CN211316277U - Bellows structure of integrated kitchen - Google Patents

Abstract

The utility model provides an air box structure of integrated kitchen, relates to integrated kitchen equipment technical field, integrated kitchen is equipped with the inlet scoop device of liftable, air box structure includes the bellows body, this internal being equipped with of bellows is used for holding the fan with the chamber that holds of inlet scoop device, the bellows body is equipped with and is used for supplying the inlet scoop device advances hold the exit in chamber, hold the chamber set up into with the inlet air channel intercommunication of inlet scoop device. The utility model discloses an integrated kitchen bellows structure can reduce the bellows air duct system of integrated kitchen too thick to the degree of depth size around the function cabinet of integrated kitchen improves.

Description

Bellows structure of integrated kitchen

Technical Field

The utility model relates to an integrated kitchen equipment technical field, concretely relates to bellows structure of integrated kitchen.

Background

An air box air duct system of the integrated cooker is one of core components of the integrated cooker, and the size, air quantity, air pressure, noise, oil way, maintenance convenience degree and the like of a functional cabinet of the integrated cooker are affected by the components. The thickness dimension of some integrated kitchen's bellows wind channel is great, and especially to the integrated kitchen that the design has liftable air intake device, the thickness dimension in bellows wind channel is too big can lead to the front and back degree of depth dimension of the function cabinet (for example sterilizer, steam ager) of integrated kitchen very little, has lost the practical value of function cabinet, leads to embedded products such as unable installation steam ager or oven even. In addition, the thickness of the wind box duct of the integrated stove is large, which also affects the air volume value, air pressure value and noise value when the air flows out from the left side and the right side of the integrated stove.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: the problem that the front and back depth size of a functional cabinet of the integrated stove is small is caused by the fact that an air box air duct system of the integrated stove with the lifting air suction opening device is too thick.

In order to achieve the above purpose, the technical scheme of the utility model is that: the utility model provides an air box structure of integrated kitchen, integrated kitchen is equipped with inlet scoop device of liftable, includes the bellows body, this internal being equipped with of bellows is used for holding the fan with the chamber that holds of inlet scoop device, the bellows body is equipped with and is used for supplying inlet scoop device advances hold the exit in chamber, hold the chamber set up into with the inlet air channel intercommunication of inlet scoop device.

Optionally, the inlet and the outlet are arranged at the top of the air box body, and a yielding hole for the lifting mechanism of the air suction inlet device to pass through is formed in the bottom plate of the air box body.

Optionally, the avoiding hole is close to the rear side edge of the bottom plate of the air box body, and the width of the bottom plate of the air box body is larger than that of the air duct top plate below the bottom plate, so that the avoiding hole is not shielded by the air duct top plate.

Optionally, the outside of the left and right side plates of the air box body is provided with an avoiding part for avoiding an inwardly protruding hand buckling groove arranged on the machine body shell of the integrated kitchen range.

Optionally, the left and right side plates of the bellows body each include a first folded plate and a second folded plate which are integrally bent, a step is provided between the first folded plate and the second folded plate, and a cavity is provided between one of the first folded plate and the second folded plate and the body housing to form the avoiding portion.

Optionally, the bottom plate of the air box body is obliquely arranged and is set to be attached to an air duct top plate located below the bottom plate, an oil leakage hole is formed in the bottom plate of the air box body, and the oil leakage hole is set to be communicated with a through hole formed in the air duct top plate.

Optionally, the oil leakage hole is provided with a downward folded edge, and the folded edge is used for being inserted into the through hole arranged on the air duct top plate.

Optionally, the cross section of bellows body is the rectangle, including open-topped bellows main part and releasable connection in the bellows apron at bellows main part top, the bellows apron with be equipped with between the bellows posterior lateral plate of bellows main part exit.

Optionally, an opening used for supplying the air outlet nozzle of the fan to extend out is formed in the bottom plate of the air box body, the opening is arranged to correspond to an air inlet formed in an air duct top plate below the air box body, a downward flanging is arranged on the opening, and the flanging is used for being inserted into the air inlet.

Optionally, a slideway used for being in sliding fit with the air suction opening device is arranged on the inner wall of the air box body.

Has the advantages that:

1. this internal chamber that holds that is used for holding fan and inlet scoop device that is equipped with of bellows, like this, the inlet scoop device can be accomodate in bellows after descending, like this, can realize moving the orthographic projection region of inlet scoop device to the inboard of integrated kitchen, and overlap with bellows and the wind channel part that is located the bellows below, thereby realize reducing the thickness of the bellows air duct system (including the inlet scoop device) of integrated kitchen, and then increase the depth dimension around the function cabinet of integrated kitchen.

2. The bottom plate of the air box body is provided with an avoiding hole for the lifting mechanism of the air suction inlet device to pass through, and the width of the bottom plate of the air box body is larger than that of the air channel top plate below the air box body, so that the avoiding hole is not shielded by the air channel top plate. Therefore, the lifting mechanism of the air suction opening device can be positioned outside the air channel and can penetrate through the air box, and the thickness of the whole air box air channel system of the integrated stove can be reduced.

3. The left and right sides board of bellows body all includes integrative first folded plate and the second folded plate of bending formation, is equipped with the step between the first folded plate and the second folded plate for the outside of the left and right sides board of bellows body forms dodges the portion, can dodge the part on the organism casing, and the intensity of the left and right sides board of multiplicable bellows body.

4. The bottom plate of the air box body is obliquely arranged and is attached to the air channel top plate below the bottom plate, the bottom plate of the air box body is provided with an oil leakage hole, and the oil leakage hole is communicated with a through hole formed in the air channel top plate. Therefore, oil stains in the air box can flow into the air duct through the oil leakage holes and are finally discharged from the air duct. The oil leakage hole is provided with a downward folded edge, and the folded edge is inserted into the through hole formed in the air duct top plate, so that oil leakage can be effectively prevented.

5. The bottom plate of the air box body is provided with an opening for extending an air outlet of the air supply fan, the opening is arranged to correspond to an air inlet arranged on an air channel top plate below the air box body, the opening is provided with a downward flanging, and the flanging is used for being inserted into the air inlet, so that oil can be prevented from leaking from a gap between the bottom plate of the air box body and the air channel top plate.

Drawings

The accompanying drawings are included to provide a further understanding of the technical solutions of the present invention, and are incorporated in and constitute a part of this specification, together with the embodiments of the present invention for explaining the technical solutions of the present invention, and do not constitute a limitation on the technical solutions of the present invention.

Fig. 1 is a schematic view of an appearance structure of an integrated cooker according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of the integrated cooker of FIG. 1 with the exhaust inlet device removed;

FIG. 3 is a schematic view of the combination of the bellows, blower and duct of the integrated cooker of FIG. 1 from one perspective;

FIG. 4 is a schematic view of the fan, bellows and duct of the integrated cooker of FIG. 1 shown in a configuration of another view;

FIG. 5 is a schematic view of a partially exploded structure of a bellows, a fan and an air duct of the integrated cooker of FIG. 1;

FIG. 6 is a schematic view of an installation structure of a fan in a wind box of the integrated cooker of FIG. 1;

FIG. 7 is a schematic view of the fan installation in a windbox from another perspective;

FIG. 8 is a schematic view of the fan of FIGS. 6 and 7;

FIG. 9 is a side view schematic of the integrated cooktop air duct system of FIG. 1;

FIG. 10 is a schematic view of an installation structure of a wind box and a wind tunnel of the integrated range of FIG. 1;

fig. 11 is a schematic view of an installation structure of a bellows and a duct of the integrated range of fig. 1, and a rear side plate of the bellows is omitted in fig. 11;

FIG. 12 is an exploded view of a bellows and air duct of the integrated cooker of FIG. 1;

FIG. 13a is a front view of a windbox, FIG. 13B is a top view of a bottom plate of the windbox, FIG. 13c is a right side view of the windbox, FIG. 13d is a sectional view taken in the direction of A-A in FIG. 13B, and FIG. 13e is a sectional view taken in the direction of B-B in FIG. 13B;

FIG. 14a is a schematic view of an installation structure of a wind tunnel and a wind box of the integrated cooker of FIG. 1 at another perspective;

FIG. 14b is a schematic view of the construction of a bottom panel and a front side panel of a windbox;

FIG. 15 is a partial enlarged view of the bottom plate of the bellows at the location where the blower outlet nozzle is installed;

fig. 16 is a structural view illustrating an air duct of the integrated range of fig. 1;

the reference signs are: 1. air duct, 101, air duct top plate, 1011, air inlet, 1012, through hole, 102, air duct side plate, 1021, extension of air duct side plate, 103, air duct bottom plate, 1031, oil outlet, 104, air outlet, 1041, air outlet cover seat, 1042, air outlet cover, 2, blower, 201, blower flange, 202, handle, 203, blower fixing plate, 3, fixing seat, 4, bellows body, 401, bellows bottom plate, 4011, flanging, 4012, avoiding hole, 4013, opening, 4014, oil leakage hole, 4015, flanging, 4021, bellows left side plate, 4022, bellows right side plate, 4023, first folded plate, 4024, second folded plate, 403, bellows front side plate, 4031, ventilation hole, 404, bellows rear side plate, 405, bellows cover plate, 406, inlet and outlet, 5, oil receiving disc, 6, air suction inlet device, 7, lifting mechanism, 8, guide rail.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention.

As shown in fig. 1-8, the embodiment of the utility model provides an integrated kitchen's bellows structure, integrated kitchen is equipped with inlet scoop device 6 of liftable, and integrated kitchen's bellows structure includes bellows body 4, be equipped with in the bellows body 4 be used for holding fan 2 with the chamber that holds of inlet scoop device 6, bellows body 4 is equipped with and is used for supplying inlet scoop device 6 advances the exit 406 that holds the chamber, hold the chamber set up into with inlet scoop device 6 inlet air channel communicates.

Be equipped with the chamber that holds that is used for holding fan 2 and inlet scoop device 6 in bellows body 4, like this, inlet scoop device 6 can be accomodate in bellows body 4 after descending, like this, can realize moving the orthographic projection region of inlet scoop device 6 to the inboard of integrated kitchen, and overlap with bellows body 4 and the wind channel 1 part that is located 4 below of bellows body, thereby realize reducing the thickness of the bellows air duct system (including inlet scoop device 6) of integrated kitchen, and then increase the front and back depth dimension of the function cabinet of integrated kitchen.

As shown in fig. 1 to 16, the air box and duct module of the integrated cooker includes an air suction inlet device 6, an air box body 4, a fan 2, a lifting mechanism 7, and a duct 1. The lifting mechanism 7 is used for driving the air suction inlet device 6 to do lifting action.

As shown in FIG. 5, the bellows body 4 comprises an open-top bellows main body including a bellows bottom plate 401, a bellows front side plate 403, a bellows rear side plate 404, a bellows left side plate 4021, and a bellows right side plate 4022, and a bellows cover plate 405 detachably attached to the top of the bellows main body. The cross section of the bellows body 4 may be rectangular as a whole, and the bellows bottom plate 401 and the bellows front side plate 403 may be formed integrally as a bent plate.

As shown in fig. 5 to 8, the blower 2 is fixed inside the bellows body 4, and the bellows cover plate 405 is fixedly connected to the bellows front side plate 403, the bellows left side plate 4021, and the bellows right side plate 4022 by screws, thereby forming a bellows top. The screws can be detached during maintenance, the air box body 4 and the air channel 1 can be fixed through the screws, and the lifting mechanism 7 is fixed on the outer side wall of the air channel 1 through the screws. After the bellows cover plate 405 is removed, the fan 2 can be taken out from the bellows, and the maintenance work is carried out, which is very convenient. The front side plate 403 of the air box can be provided with a vent 4031, so that the problems of combustible gas accumulation in the machine and temperature rise in the machine can be avoided.

As shown in fig. 2 and 5, the cross section of the bellows body 4 is rectangular, and includes a bellows main body 4 with an open top and a bellows cover plate 405 detachably connected to the top of the bellows main body 4, and the inlet and outlet 406 is provided between the bellows cover plate 405 and a bellows rear side plate 404 of the bellows main body. A bellows cover plate 405 may be provided over the fan 2.

As shown in fig. 1, 2, 5, and 7, the inlet/outlet 406 is disposed at the top of the bellows body 4, and an avoiding hole 4012 is disposed on the bellows bottom plate 401 for allowing the lifting mechanism 7 driving the inlet scoop device 6 to ascend and descend to pass through. The elevating mechanism 7 is inserted into the bellows body 4 from below the bellows body 4 through the escape hole 4012.

The inner wall of the air box body 4 can be provided with a slide way which is used for being in sliding fit with the air suction opening device 6, the slide way can be in sliding fit with a pulley arranged on the air suction opening device 6, the guide effect can be achieved on the lifting action of the air suction opening device 6, the air suction opening device 6 can be prevented from shaking in the lifting process, and the lifting action is more stable.

As shown in fig. 11, the avoiding hole 4012 may be close to the rear side of the bellows bottom plate 401, the width of the bellows bottom plate 401 is greater than the width of the air duct top plate 101 located below the bellows bottom plate, so that the avoiding hole 4012 is not blocked by the air duct top plate 101. The lifting mechanism 7 can be arranged on the outer side of the rear side plate of the air duct 1, and the position of the avoiding hole 4012 corresponds to the position of the lifting mechanism 7.

As shown in fig. 5, the outside of the left air box plate 4021 and the outside of the right air box plate 4022 of the air box body 4 are provided with escape portions for avoiding an inwardly protruding handle groove and a wire running port provided on a machine body casing of the integrated cooker. The left side plate 4021 and the right side plate 4022 of the air box can respectively comprise a first folding plate 4023 and a second folding plate 4024 which are integrally formed in a bending mode, a step is arranged between the first folding plate 4023 and the second folding plate 4024, and a cavity is arranged between one of the first folding plate 4023 and the second folding plate 4024 and the machine body shell to form the avoiding part. The bending structures of the left side plate 4021 and the right side plate 4022 of the air box can form the avoidance part and enhance the strength of the avoidance part.

As shown in fig. 5, 11, 12 and 16, the cross-sectional shape of the air duct 1 may be rectangular, and includes two air duct side plates 102, an air duct bottom plate 103 and an air duct top plate 101. The two ends of the air duct 1 are provided with air outlets 104, the two air outlets 104 are both provided with an air outlet cover base 1041 and an air outlet cover 1042 arranged on the air outlet cover base 1041, and the air outlet cover 1042 is used for installing an air outlet pipe. The two air duct side plates 102 and the air duct bottom plate 103 of the air duct 1 are integrally formed by bending, and the air duct top plate 101 is covered on the two air duct side plates 102. An accommodating space is formed between one side of the air duct side plate 102 close to the machine body back plate and the machine body back plate, the lifting mechanism 7 can be arranged in the accommodating space, and the lifting mechanism 7 can be fixed on the rear side plate of the air duct 1. Other parts for assisting the lifting of the air suction opening device 6 can be arranged in the accommodating space between the air duct 1 and the machine body back plate, such as a guide rail 8, the guide rail 8 can be fixed on a fixing seat 3 arranged on the air duct 1, and the guide rail 8 can be matched with the air suction opening device 6 to play a role in guiding the air suction opening device 6.

As shown in FIG. 13c, the bottom windbox plate 401 is disposed obliquely so that the angle between the bottom windbox plate 401 and the front windbox side plate 403 is D. As shown in fig. 5, 7 and 16, the cross section of the air duct 1 is rectangular, and the air inlet 1011 is arranged on the air duct top plate 101 of the air duct 1; the wind channel roof 101 of wind channel 1 sets up towards a lateral tilt and is an contained angle with the perpendicular line, and this contained angle is the same with the contained angle D of bellows bottom plate 401 and perpendicular line, makes to be located the bellows bottom plate 401 and the wind channel roof 101 of wind channel 1 top are laminated mutually, and the gap that forms is little, the sealing treatment of being convenient for. After the oil is condensed in the bellows body 4, the oil flows along the inclined plane forming the included angle D. The air duct side plate 102 of the air duct 1 may extend upward above the air duct top plate 101 and form an extension 1021, and the extension 1021 is used for being attached to the outer wall of the air box side plate above the air duct main body 1. An oil outlet 1031 is arranged on the air duct bottom plate 103, the air duct bottom plate 103 is in an inverted frustum shape and gathers together at the oil outlet 1031, and oil flowing out of the oil outlet 1031 can be collected into an oil receiving disc 5 arranged below the air duct 1.

As shown in fig. 13b, 13c and 14b, the bellows bottom plate 401 is disposed obliquely and is configured to be attached to the air duct top plate 101 located below the bellows bottom plate, the bellows bottom plate 401 is provided with oil leakage holes 4014, and the oil leakage holes 4014 are configured to communicate with through holes 1012 formed in the air duct top plate 101. Thus, the oil in the bellows can flow into the air duct 1 through the oil leakage hole 4014 and the through hole 1012, and can be discharged through the oil outlet 1031 of the air duct 1.

The inclination angle of the bottom plate 401 of the bellows is the same as that of the top plate 101 of the air duct, for example, the bottom plate and the top plate are inclined from the rear side to the front side of the machine body by the same angle, i.e., they are inclined from front to back, and they are jointed together, so that the gap formed is small, and the sealing treatment is convenient. The air duct top plate 101 is obliquely arranged, so that oil can flow down along the inclined surface of the air duct top plate 101 after being condensed in the air duct 1, the condition that oil stains are attached to the inner wall can be reduced, and collection is facilitated. When the bellows bottom plate 401 and the air duct top plate 101 are both inclined in the front-low and rear-high directions, the oil leakage hole 405 formed in the bellows bottom plate 401 is formed in the front side edge of the bellows bottom plate 401, and accordingly, the through hole 1012 corresponding to the oil leakage hole 405 in the air duct top plate 101 is formed in the front side edge of the air duct top plate 101, so that oil can flow down along the inclined direction. Correspondingly, extension 1021 (the part exceeding air duct top plate 101) arranged on air duct side plate 102 can be attached to the outer wall of air duct front side plate 402, so that when air duct 1 is assembled with air duct 4, positioning function can be achieved, and oil can be prevented from leaking out from the gap between air duct bottom plate 401 and air duct top plate 101.

As shown in fig. 13e, the oil leakage hole 4014 may be provided with a downward folded edge 4015, and the folded edge 4015 is configured to be inserted into the through hole 1012 formed in the air duct top plate 101. Thus, by providing the folded edge 4015, oil leakage from the gap between the bellows bottom plate 401 and the duct top plate 101 can be prevented.

As shown in fig. 5 to 8, the blower 2 is installed inside the air box body 4, two handles 202 can be designed on the blower 2, the two handles 202 are arranged in a high-low arrangement, so that the blower 2 can be conveniently disassembled and assembled, the other handle 202 on the blower 2 can be used for fixing the blower 2, the blower 2 can be fixed on the blower fixing plate 203 through the holes on the handles 202, and the blower fixing plate 203 is fixed on the air box body 4.

As shown in fig. 11, fig. 13b, fig. 13d, and fig. 16, an opening 4013 for extending an air outlet nozzle of the blower 2 is provided on the bellows bottom plate 401, the opening 4013 is set to correspond to an air inlet 1011 provided on the air duct top plate 101 located below the bellows body 4, the opening 4013 is provided with a downward flange 4011, and the flange 4011 is used to be inserted into the air inlet 1011. Thus, the air outlet nozzle of the fan 2 can extend into the air duct 1 through the opening 4013 and the air inlet 1011. The flange 4011 is arranged and inserted into the air inlet 1011, so that oil can be prevented from leaking out from a gap between the air box bottom plate 401 and the air duct top plate 101.

As shown in fig. 7 and 8, the blower flange 201 may be disposed at the air outlet of the blower 2, after the blower 2 is placed in place, the blower flange 201 is tightly attached to the bottom plate 401 of the bellows, and the blower 2 is fixed on the bellows body 4 through the blower flange 201. The fan flange 201 and the bellows bottom plate 401 can be sealed through flexible materials, and the sealing performance is guaranteed. The air outlet nozzle of the fan 2 exceeds the plane where the fan flange 201 is located, the air outlet nozzle of the fan 2 is inserted into the air duct 1 through the opening 4013 on the air box bottom plate 401 and the air inlet 1011 on the air duct top plate 101, the oil smoke can be effectively prevented from being poured into the air box body 4, and the oil is also effectively prevented from permeating into the gap between the air box bottom plate 401 and the air duct top plate 101.

As shown in fig. 1 and 9, the air box body 4 and the air duct 1 are located inside the integrated kitchen range, and the air suction inlet device 6 can perform lifting movement inside the air box body 4. Because the design of an air box air duct system of some integrated stoves is unreasonable, the orthographic projection area of a lifting air suction inlet device of some integrated stoves often falls outside an air duct, so that the thickness of the whole air box air duct system is very large, and the front and back depth of a functional cabinet of the integrated stove is limited. In this embodiment, the bellows body 4 is provided with a cavity for accommodating the fan 2 and the air inlet device 6, so the air inlet device 6 can be accommodated in the bellows body 4 after descending, the lifting mechanism 7 is arranged between the air duct 1 and the body back plate to form an accommodating space, and the lifting mechanism 7 penetrates through the avoiding hole 4012 on the bellows bottom plate 401 from the lower part of the bellows body 4 to be inserted into the bellows body 4 and connected with the air inlet device 6. Like this, can realize moving the orthographic projection region of inlet scoop device 6 to the inboard of integrated kitchen to overlap with bellows body 4 and the wind channel 1 part that is located bellows body 4 below (the boundary projection line a of inlet scoop device 6 falls into wind channel main part 1 region in fig. 9), thereby realize reducing the thickness m of the bellows air duct system of integrated kitchen (including inlet scoop device 6), and then increase the depth dimension around the function cabinet of integrated kitchen.

In the description of the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "connected," "fixedly connected," "mounted," and "assembled" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; the terms "mounted," "connected," and "fixedly connected" may be directly connected or indirectly connected through intervening elements, or may be connected through the interconnection between two elements. The specific meaning of the above terms in the embodiments of the present invention can be understood in specific cases by those skilled in the art.

Claims (10)

1. The utility model provides an air box structure of integrated kitchen, integrated kitchen is equipped with the inlet scoop device of liftable, its characterized in that: including the bellows body, this internal chamber that holds that is used for holding the fan with the inlet scoop device that is equipped with of bellows, the bellows body is equipped with and is used for supplying the inlet scoop device advances the exit that holds the chamber, hold the chamber set up to with the inlet air channel intercommunication of inlet scoop device.

2. The cooktop-integrated bellows structure according to claim 1, wherein: the inlet and the outlet are arranged at the top of the air box body, and a avoidance hole for the lifting mechanism of the air suction inlet device to pass through is arranged on the bottom plate of the air box body.

3. The cooktop-integrated bellows structure according to claim 2, wherein: the avoiding hole is close to the rear side edge of the bottom plate of the air box body, and the width of the bottom plate of the air box body is larger than that of the air channel top plate below the bottom plate, so that the avoiding hole is not shielded by the air channel top plate.

4. The cooktop-integrated bellows structure according to claim 1, wherein: the outer sides of the left side plate and the right side plate of the air box body are provided with avoidance parts for avoiding the inwardly protruding hand buckling grooves formed in the machine body shell of the integrated kitchen range.

5. The cooktop-integrated bellows structure according to claim 4, wherein: the left side plate and the right side plate of the air box body respectively comprise a first folded plate and a second folded plate which are integrally bent, a step is arranged between the first folded plate and the second folded plate, and a cavity is formed between one of the first folded plate and the second folded plate and the machine body shell and forms the avoiding part.

6. The cooktop-integrated bellows structure according to claim 1, wherein: the bottom plate of the air box body is obliquely arranged and is attached to an air channel top plate located below the bottom plate, an oil leakage hole is formed in the bottom plate of the air box body, and the oil leakage hole is communicated with a through hole formed in the air channel top plate.

7. The cooktop-integrated bellows structure of claim 6, wherein: the oil leakage hole is provided with a downward folded edge, and the folded edge is used for being inserted into the through hole formed in the air duct top plate.

8. A bellows structure of an integrated range according to any one of claims 1 to 7, wherein: the cross section of bellows body is the rectangle, including open bellows main part in top and detachable connection the bellows apron at bellows main part top, the bellows apron with be equipped with between the posterior lateral plate of bellows main part exit.

9. The cooktop-integrated bellows structure of claim 8, wherein: the air box comprises an air box body and is characterized in that an opening used for supplying an air outlet nozzle of the fan to extend out is formed in a bottom plate of the air box body, the opening is arranged to correspond to an air inlet formed in an air channel top plate below the air box body, a downward flanging is arranged on the opening, and the flanging is used for being inserted into the air inlet.

10. The cooktop-integrated bellows structure of claim 8, wherein: and a slideway which is in sliding fit with the air suction opening device is arranged on the inner wall of the air box body.

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