.

Chinese patent application No. 201610647070.5 (application publication No. CN106123070A) discloses a side-draught bottom-discharge fan integrated kitchen range, which comprises a body, a kitchen range assembly, a fume removing device, a fume inlet channel arranged in the body, a fume collecting hood communicated with the fume inlet channel arranged above the rear portion of the body, a cavity arranged at the bottom of the body and below a cooking chamber of a steam box or an oven or a dish washer or a disinfection cabinet, a fan transversely arranged in the cavity, and a fume inlet arranged in the cavity for allowing fume to enter the volute from the air inlet at one side of the volute, wherein the fume inlet channel is communicated with the cavity, and an air outlet of the volute is connected with an exhaust pipe. In the oil smoke removing device that leads to the culinary art room below with the oil smoke that cooking utensils and culinary art room produced in this patent, the oil smoke has the trend of upward movement, and this patent adopts the mode of discharging fume downwards, has not only increased the length of exhaust fume channel, increases the degree of difficulty of oil extraction cigarette, has reduced oil extraction cigarette efficiency to there is the oil smoke that cooking utensils produced risk of flowing backward to steam ager or oven in.

The Chinese utility model with the patent number Z L201721114779.5 (the grant bulletin number is CN207648881U) discloses an integrated cooker, which comprises an integrated cooker body, the integrated cooker body comprises a lifting foot arranged at the lower part of the integrated cooker body and contacted with the ground, the upper part of the lifting foot is provided with an oil cup, the upper part of the oil cup is provided with a disinfection cabinet, the upper part of the disinfection cabinet is provided with fresh-keeping heat dissipation holes, a handle is arranged between the lower part of the fresh-keeping cabinet and the upper part of the disinfection cabinet, the upper part of the fresh-keeping cabinet is provided with a gas stove, the gas cooker is arranged on the gas stove panel, the upper part of the gas stove is provided with a stove frame, the central position of the stove frame is provided with a burner, the integrated cooker body is connected with the upper part of the gas stove, the side upper end of the integrated cooker body is provided with a power supply port, the left side of the power supply port is provided with a plurality of hand holes, the hand holes are arranged at the lower part of the gas stove, the integrated cooker is provided with a limited back of the integrated cooker, and the integrated cooker is provided with a ventilation hole for reducing the temperature through the back of the integrated cooker.

Disclosure of Invention

The first technical problem to be solved by the invention is to provide an integrated cooker with a cooking device, which can cool a door body, 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 has a good heat dissipation effect.

The third technical problem to be solved by the present invention is to provide an integrated cooker with a cooking device, which has high exhaust efficiency and good effect.

A fourth technical problem to be solved by the present invention is to provide an integrated cooker with a cooking device that can prevent a cabinet from being wet, in view of the prior art.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides an integrated kitchen with cooking device, is including the cooking device that has the door body and set up the cooking utensils on this cooking device upper portion, and above-mentioned cooking utensils include the kitchen shell, its characterized in that still includes cooling system, and this cooling system includes heat dissipation channel and sets up the fan in this heat dissipation channel, heat dissipation channel has first air-out port, and has seted up first vent on the preceding lateral wall of kitchen shell, and above-mentioned door body includes first door plant and second door plant, leaves the ventilation intermediate layer between first door plant and the second door plant, and this ventilation intermediate layer is including the import that is located the top and the export that is located the bottom, and above-mentioned first vent is with the fluid intercommunication of the import phase of ventilation intermediate layer.

In order to enable the air outlet of the first vent to be better guided to the ventilation interlayer, a guide plate is arranged on the front side of the stove shell and can guide the air outlet of the first vent to the inlet.

Further, preferably, the guide plate is arranged in a manner of inclining from top to bottom, the upper end of the guide plate is fixed on the stove shell, and the lower end of the guide plate is suspended.

Furthermore, an electronic element which can generate heat when in work is arranged in the inner cavity of the stove shell, the first air outlet port is opposite to the electronic element, and the heat emitted by the electronic element can be blown out through the first vent when the air outlet of the first air outlet port blows over the electronic element, so that the temperature of the electronic element is reduced, and the heat dissipation of the electronic element is realized.

Furthermore, a second ventilation opening is formed in the side wall, adjacent to the fan, of the stove shell, so that outside cold air can better enter the air inlet of the fan through the second ventilation opening.

In order to further improve the heat dissipation effect on the electronic element, the second ventilation opening is arranged opposite to the electronic element.

Preferably, the fan is a centrifugal fan, the heat dissipation system further includes an air guiding cover, the air guiding cover includes a head portion and a body portion, the head portion is in a volute shape, the top surface of the head portion is eccentrically provided with the circular air inlet, the head portion covers the fan, the fan and the air inlet are concentrically arranged, the body portion covers the inner bottom surface of the chassis to form the heat dissipation channel, the body portion is square in cross section, the front side wall of the body portion is provided with the first air outlet port, the rear end of the body portion is provided with the second air outlet port, one side of the front end of the body portion is provided with the air inlet port, and the head portion is connected to the air inlet port.

In order to improve the flowing speed of the air flow in the heat dissipation channel and further improve the heat dissipation efficiency, the front side wall of the body part is aligned with and connected with the front side wall of the head part and is straight, the front side wall of the body part and the side wall opposite to the air inlet port are in smooth transition, and the first air outlet port extends to the smooth transition position.

Preferably, the bottom of the chassis is recessed downwards to form a sinking platform, the size of the sinking platform is matched with that of the head, the fan is installed in the sinking platform, and the motor is installed at the bottom of the sinking platform. The axial space of the fan can be increased by arranging the sinking platform structure, the height of fan blades of the fan is increased, and further the air quantity of the fan is increased.

Preferably, an exhaust cavity is arranged in the stove housing, the outlet air of the second outlet air port is communicated with the exhaust cavity, the exhaust cavity is provided with an exhaust port communicated with the outside, the exhaust cavity is provided with a first air inlet, the cooking chamber is provided with an air outlet, and the first air inlet is communicated with the air outlet in a fluid mode. The exhaust gas in the cooking chamber is discharged into the kitchen range from bottom to top and is discharged along with the oil smoke generated by the kitchen range, so that the whole discharge of the smoke generated by the integrated kitchen range with the cooking device is realized, the exhaust efficiency is improved, the phenomenon that the high-concentration oil smoke generated by the kitchen range is blown to the steaming and baking integrated machine to influence the cooking quality of food in the steaming and baking integrated machine can be avoided, and the exhaust effect is improved.

Preferably, a water condensation box is arranged in the exhaust cavity, the air outlet of the second air outlet port blows towards the water condensation box, a second air inlet opposite to the first air inlet is formed in the bottom wall of the water condensation box, an air guide pipe is arranged on the inner bottom surface of the water condensation box, the second air inlet is located in the air guide pipe, and the height of the air guide pipe is lower than that of the water condensation box. Therefore, the condensed water can be prevented from overflowing out of the condensed water box and entering the interior of the stove shell.

Preferably, an exhaust box is disposed in the stove housing, the panel is covered on an opening of the exhaust box to form the exhaust cavity, a hole is formed in a corresponding position of the panel to form the exhaust port, an exhaust fence is disposed in the exhaust port, a first air inlet is disposed on a bottom wall of the exhaust box, an opening of the first air inlet extends vertically downward to form a first air inlet interface exposed out of the base plate, an upper opening of the exhaust pipe is sleeved on the first air inlet interface, a lower opening of the exhaust pipe is communicated with the cooking chamber, an opening of the second air inlet extends downward to form a second air inlet interface, and the second air inlet interface extends into the first air inlet interface. When the exhaust gas passes through the exhaust fence, part of water vapor in the exhaust gas is condensed when meeting the exhaust fence and flows back to the water condensation box.

In order to further improve the condensation effect of the heat dissipation system on the waste gas discharged into the condensation box, the upper end of the front wall of the condensation box is downwards sunken to form a notch, the corresponding side wall of the exhaust box is provided with an air inlet hole, the second air outlet port is opposite to the air inlet hole, and the height of the air duct is lower than that of the air inlet hole.

Compared with the prior art, the invention has the advantages that: the heat dissipation channel is arranged in the stove shell, airflow in the heat dissipation channel can be blown to the first air outlet on the front side wall of the stove shell through the first air outlet port on the heat dissipation channel, and air outlet of the second air outlet can be blown to the ventilation interlayer of the door body, so that cooling and heat dissipation of the door body are realized, and a user is prevented from being scalded due to overhigh temperature of the door body.

Drawings

Fig. 1 is a schematic structural view of an integrated range with a cooking apparatus in an embodiment of the present invention;

FIG. 2 is a schematic view of the structure of FIG. 1 in another direction;

FIG. 3 is a cross-sectional view taken along line B-B of FIG. 2;

FIG. 4 is an enlarged view of portion D of FIG. 3;

fig. 5 is a partial structural view of an integrated range with a cooking apparatus in 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 structural view of an air guiding cover according to an embodiment of the present invention;

FIG. 8 is a schematic structural view of an exhaust box according to an embodiment of the present invention;

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

FIG. 10 is a schematic structural diagram of a water condensation box according to an embodiment of the present invention;

fig. 11 is a schematic structural view in another direction of fig. 10.

Detailed Description

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

As shown in fig. 1 to 11, an integrated cooker with a cooking device includes a cooker and a cooking device having a cooking chamber 11, where the cooker includes a cooker housing 2, and in this embodiment, the cooking device having the cooking chamber 11 is an integrated steaming and baking machine, and the integrated steaming and baking machine includes a housing 1 and the cooking chamber 11 disposed in the housing 1. The cooking chamber 11 is communicated with the housing 2 through an exhaust pipe 3, and an exhaust port 24 is formed on the housing 2. In this way, the exhaust gases such as hot expanding air, barbecue smoke and water vapor in the cooking chamber 11 can enter the oven shell 2 through the exhaust pipe 3 and then be exhausted through the exhaust port 24, and the exhausted smoke is pumped to the common flue through the range hood. The exhaust gas in the cooking chamber 11 is discharged into the kitchen range from bottom to top and is discharged out along with the oil smoke generated by the kitchen range, so that the integral discharge of the smoke generated by the integrated kitchen range with the cooking device is realized, the exhaust efficiency is improved, and the phenomenon that the high-concentration oil smoke generated by the kitchen range is leaked to the steaming and baking integrated machine to influence the cooking quality of food in the steaming and baking integrated machine can be avoided.

The range housing 2 includes a base plate 22 and a panel 20 covering the base plate 22, an air outlet 110 is formed at a rear surface of the cooking chamber 11, an air inlet 224 is formed at a bottom wall of the base plate 22, one end of the exhaust pipe 3 is communicated with the air outlet 110, the other end is communicated with the air inlet 224, and the exhaust port 24 is formed at a rear end of the panel 20. Therefore, the waste gas in the cooking chamber 11 can be discharged through the exhaust pipe 3 and then enters the kitchen range shell 2 to be discharged outwards in the vertical direction from the exhaust port 24 under the suction action of the range hood, and the exhaust efficiency can be further improved.

In order to avoid the influence of the messy channeling of the waste gas entering the stove shell 2 from the exhaust pipe 3 on the combustion and exhaust efficiency of the burner in the stove, an exhaust cavity is arranged in the stove shell 2, the exhaust pipe 3 and the exhaust port 24 are respectively communicated with the exhaust cavity, and the waste gas exhausted from the exhaust pipe 3 enters the exhaust cavity and then is exhausted out through the exhaust port 24. Specifically, an exhaust box 6 is disposed in the housing 2, a panel 20 is covered on an opening of the exhaust box 6 to enclose the exhaust cavity, and a corresponding portion of the panel 20 is opened to form the exhaust port 24. In order to facilitate the assembly and disassembly of the exhaust box 6, the panel 20 includes a main plate 21 and an auxiliary plate 23, the main plate 21 is provided with a furnace head hole and is disposed at the front middle part of the chassis 22, the auxiliary plate 23 is covered at the rear side of the chassis 22 and is covered on the opening of the exhaust box 6, and the exhaust port 24 is disposed on the auxiliary plate 23. The exhaust port 24 is embedded with the exhaust fence 25, so that when the exhaust gas passes through the exhaust fence 25, part of water vapor in the exhaust gas can be condensed and flows back to the exhaust cavity when meeting the exhaust fence 25, and the phenomenon that the cabinet of the integrated kitchen range with the cooking device is wet and mildewed because of excessive water vapor exhausted from the exhaust port 24 is avoided. The bottom wall of the exhaust box 6 is provided with a first air inlet 61, an opening of the first air inlet 61 extends downwards along the vertical direction to form a first air inlet interface 62, and an upper pipe opening of the exhaust pipe 3 is sleeved on the first air inlet interface 62.

The heat dissipation system 4 is disposed in the stove housing 2, the heat dissipation system 4 includes a motor 41, a fan 42 and a heat dissipation channel 430, in this embodiment, the fan 42 is a centrifugal fan, the motor 41 is mounted at the bottom of the chassis 22, the fan 42 is disposed on the inner bottom surface of the chassis 22 and mounted on the output shaft of the motor 41, the fan 42 is disposed at the air inlet of the heat dissipation channel 430, the second air outlet 430a of the heat dissipation channel 430 leads to the exhaust box 6, and the sidewall of the chassis 22 is provided with a second air outlet 222. Like this motor 41 drive fan 42 rotates, fan 42 center forms the negative pressure, cold air gets into in the kitchen range shell 2 by second ventilation opening 222, get into heat dissipation channel 430 after fan 42 effect, dispel the heat to exhaust box 6 through second air-out port 430a, waste gas is discharged to exhaust box 6, make the atmospheric pressure of first air inlet 61 reduce, thereby can carry out the drainage to the air current in blast pipe 3, make waste gas blow off from gas vent 24 more smoothly, furthermore, the mist that heat dissipation channel 430 blew off mixes with the exhaust gas of discharging in the blast pipe 3, thereby can reduce exhaust gas temperature, avoid the air current temperature that blows off among the gas vent 24 too high and scald the user.

After the exhaust box 6 is radiated by the radiating channel 430, the water vapor discharged from the cooking chamber 11 into the exhaust box 6 is condensed, and the condensed water flows into the exhaust pipe 3 to cause the exhaust pipe 3 to be unsmooth and affect the exhaust, therefore, the exhaust box 6 is embedded with the condensed water box 7, a second air inlet 71 is arranged on the bottom wall of the water condensation box 7, the opening of the second air inlet 71 extends downwards to form a second air inlet interface 72, the second air inlet port 72 is located at the bottom of the chassis 22 through the air inlet 224, the second air inlet port 72 extends into the first air inlet port 62, and a sealing ring 8 is sleeved outside the second air inlet port 72, the seal ring 8 is interposed between the outer peripheral wall of the second air inlet port 72 and the inner peripheral wall of the first air inlet port 62, the sealing ring 8 can prevent the exhaust gas from entering the gap between the exhaust box 6 and the water condensation box 7 from the gap between the first air inlet port 62 and the second air inlet port 72.

The interior bottom surface of above-mentioned condensate box 7 uses above-mentioned second air inlet 71 to vertically be provided with air duct 73 as the center, can not only be better with waste gas leading-in condensate box 7 through air duct 73, can hold certain comdenstion water in condensate box 7 moreover, avoids the comdenstion water directly to get into in blast pipe 3 and block up blast pipe 3 through second air inlet 71. Preferably, the height of the air duct 73 is lower than that of the condensate box 7, so that it is possible to prevent the condensate from overflowing the condensate box 7 and entering the inside of the cabinet 2 or the above-mentioned heat dissipation path 430. In order to better cool the exhaust gas discharged into the condensation box 7 by the outlet air in the heat dissipation channel 430, the upper end of the front wall of the condensation box 7 is recessed downward to form a gap 74, the corresponding side wall of the exhaust box 6 is provided with an air inlet hole 63, the second outlet port 430a of the heat dissipation channel 430 is opposite to the air inlet hole 63, and the height of the air duct 73 is lower than the air inlet hole 63. In this embodiment, the air inlet holes 63 are long holes extending along the length direction of the exhaust box 6, and are formed at intervals along the length direction of the exhaust box 6.

In this embodiment, the heat dissipation system 4 further includes an air guiding cover 43, the air guiding cover 43 includes a head portion 431 and a body portion 432, the air inlet is a junction of the head portion 431 and the body portion 432, wherein the head portion 431 is shaped like a volute, a circular air inlet 4310 is eccentrically disposed on a top surface of the head portion 431, the head portion 431 covers the fan 42, and the fan 42 and the air inlet 4310 are concentrically disposed. The air output of the fan 42 can be increased by the eccentric arrangement of the fan 42. The body 432 is covered on the inner bottom surface of the chassis 22 to form the heat dissipation channel 430, the cross section of the body 432 is generally square, the rear end of the body 432 is opened to form the second air outlet 430a, the right front side of the body has the air inlet, the head 431 is connected to the air inlet, and the center of the air inlet 4310 is close to the right rear side of the body 432. In this embodiment, the head 431 and the body 432 are a single piece. The front side wall of the body part 432 is aligned with and connected to the front side wall of the head part 431 and is straight, the front side wall of the body part 432 is smoothly transited to the left side wall thereof, the height of the front end of the body part 432 is consistent and equal to that of the head part 431, and the height of the rear end is increased from front to rear. Thus, the air discharged from the fan 42 can be rapidly blown into the heat dissipation channel 430 from right to left along the front end of the heat dissipation channel 430, and then guided to the second air outlet port 430a through the smooth transition between the front side wall and the left side wall of the body portion 432, and the height of the rear end of the body portion 432 is increased from front to rear, so that the air discharging efficiency can be greatly improved. In order to make the outlet air of the second outlet air port 430a more intensively blown to the condensate box 7, the top surface of the rear end of the air guiding cover 43 is parallel to the horizontal plane, and the longitudinal section of the rear end of the heat dissipating channel 430 gradually increases and then decreases to finally form a horizontal channel, the port of the horizontal channel is the second outlet air port 430a, the second outlet air port 430a is arranged opposite to the air inlet 63, and the height and length of the second outlet air port 430a are respectively matched with the gap 74. In order to gradually increase and then decrease the longitudinal section of the rear end of the heat dissipation channel 430 to finally form a horizontal channel, a pad 45 is disposed on the inner bottom surface of the chassis 22 below the rear end of the wind scooper 43, and the top surface of the pad 45 and the top surface of the rear end of the wind scooper 43 enclose the rear end of the heat dissipation channel 430. To ensure a sufficient air volume of the heat dissipating channel 430, the area of the air inlet 4310 is 1.2 times the area of the second air outlet 430 a.

Further, the bottom of the chassis 22 is recessed downward to form a sinking platform 220, the size of the sinking platform 220 is matched with the head 431, the fan 42 is installed in the sinking platform 220, the motor 41 is installed at the bottom of the sinking platform 220, the axial space of the fan 42 can be increased by arranging the structure of the sinking platform 220, the height of fan blades of the fan 42 is increased, and further the air volume of the fan 42 is increased.

The bottom of the panel 20 is provided with an electronic component 5, such as a controller, which generates heat when working, the electronic component 5 is located in the front middle of the chassis 22, the heat dissipation channel 430 further has a first air outlet 430b, the first air outlet 430b is opposite to the electronic component 5, the second air outlet 222 is arranged on the right side wall of the chassis 22, and the front side wall of the chassis 22 is provided with a first air outlet 223. The casing 1 includes a door 12, the door 12 includes a first door 121, a second door 122, and a third door 123, in this embodiment, the first door 121, the second door 122, and the third door 123 are divided into outer glass, middle glass, and inner glass, a ventilation interlayer 120 is left between the first door 121 and the second door 122, the ventilation interlayer 120 includes an inlet 120a located at the top and an outlet 120b located at the bottom, and the outlet air of the first vent 223 can be blown to the ventilation interlayer 120, so as to cool the door 12. In order to guide the outlet air of the first vent 223 into the ventilation interlayer 120 more smoothly, the front side of the stove housing 2 is provided with a guide plate 9, the guide plate 9 is disposed obliquely from top to bottom, the upper end of the guide plate 9 is fixed on the stove housing 2 (in this embodiment, fixed on the front side wall of the bottom plate 22), and the lower end of the guide plate 9 is suspended, when viewed from the front of the integrated stove with the cooking apparatus, the guide plate 9 can completely block the first vent 223, and when the door 12 is closed, the lower end of the guide plate 9 is guided to the inlet 120 a.

In order to better divide the airflow entering the heat dissipating channel 430 and blow out from the second air outlet port 430a and the first air outlet port 430b, in this embodiment, the front end of the body portion 432 is provided with a partition 44, the partition 44 divides the heat dissipating channel 430 into an upper channel 4301 and a lower channel 4302, the airflow blown from the air inlet port meets the partition 44 and then is divided into an upper airflow and a lower airflow, which enter the upper channel 4301 and the lower channel 4302, and the first air outlet port 430b is located in the upper channel 4301, so that the airflow in the upper channel 4301 can blow out from the first air outlet port 430b, blow out from the first vent 223 after blowing through the electronic component 5 and enter the ventilation interlayer 120, and the airflow in the lower channel 4302 enters the front end of the body portion 432 and cools the exhaust gas entering the condensation box 7.

The motor 41 drives the fan 42 to rotate, a negative pressure is formed in the center of the fan 42, and since the fan 42 is close to the second ventilating opening 222, the outside cold air can be guided to enter the air inlet 4310 of the fan from the second ventilating opening 222. The first air outlet 430b directly blows air to electrical components such as the electronic component 5, so as to dissipate heat from a hotter area in the chassis 22, the mixed air passing through the electronic component 5 continues to blow forward, and the outside cold air is supplemented from the right side through the second air vent 222, so as to reduce the temperature of the mixed air, and the air flow enters the ventilation interlayer 120 through the first air vent 223 by being guided by the guide plate 9, so as to cool the door 12 from top to bottom.

Claims (13)

1. An integrated cooker with a cooking device comprises the cooking device with a door body (12) and a cooker arranged on the upper portion of the cooking device, the cooker comprises a cooker shell (2) and is characterized by further comprising a heat dissipation system (4), the heat dissipation system (4) comprises a heat dissipation channel (430) and a fan (42) arranged in the heat dissipation channel (430), the heat dissipation channel (430) is provided with a first air outlet port (430b), the front side wall of the cooker shell (2) is provided with a first ventilation opening (223),

the door body (12) comprises a first door panel (121) and a second door panel (122), a ventilation interlayer (120) is reserved between the first door panel (121) and the second door panel (122), the ventilation interlayer (120) comprises an inlet (120a) positioned at the top and an outlet (120b) positioned at the bottom, and the first ventilation opening (223) is in fluid communication with the inlet (120a) of the ventilation interlayer (120).

2. The integrated cooker with cooking apparatus according to claim 1, wherein the front side of the case (2) is provided with a deflector (9) capable of guiding the outlet air of the first vent (223) to the inlet (120 a).

3. The integrated range with a cooking apparatus according to claim 2, wherein the baffle plate (9) is disposed to be inclined from top to bottom, and has an upper end fixed to the range case (2) and a lower end suspended, the baffle plate (9) completely covers the first vent (223) when viewed from the front, and the lower end of the baffle plate (9) is located at the outer end of the inlet (120a) when the door (12) is closed.

4. The integrated cooker with cooking device according to any claim 1 to 3, wherein the inner cavity of the cooker housing (2) is provided with an electronic component (5) which generates heat during operation, and the wind energy of the first wind outlet port (430b) is blown to the electronic component (5).

5. The integrated cooker with cooking device according to claim 4, wherein the second ventilation opening (222) is opened on the side wall of the cooker housing (2) adjacent to the fan (42).

6. The integrated cooker with cooking device according to claim 5, wherein said second ventilation opening (222) is disposed opposite to said electronic component (5).

7. The integrated cooker with cooking device according to any one of claims 1 to 3, wherein the fan (42) is a centrifugal fan, the heat dissipation system (4) further comprises a wind scooper (43), the wind scooper (43) comprises a head portion (431) and a body portion (432), wherein the head portion (431) is shaped like a volute, the top surface of the head portion is eccentrically provided with the circular inlet (4310), the head portion (431) is covered on the fan (42), and the fan (42) and the inlet (4310) are concentrically arranged,

the stove shell (2) comprises a chassis (22) and a panel (20) covering the opening of the chassis (22), the body part (432) is covered on the inner bottom surface of the chassis (22) to form the heat dissipation channel (430), the cross section of the body part (432) is integrally square, the front side wall of the body part is provided with the first air outlet port (430b), the rear end of the body part is opened to form the second air outlet port (430a), one side of the front end is provided with the air inlet port, and the head part (431) is connected to the air inlet port.

8. The integrated range with cooking apparatus according to claim 7, wherein the front wall of the body portion (432) is aligned with and connected to the front wall of the head portion (431) and is flat, and the front wall of the body portion (432) is smoothly transited to the opposite side wall of the inlet port, and the first outlet port (430b) extends to the smooth transition.

9. The integrated cooker with cooking apparatus according to claim 7, wherein the heat dissipation system further comprises a motor (41), the bottom of the base pan (22) is recessed downward to form a platform (220), the platform (220) is sized to match the head (431), the fan (42) is installed in the platform (220), and the motor (41) is installed at the bottom of the platform (220).

10. The integrated range with cooking apparatus according to claim 7, wherein an exhaust chamber is provided in the range housing (2), the cooking apparatus further comprises a cooking chamber (11), the exhaust air from the second exhaust port (430a) is communicated to the exhaust chamber, the exhaust chamber has an exhaust port (24) communicated with the outside, the exhaust chamber has a first air inlet (61), the cooking chamber (11) has an air outlet (110), and the first air inlet (61) is in fluid communication with the air outlet (110).

11. The integrated cooker with cooking device according to claim 10, wherein a water condensation box (7) is disposed in the exhaust cavity, the air from the second air outlet (430a) blows towards the water condensation box (7), a second air inlet (71) opposite to the first air inlet (61) is disposed on a bottom wall of the water condensation box (7), an air duct (73) is disposed on an inner bottom surface of the water condensation box (7), the second air inlet (71) is disposed in the air duct (73), and the height of the air duct (73) is lower than the height of the water condensation box (7).

12. The integrated range with cooking apparatus according to claim 11, wherein an exhaust box (6) is provided in the range housing (2), a panel (20) is provided on an opening of the exhaust box (6) to enclose the exhaust chamber, and a corresponding portion of the panel (20) is perforated to form the exhaust port (24), an exhaust fence (25) is provided in the exhaust port (24),

the bottom wall of the exhaust box (6) is provided with the first air inlet (61), the opening of the first air inlet (61) vertically extends downwards to form a first air inlet interface (62) exposed out of the chassis (22), the upper pipe opening of the exhaust pipe (3) is sleeved on the first air inlet interface (62), the lower pipe opening of the exhaust pipe (3) is communicated with the cooking chamber (11), the opening of the second air inlet (71) extends downwards to form a second air inlet interface (72), and the second air inlet interface (72) extends into the first air inlet interface (62).

13. The integrated range with cooking apparatus according to claim 12, wherein the upper end of the front wall of the condensation box (7) is recessed downward to form a notch (74), and the corresponding side wall of the exhaust box (6) is provided with an air inlet hole (63), the second air outlet port (430a) is opposite to the air inlet hole (63), and the air duct (73) is lower than the air inlet hole (63).

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