CN112484082B - Integrated kitchen range - Google Patents

Abstract

The invention relates to the field of household appliances, and discloses an integrated stove which comprises: the cooking bench is provided with a panel embedding opening; the air inlet part shell is positioned below the cooking bench panel; the filtering piece is detachably arranged in the shell of the air inlet part; the frontmost air deflector is a front-end air deflector and comprises an air deflector frame, an air deflector window formed in the air deflector frame and an air deflector body capable of opening and closing the air deflector window; wherein, a plurality of aviation baffles all can rise to stretching out the top of a kitchen range panel, and under the state of stretching out of a plurality of aviation baffles, the height of a plurality of air intakes increases progressively by going to the back, and filter and can take out through opening the aviation baffle window. The integrated stove can effectively intercept vapor at a plurality of different heights, is convenient for disassembling the filter piece, and has good smoking effect and low cleaning and maintenance difficulty.

Description

Integrated kitchen range

Technical Field

The invention relates to the technical field of household appliances, in particular to an integrated stove.

Background

The part of the integrated stove is provided with a liftable air inlet on the cooking bench panel so as to enable the air inlet to be lifted to be closer to an oil smoke source during cooking and reduce the outward diffusion of the oil smoke. However, the current lifting air inlet can only be lifted to a fixed height, and when the heights of a pot, a pot support and the like are higher or lower, the air inlet cannot be close to the source of oil smoke, so that the smoking effect cannot be effectively guaranteed. In addition, a filter screen in an air duct of the integrated stove is difficult to disassemble and clean, and meshes are gradually blocked by grease after long-term use, so that normal ventilation is seriously influenced.

Disclosure of Invention

In view of the above-mentioned drawbacks or deficiencies of the prior art, the present invention provides an integrated oven that can effectively intercept cooking vapors at a plurality of different heights and facilitate the removal of filter elements in an air duct, thereby improving the smoking effect and reducing the difficulty of cleaning and maintenance.

To achieve the above object, the present invention provides an integrated cooker, including:

the cooking bench is characterized in that a panel embedding opening is formed in a panel of the cooking bench;

the air inlet part shell is positioned below the cooking bench panel;

the filtering piece is detachably arranged in the air inlet shell; and

the air guide plates are embedded into the air inlet portion shell from the panel embedding opening and sequentially arranged at intervals in the front-back direction, an air inlet is formed between every two adjacent air guide plates, and the air guide plate at the forefront is a front-end air guide plate and comprises an air guide plate frame, an air guide plate window formed in the air guide plate frame and an air guide plate body capable of opening and closing the air guide plate window;

the plurality of air deflectors can ascend to extend out of the cooking bench panel, the heights of the plurality of air inlets are gradually increased from front to back under the extending state of the plurality of air deflectors, and the filter piece can be taken out by opening the air deflector window.

Optionally, the filter element is arranged to be able to follow the air guide plate.

Optionally, in an extended state of the plurality of air deflectors, the air deflector window and the filter element are aligned horizontally, and the bottom end of the air deflector window and the bottom end of the filter element are not lower than the top plate.

Optionally, the integrated stove includes a linkage lifting mechanism, the air deflector includes a rear-end air deflector located at the rearmost, the linkage lifting mechanism is configured to drive the rear-end air deflector to sequentially drive the plurality of air deflectors to lift from back to front, and the filter element is detachably mounted on the rear-end air deflector.

Optionally, the air deflector further includes a plurality of internal air deflectors located between the front-end air deflector and the rear-end air deflector, the internal air deflectors include two leg portions which are symmetrically disposed on two transverse sides and extend vertically and plate body portions whose two transverse ends are respectively connected to tops of the two leg portions, a bottom end of a plate surface of the rear-end air deflector is lower than a bottom end of the plate body portion, the filter element is a filter screen which is fixedly mounted on a front plate surface of the rear-end air deflector and located below the plate body portion, a screen surface of the filter screen is obliquely disposed toward a lower front side, and in a state where the air deflectors extend out, heights of the bottoms of the plate body portions are increased progressively from front to back.

Optionally, in the extended state of the plurality of air deflectors, the bottom end of the plate body portion located at the forefront is raised to the top height position of the air deflector body.

Optionally, the linkage lifting mechanism includes a lifting driving device for driving the rear-end air deflector to lift, the filter member includes a first filter member and a second filter member, the lifting driving device is connected to the transverse middle position of the rear-end air deflector in a driving manner, and the first filter member and the second filter member are symmetrically arranged on the two transverse sides of the lifting driving device.

Optionally, the air deflector windows are arranged in sequence at intervals in the transverse direction, the filtering pieces are arranged in one-to-one correspondence with the air deflector windows, the air deflector body is an integrally formed piece and closes the air deflector windows, or the air deflector body is closed in one-to-one correspondence.

Optionally, the air deflector body is detachably mounted on the air deflector frame.

Optionally, a magnetic attraction connection is formed between the air deflector body and the air deflector frame.

Optionally, the air deflection body is pivotally connected to the air deflection frame.

Optionally, the air inlet portion includes an air inlet portion flap disposed in the air inlet and capable of being opened and closed by turning.

Optionally, the air inlet portion includes a fixedly arranged flap support structure, the air inlet portion flap is supported on the flap support structure and closes the air inlet in an embedded state of the air deflectors, and the air inlet portion flap is separated from the flap support structure and opens the air inlet in an extended state of the air deflectors.

Optionally, the integrated range further includes a cooking part disposed in front of the air guide plate.

Optionally, the cooking part includes a burner mounting groove depressed downward from the cooktop panel, a burner disposed in the burner mounting groove, and a grill-shaped pan support laid on the top of the burner mounting groove.

In the invention, the integrated stove can control the plurality of air deflectors to ascend to extend out of the stove panel when smoking, so that the heights of the plurality of air inlets are gradually increased from front to back, the plurality of air inlets are respectively positioned at different heights, cooking steam can be intercepted in a larger range, and the cooking steam is sucked into the air inlets before being scattered outside, thereby effectively improving the smoking effect. In addition, when the filter piece needs to be cleaned or replaced, the filter piece can be taken out from the air guide plate window of the front-end air guide plate, so that the filter piece is quite convenient to disassemble, and the cleaning and maintenance difficulty can be reduced.

Additional features and advantages of the invention will be set forth in the detailed description which follows.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

fig. 1 is a perspective view of an integrated range according to an embodiment of the present invention, in which all air deflectors are embedded in a top of the range;

fig. 2 is a perspective view of another angle of the integrated cooker of fig. 1;

FIG. 3 is a perspective view of the integrated cooktop of FIG. 1 in another state, all of the louvers shown extending upwardly from the cooktop panel;

fig. 4 is a side sectional view of the integrated cooker of fig. 1;

fig. 5 is a side sectional view of the integrated cooktop of fig. 1 with a portion of the air deflectors protruding upward from the cooktop panel;

fig. 6 is a rear sectional view of the integrated cooker of fig. 1;

fig. 7 is a perspective view of the integrated range of fig. 1 when a portion of the air guide plate protrudes upward out of the cooktop panel;

fig. 8 is a partial enlarged view a of the integrated cooker of fig. 7;

fig. 9 is a partial enlarged view B of the integrated cooker in fig. 8;

fig. 10 is a partial exploded view of the integrated cooktop of fig. 3;

fig. 11 is a partial exploded view of the integrated cooktop of fig. 10 after the air deflector body is removed from the front air deflector.

Description of the reference numerals:

1. 2 air inlet parts of cooking bench

3. Grid-shaped pot support

11. 21 wind deflector of cooking bench panel

22. Air inlet shell of lifting driving device 23

24. Air inlet part turning plate 25 filter screen

26. Support chute

211. Wind deflector chute 212 wind deflector slide fastener

213. Front end air deflector 214 internal air deflector

215. Rear end air deflector 241 flap support shaft

213a air deflector frame 213b air deflector window

213c wind deflector body 214a leg

214b plate body part

Detailed Description

The following detailed description of embodiments of the invention refers to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating embodiments of the invention, are given by way of illustration and explanation only, not limitation.

It should be noted that the embodiments and features of the embodiments of the present invention may be combined with each other without conflict.

In embodiments of the invention, where the context requires otherwise, the use of directional terms such as "upper, lower, top and bottom" is generally intended in the orientation shown in the drawings or the positional relationship of the various components in a vertical, vertical or gravitational orientation.

The invention will be described in detail below with reference to exemplary embodiments and with reference to the accompanying drawings.

As shown in fig. 1 to 11, an exemplary embodiment of the present invention provides an integrated range including a cooktop 1, a cooking part, and an air inlet part 2.

Specifically, the cooking bench 1 is embedded on a kitchen bench and is provided with a cooking bench panel 11, and a panel embedding opening is formed on the cooking bench panel 11. The cooking part is arranged on the cooking bench 1, can be positioned in front of the panel embedding opening, and can comprise a gas stove, an electric stove and other heating modules. The air inlet part 2 belongs to a component of a range hood module or an air purification module and comprises a plurality of air deflectors 21 embedded in a panel embedding opening, namely the plurality of air deflectors 21 are arranged behind the cooking part. The plurality of air deflectors 21 are sequentially arranged at intervals in the front-back direction, and air inlets are formed between the adjacent air deflectors 21.

When smoking (or other cooking steam), the air deflectors 21 are raised to extend out of the cooking bench panel 11, so that the heights of the air inlets are gradually increased from front to back. So set up, to being in the oil smoke source of co-altitude, all have with the less air intake of interval between, reducible oil smoke is scattered outward, and highly form the large tracts of land barrier by going to a plurality of aviation baffles 21 that increase progressively after, realizes the interception on a large scale to the oil smoke, further reduces its volume of scattering, effectively promotes the smoking effect. In addition, the user also can adjust the height of a plurality of air intakes according to the height of cooking pot (the oil smoke source height promptly) by oneself.

The plurality of air deflectors 21 may be lifted and lowered in a linkage manner or independently from each other, which may be determined according to actual situations, and the present exemplary embodiment is not limited.

For an optional linkage lifting mode, the linkage lifting mechanism is arranged in the integrated stove to realize that the linkage lifting mechanism can sequentially drive the air deflectors 21 to lift from back to front. That is, the air guide plate 21 located rearward always starts to operate prior to the air guide plate 21 located forward regardless of ascending or descending, but the air guide plate 21 located forward always completes the ascending or descending operation prior to the air guide plate 21 located rearward.

Further, the linked lift mechanism may include a slip fit arrangement and a lift drive 22. The sliding fit structure is formed between the adjacent air deflectors 21, and in the two adjacent air deflectors 21, the air deflector 21 located behind drives the air deflector 21 located in front to lift through the sliding fit structure. The lifting driving device 22 is used for driving the rearmost air guiding plate 21 to lift, so that the plurality of air guiding plates 21 in front of the rearmost air guiding plate 21 can be sequentially driven to lift from back to front by controlling the rearmost air guiding plate 21.

Referring to the drawings, in two adjacent air deflectors 21, an air deflector sliding groove 211 extending vertically and having a closed top end may be disposed at a lateral outer end of the front air deflector 21, and an air deflector sliding buckle 212 penetrating the air deflector sliding groove 211 may be disposed at a lateral outer end of the rear air deflector 21, that is, the above-mentioned sliding fit structure may include the air deflector sliding groove 211 and the air deflector sliding buckle 212.

When the air guiding plate 21 located behind rises, the air guiding plate sliding buckle 212 slides vertically in the air guiding plate sliding groove 211 until abutting against the groove top wall of the air guiding plate sliding groove 211, and the air guiding plate 21 located in front can be driven to rise. When the air deflector 21 located behind descends, the air deflector sliding buckle 212 and the groove top wall of the air deflector sliding groove 211 are kept mutually abutted, so that the air deflector 21 located in front can be driven to descend.

The cooking steam should not overflow after flowing into the air inlet, and therefore, referring to the drawing, the bottom ends of the frontmost air deflector 21 and the rearmost air deflector 21 are always lower than the top plate 11 to form front and rear interception, and since the extending heights of the plurality of air deflectors 21 are increased from front to rear, the rearmost air deflector 21 needs to have a large overall size, and in the case of the large overall size, stability in the lifting process needs to be ensured.

For example, the air inlet 2 further includes an air inlet housing 23 located below the cooktop panel 11, and the air guide plate 21 is inserted into the air inlet housing 23 through the panel insertion opening. In order to ensure the lifting stability, the transverse outer end of the rearmost air deflector 21 is connected with the transverse inner side wall of the air inlet part shell 23 in a sliding fit manner, and the longer the slide rail is, the more the lifting stability is improved.

In the extended state of the air deflectors 21, if the air inlets are communicated with each other in the area above the top panel 11, the air inlet amount is increased, and the smoking efficiency is improved. The wind deflector 21 may include a frontmost wind deflector 213, a rearmost wind deflector 215, and a plurality of internal wind deflectors 214 between the frontmost wind deflector 213 and the rear wind deflector 215, classified according to overall size. At this time, in order to realize that the plurality of air inlets are communicated with each other in the upper area of the cooking bench panel 11, there are two main ways, one is to make the bottom end of the internal air deflector 214 higher than the cooking bench panel 11 in the extended state, and the other is to set a hollow structure in each internal air deflector 214.

For example, the internal air guiding plate 214 may include a plate body portion 214b and two leg portions 214a, the two leg portions 214a are symmetrically disposed on two lateral sides of the plate body portion 214b and extend vertically, two lateral ends of the plate body portion 214b are respectively connected to the tops of the two leg portions 214a, and the leg portions 214a may be formed with the aforementioned sliding fit structure. In the extended state of the air deflectors 21, the heights of the bottom ends of the plate bodies 214b increase from front to back, and the bottom end of the plate body 214b located at the forefront rises to the top height position of the front air deflector 213. Because a certain vertical distance is provided between the top of the front air deflector 213 and the top panel 11, the plurality of air inlets can be communicated with each other in the area above the top panel 11 under the condition that the bottom ends of all the plate portions 214b are not lower than the top of the front air deflector 213.

In addition, the plate body portion 214b can be used for limiting the air inlet without having a larger size, which is beneficial to saving manufacturing materials, and the plurality of internal air deflectors 214 can be completely the same, thereby reducing the production cost.

Further, the air inlet part 2 may include an air inlet part case 23 and a filter screen 25 under the cooktop panel 11, and the air guide plate 21 is inserted into the air inlet part case 23 from the panel insertion opening. In the above structure, the bottom end of the plate surface of the rear air deflector 215 is lower than the bottom end of the plate body portion 214b, and at this time, the filter screen 25 may be fixedly mounted on the front plate surface of the rear air deflector 215 and located below the plate body portion 214b, and the screen surface of the filter screen 25 may be inclined downward and forward. In this way, in the extended state of the air deflectors 21, the heights of the bottom ends of the plate bodies 214b increase from front to back, and the filter screen 25 is fixedly mounted on the rear air deflector 215, so as to rise by a certain height, and because the screen surface thereof is inclined downward and forward, it does not interfere with the plate bodies 214 b. The filter screen 25 which rises to a certain height is closer to the air inlet, and a large amount of oil stains can be intercepted at the upstream end of the air duct.

After the integrated kitchen reaches a certain duration of use, the filtration piece in its oil smoke wind channel needs to be washd or changed, otherwise can influence filter effect or normal ventilation. Therefore, the filter should be detachably installed in the integrated oven.

In one embodiment, the integrated range further includes an air inlet portion housing 23 located below the cooktop panel 11 and a filter element, which may be the aforementioned filter screen 25, removably mounted within the air inlet portion housing 23. The air deflector 21 positioned at the forefront is the front end air deflector 213 and includes an air deflector frame 213a, an air deflector window 213b and an air deflector body 213c. The air guide plate window 213b is formed in the air guide plate frame 213a, and the air guide plate body 213c can open or close the air guide plate window 213b. In the extended state of the plurality of air deflectors 21, the air deflector window 213b can be opened first, and then the filter element is disassembled and taken out from the air deflector window 213b, so that the disassembly is quite convenient, and the difficulty in cleaning and maintenance is low.

The closer the filter is to the air guide plate window 213b, the shorter the distance required for reaching the filter, and the more the disassembly difficulty can be reduced. For example, the filter member may be fixedly mounted on the air guide plate 21 to follow the air guide plate 21 up to a height convenient for a user to detach.

Preferably, the filter element is more easily removable in a user-viewable position, for example, in an extended state of the plurality of air deflectors 21, the filter element can be lifted along with the air deflectors 21 to be aligned horizontally with the air deflector window 213b, and the bottom end of the air deflector window 213b and the bottom end of the filter element are not lower than the top panel 11, so that the filter element can be removed from the front without extending hands into the air inlet casing 23 below the top panel 11.

In addition, the air deflector 21 located at the rearmost is the rear-end air deflector 215, and in the case that the integrated cooker is provided with the linkage lifting mechanism, the linkage lifting mechanism drives the rear-end air deflector 215 to sequentially drive the plurality of air deflectors 21 to lift from back to front, and at this time, the filter element can be mounted on the rear-end air deflector 215 to lift synchronously along with the rear-end air deflector 215.

The air deflection 21 further comprises a plurality of internal air deflection plates 214 located between the front end air deflection plates 213 and the rear end air deflection plates 215. According to the aforementioned embodiment, the internal air guiding plate 214 may include a plate body portion 214b and two leg portions 214a, in this case, the filter element is the aforementioned filter net 25. When the air deflectors 21 extend out of the top panel 11, the heights of the bottom ends of the plate portions 214b increase from front to back, and the bottom end of the plate portion 214b located at the forefront rises to the top height of the air deflector body 213c. Therefore, when the air deflector body 213c is opened, the opening area of the air deflector window 213b is large, and a user can perform a detaching operation in a large space, which is beneficial to improving the detaching efficiency.

Referring to the drawings, the elevation driving unit 22 of the linkage elevating mechanism may be connected to a lateral middle portion of the rear air guide plate 215 to drive the elevation thereof, and the filter member may include a first filter member and a second filter member symmetrically disposed at both lateral sides of the elevation driving unit 22. By the arrangement, the lifting driving device 22 and the filter element are mounted more compactly, and the volume of the whole machine can be reduced.

When a plurality of filter members (two or more) are provided, a plurality of air deflector windows 213b may be provided in one-to-one correspondence, and the plurality of air deflector windows 213b are sequentially arranged at intervals in the transverse direction.

Based on the above structure, the air guiding plate body 213c can be configured as an integrated part, that is, one air guiding plate body 213c can simultaneously close a plurality of air guiding plate windows 213b, and when a plurality of filter elements need to be cleaned or replaced, all the air guiding plate windows 213b can be opened at one time, thereby simplifying the opening procedure.

Of course, a plurality of deflector bodies 213c may be provided that close the plurality of deflector windows 213b in a one-to-one correspondence. When a specific filter needs to be cleaned or replaced, the air deflector body 213c corresponding to the filter needs to be opened.

In addition, the air deflector body 213c may be configured to open and close in different ways. For example, the air deflector body 213c is pivotally connected to the air deflector frame 213a, and the air deflector window 213b is rapidly opened and closed by rotating the air deflector body 213c. Alternatively, the deflector body 213c may be removably coupled to the deflector frame 213a, i.e., the deflector body 213c may be completely removed from the deflector frame 213 a. To increase the removal speed, a magnetic connection is preferably used, which is beneficial to improving the sealing performance and preventing the cooking steam flowing into the air inlet from overflowing through the fit clearance between the air deflector body 213c and the air deflector frame 213 a.

Referring to the drawings, the plurality of air deflectors 21 may be provided in a straight plate shape and arranged in parallel at intervals in the front-rear direction. However, the present exemplary embodiment is not limited thereto, and for example, the air deflector 21 may be provided in a bent plate shape with a concave surface facing the cooking part in the front direction.

In order to prevent pollutants such as food residues and the like from falling into the integrated stove from the air inlet, an air inlet turning plate 24 can be arranged in the air inlet, and the air inlet is opened or closed in a turning mode. Specifically, in the extended state of the air deflectors 21, the air inlet turning plate 24 is turned to open the air inlet, and in the embedded state of the air deflectors 21, the air inlet turning plate 24 is turned to close the air inlet.

The lifting control of the air deflector 21 and the turning control of the air inlet turning plate 24 can be independent or linked with each other. In the case of the air deflector 21 and the air inlet portion turning plate 24 being controlled in a linkage manner, in order to further increase the starting response speed, the air inlet portion turning plate 24 may be configured to turn the air inlet opening synchronously when the air deflector 21 starts to rise, and more preferably, the air inlet portion turning plate 24 may completely open the air inlet opening before the air deflector 21 rises to a preset height.

The following provides an embodiment for synchronously turning over the air inlet when the air deflector 21 starts to rise, but the present invention is not limited to the linkage control manner in this embodiment.

In particular, the air inlet portion 2 may comprise a fixedly arranged flap support structure. In the embedded state of the air deflectors 21, the air inlet turning plate 24 is supported on the turning plate support structure so as to close the air inlet. Under the extending state of the air deflectors 21, the turning plate 24 of the air inlet part is separated from the contact with the turning plate support structure, so that the support is lost, and the air inlet is turned downwards under the action of the self gravity to open the air inlet.

In other words, during the ascending process of the air deflector 21, the air inlet turning plate 24 gradually gets out of contact with the turning plate support structure, and during the descending process of the air deflector 21, the air inlet turning plate 24 first gradually approaches to the turning plate support structure and then comes into contact with the turning plate support structure again, and when the air deflector is supported by the turning plate support structure, the air inlet turning plate is gradually turned over to close the air inlet again. Through setting up the board bearing structure that turns over, can save the mechanism of drive air inlet portion turning over board 24 of being exclusively used in, simplify the coordinated control mode, reduce the product complexity, be favorable to improving production efficiency and save the cost.

For example, referring to the drawings, the flap support structure may include support chutes 26 provided at lateral outer ends of the panel insertion opening and extending in the front-rear direction, the turning shaft of the air inlet flap 24 being arranged on the air guide plate 21 in the lateral direction, and the lateral outer ends of the air inlet flap 24 being formed with flap support shafts 241 extending laterally outward. In the embedded state of the air deflectors 21, the turning plate support shaft 241 is lapped on the support sliding groove 26, and the air inlet part turning plate 24 closes the air inlet. When the air deflectors 21 are in an extended state, the flap support shaft 241 is separated from contact with the support chute 26, and the air inlet flap 24 loses support, so that the air inlet is turned downwards to be opened.

On the other hand, the cooking part may include a burner mounting groove, a burner and a grill-shaped pot support 3. The furnace end mounting groove is sunken downwards from the cooking bench panel 11, the furnace end is arranged in the furnace end mounting groove, and the grid-shaped pot support 3 is tiled at the top of the furnace end mounting groove. Through adopting grid form pot support 3 tiling at the top of furnace end mounting groove, can make cooking pot place regional bigger, for example the pan can place wantonly on grid form pot support 3 when idle. Under the embedded state of a plurality of aviation baffles 21, the top of aviation baffle 21 and the top of grid form pot support 3 can set up to level along vertical, makes the complete machine appearance succinct, promotes the aesthetic property.

Specifically, referring to the drawings, the burner mounting groove may include a middle mounting groove located at a lateral middle portion of the cooktop panel 11 and two edge mounting grooves symmetrically disposed at lateral both sides of the middle mounting groove, and accordingly, the grill-shaped pot support 3 includes a middle pot support installed corresponding to the middle mounting groove and two same edge pot supports installed corresponding to the two edge mounting grooves. In addition, the size of the middle pot support can be set to be smaller than that of the side pot support, so that a space is reserved on the cooking bench panel 11 for installing a control part positioned in front of the middle pot support, and the control part comprises components such as a plug valve of a burner. Moreover, because the two side pot supports are completely the same, the misplacement can be avoided, and the production cost can be reduced.

Although the embodiments of the present invention have been described in detail with reference to the accompanying drawings, the embodiments of the present invention are not limited to the specific details of the above embodiments, and various simple modifications may be made to the technical solutions of the embodiments of the present invention within the technical idea of the embodiments of the present invention, and these simple modifications all belong to the protection scope of the embodiments of the present invention.

It should be noted that, in the foregoing embodiments, various features described in the foregoing embodiments may be combined in any suitable manner, and in order to avoid unnecessary repetition, various possible combinations are not described in further detail in the embodiments of the present invention.

In addition, any combination of various different implementation manners of the embodiments of the present invention is also possible, and the embodiments of the present invention should be considered as disclosed in the embodiments of the present invention as long as the combination does not depart from the spirit of the embodiments of the present invention.

Claims (15)

1. An integrated cooker, characterized in that it comprises:

the cooking bench comprises a cooking bench (1), wherein a panel embedding opening is formed on a cooking bench panel (11);

an air inlet portion housing (23) located below the cooktop panel (11);

the filtering piece is detachably arranged in the air inlet part shell (23); and

the air guide plates (21) are embedded into the air inlet portion shell (23) from the panel embedding opening and are sequentially arranged at intervals in the front-back direction, an air inlet is formed between the adjacent air guide plates (21), the air guide plate (21) at the forefront is a front end air guide plate (213) and comprises an air guide plate frame (213 a), an air guide plate window (213 b) formed in the air guide plate frame (213 a) and an air guide plate body (213 c) capable of opening and closing the air guide plate window (213 b);

the air deflectors (21) can be lifted to extend out of the cooking bench panel (11), the heights of the air inlets are gradually increased from front to back under the extending state of the air deflectors (21), and the filter piece can be taken out by opening the air deflector window (213 b).

2. The integrated hob according to claim 1, characterized in, that the filter is arranged to be able to follow the rising of the air deflector (21).

3. The integrated hob according to claim 2, characterized in that in the extended state of the plurality of air deflectors (21), the air deflector window (213 b) and the filter element are aligned horizontally, and neither the bottom end of the air deflector window (213 b) nor the bottom end of the filter element is lower than the hob top panel (11).

4. The integrated cooker according to claim 2, wherein the integrated cooker comprises a linkage lifting mechanism, the air deflector (21) comprises a rear end air deflector (215) located at the rearmost position, the linkage lifting mechanism is configured to drive the rear end air deflector (215) to sequentially drive the plurality of air deflectors (21) to lift from the rear to the front, and the filter element is detachably mounted on the rear end air deflector (215).

5. The integrated cooker according to claim 4, wherein the air deflector (21) further comprises a plurality of internal air deflectors (214) located between the front end air deflector (213) and the rear end air deflector (215), the internal air deflector (214) comprises two leg portions (214 a) symmetrically arranged on two lateral sides and extending vertically and plate body portions (214 b) having two lateral ends connected to tops of the two leg portions (214 a), a bottom end of a plate surface of the rear end air deflector (215) is lower than a bottom end of the plate body portion (214 b), the filter element is a filter screen (25) fixedly mounted on the front plate surface of the rear end air deflector (215) and located below the plate body portion (214 b), a screen surface of the filter screen (25) is inclined towards the lower front, and in an extended state of the plurality of air deflectors (21), heights of the bottom ends of the plurality of plate portions (214 b) increase from front to back.

6. The integrated cooker according to claim 5, wherein in the extended state of the plurality of air deflectors (21), a bottom end of the plate body portion (214 b) positioned foremost is raised to a top height position of the air deflector body (213 c).

7. The integrated cooker according to claim 4, wherein the linkage lifting mechanism comprises a lifting driving device (22) for driving the rear air deflector (215) to lift, the filter member comprises a first filter member and a second filter member, the lifting driving device (22) is connected with the transverse middle position of the rear air deflector (215) in a driving manner, and the first filter member and the second filter member are symmetrically arranged on the two transverse sides of the lifting driving device (22).

8. The integrated cooker according to claim 1, wherein the plurality of air deflector windows (213 b) are sequentially arranged at intervals in a transverse direction, the plurality of filter elements are arranged in a one-to-one correspondence with the plurality of air deflector windows (213 b), the air deflector body (213 c) is an integrally formed member and closes the plurality of air deflector windows (213 b), or the air deflector body (213 c) is a plurality of air deflector windows (213 b) and closes the plurality of air deflector windows (213 b) in a one-to-one correspondence.

9. The integrated cooker according to claim 1, wherein the deflector body (213 c) is detachably mounted on the deflector frame (213 a).

10. The integrated stove according to claim 9, wherein a magnetic attraction connection is formed between the air deflector body (213 c) and the air deflector frame (213 a).

11. The integrated cooker according to claim 1, wherein the deflector body (213 c) is pivotally connected to the deflector frame (213 a).

12. The integrated stove according to claim 1, wherein the air inlet portion (2) comprises an air inlet portion flap (24) which is arranged in the air inlet opening and can be opened and closed in a flip manner.

13. The integrated stove according to claim 12, wherein the air inlet portion (2) comprises a fixedly arranged flap support structure, the air inlet portion flap (24) is supported on the flap support structure and closes the air inlet in an embedded state of the plurality of air deflectors (21), and the air inlet portion flap (24) is detached from the flap support structure and opens the air inlet in an extended state of the plurality of air deflectors (21).

14. The integrated cooker according to any one of claims 1 to 13, further comprising a cooking part disposed in front of the air guide plate (21).

15. The integrated cooker according to claim 14, wherein the cooking part includes a burner installation groove depressed downward from the cooktop panel (11), a burner disposed in the burner installation groove, and a grill-shaped pot support (3) laid on top of the burner installation groove.

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