CN217356994U - Integrated kitchen air duct assembly and integrated kitchen - Google Patents

Abstract

The utility model relates to an integrated kitchen wind channel subassembly and integrated kitchen. The method comprises the following steps: the air guide shell is provided with a first cavity, a second cavity and a third cavity, the first cavity is communicated with the second cavity, the air guide shell is provided with an air inlet and an air outlet, the air inlet is communicated with the first cavity, and the air outlet is communicated with the third cavity; the fan assembly is arranged on the air guide shell and located in the second cavity, the second cavity and the third cavity are communicated through the fan assembly, and the fan assembly is used for conveying gas entering from the air inlet to the air outlet. The utility model discloses an integrated kitchen wind channel subassembly can high-efficient suction oil smoke, and health environmental protection, simple structure, convenient operation.

Description

Integrated kitchen air duct assembly and integrated kitchen

Technical Field

The utility model relates to a cooking utensils technical field especially relates to a basic kitchen wind channel subassembly and integrated kitchen.

Background

The range hood and the integrated environment-friendly stove are kitchen appliances for purifying the kitchen environment, are arranged above or below the stove, can rapidly pump away oil smoke harmful to human bodies generated in the combustion and cooking processes of the stove and then discharge the oil smoke outdoors, are helpful to reduce indoor pollution, but cannot remove pollutants in the oil smoke, and the discharged outdoor oil smoke brings serious hidden pollution danger to the atmosphere, thereby influencing the living environment or health of people.

SUMMERY OF THE UTILITY MODEL

Therefore, in order to solve the above problems, it is necessary to provide an integrated oven air duct assembly and an integrated oven, which can efficiently suck oil smoke and is sanitary and environment-friendly.

An integrated stove duct assembly comprising: the air guide shell is provided with a first cavity, a second cavity and a third cavity, the first cavity is communicated with the second cavity, the air guide shell is provided with an air inlet and an air outlet, the air inlet is communicated with the first cavity, and the air outlet is communicated with the third cavity; the fan assembly is arranged on the air guide shell and located in the second cavity, the second cavity is communicated with the third cavity through the fan assembly, and the fan assembly is used for conveying gas entering from the air inlet to the air outlet.

In the integrated kitchen wind channel subassembly disclosed in this application, be equipped with first cavity, second cavity and third cavity in the wind-guiding casing respectively, first cavity intercommunication air intake, third cavity intercommunication air outlet. In addition, the first cavity is communicated with the second cavity, and the second cavity fan assembly is communicated with the third cavity. Under the action of the fan assembly, oil smoke enters from the air inlet, sequentially passes through the first cavity, the second cavity and the third cavity, and is discharged out of the external space of the integrated stove air channel assembly through the air outlet. According to the integrated stove air channel assembly, the fan assembly is arranged in the air guide shell, so that the air flow flowing speed in the integrated stove air channel assembly can be increased, and the oil smoke extraction and discharge efficiency is improved. Meanwhile, the first cavity, the second cavity and the third cavity are arranged in the air guide shell to treat oil smoke, so that the oil smoke treatment action time can be prolonged, and the oil smoke treatment efficiency in the air duct assembly of the integrated stove is improved.

In one embodiment, the fan assembly includes a housing assembly, a driving assembly, and a fan assembly, the housing assembly is provided with an air passing cavity, the housing assembly is disposed on the air guide housing, the housing assembly is provided with a mounting opening, a fan inlet and a fan outlet, the mounting opening, the fan inlet and the fan outlet are communicated with the air passing cavity, the fan inlet is communicated with the second cavity, the fan outlet is communicated with the third cavity, the driving assembly is disposed on the housing assembly, the fan assembly is connected with the driving assembly, at least a portion of the fan assembly is located in the air passing cavity, and the fan assembly is configured to deliver gas to the fan outlet via the fan inlet.

The integrated stove air duct assembly further defines: the shell assembly of the fan assembly is provided with an air passing cavity, the air passing cavity is communicated with a fan air inlet and a fan air outlet, the fan air inlet is communicated with the second cavity, and the fan air outlet is communicated with the third cavity. At least part of the wind wheel assembly is arranged in the air passing cavity through the mounting port on the shell assembly. Under the action of the driving component, the air wheel component conveys the oil smoke in the second cavity into the air passing cavity through the air inlet of the fan and then to the third cavity through the air outlet of the fan. The fan assembly is compact in structural design and high in smoke oil suction and discharge efficiency.

In one embodiment, the casing assembly includes an air guide casing and a positioning bracket, the positioning bracket is disposed on the air guide casing, the driving assembly is disposed on the air guide casing, and the air passing cavity is formed inside the air guide casing.

The integrated stove air duct assembly further defines: an air passing cavity is formed on the inner side of the air guide shell of the shell assembly, so that a stable air passing structure is formed in the shell assembly. The wind-guiding shell sets up locating support, and locating support is used for the installation location of drive assembly on casing subassembly to improve fan assembly's structural stability.

In one embodiment, the driving assembly comprises a driving member, a driving shaft and a locking member, the driving shaft is arranged on the driving member, the driving member can drive the driving shaft to rotate, the wind wheel assembly is arranged on the driving shaft, the locking member is arranged on the driving shaft, and the wind wheel assembly is clamped between the driving shaft and the locking member.

The integrated stove air duct assembly further defines: the driving component is provided with a driving shaft, the wind wheel component is arranged on the driving shaft, and the wind wheel component is clamped between the driving shaft and a locking component on the driving shaft. The driving piece drives the driving shaft to rotate, and then drives the wind wheel component to rotate. The structure can further improve the installation and operation stability of the wind wheel assembly on the driving assembly.

In one embodiment, the integrated kitchen air duct assembly further comprises a driving protrusion, the driving protrusion is arranged on the driving shaft, a concave portion matched with the driving protrusion is arranged on the air duct assembly, and the driving protrusion is matched with the concave portion when the air duct assembly is arranged on the driving shaft.

The integrated stove air duct assembly further defines: it is protruding to set up the drive on the drive shaft, and the depressed part on the wind wheel subassembly matches as with the drive arch on the drive shaft: the clamping and locking installation are carried out, so that the rapid and accurate installation between the wind wheel assembly and the driving assembly is improved, the assembly convenience between the wind wheel assembly and the driving assembly is improved, and the running stability and the safety of the wind wheel assembly are improved.

In one embodiment, the wind wheel assembly comprises a connecting shaft, a connecting plate and a plurality of blades, the connecting shaft is arranged on the connecting plate, the connecting shaft is connected with the driving assembly, the blades are arranged on the connecting plate, the number of the blades is multiple, and the blades are arranged along the circumferential direction of the connecting plate.

The integrated stove air duct assembly further defines: the connecting plate of the wind wheel component is provided with a connecting shaft which is connected with the driving component, so that the driving component drives the wind wheel component to rotate to extract oil smoke. A plurality of blades are arranged along the circumferential direction of the connecting plate, so that air inlet and exhaust efficiency of the air wheel assembly is improved, oil smoke suction and exhaust efficiency is improved, and air exhaust performance of the integrated stove air channel assembly is improved.

In one embodiment, the integrated stove air duct assembly further comprises a guard ring, the guard ring is arranged on the shell assembly, and the guard ring is located at the air inlet of the fan.

The integrated stove air duct assembly further defines: prevent setting up the guard ring on the casing subassembly, the guard ring is located fan air intake department to can block impurity and get into the fan air intake via the air passing chamber, and further influence the fan wheel subassembly.

In one embodiment, the air guide housing includes a first housing, a second housing, and a third housing, the first housing is disposed on the second housing, an air inlet is disposed at a joint of the first housing and the second housing, the first housing is provided with the first cavity, the second housing is provided with the second cavity, the first cavity and the second cavity are communicated through the air inlet, the third housing is disposed on the second housing, the third housing is located in the second cavity, the third housing is provided with a housing air inlet, the fan assembly is disposed on the third housing, and the fan assembly is communicated with the third cavity through the housing air inlet.

The integrated stove air duct assembly further defines: the air guide shell consists of a first shell, a second shell and a third shell. The second shell is provided with a first shell with a first cavity, the second shell is internally provided with a second cavity, and an air inlet is formed in the joint of the first cavity and the second cavity. The third casing is located the second cavity, and sets up fan subassembly and casing air intake on the third casing. Under the action of the fan assembly, oil smoke enters the second cavity through the first cavity and the air passing opening, is guided into the third cavity of the third shell through the shell air inlet and is exhausted through the third cavity. The air guide shell structure can form a channel for directional suction and discharge of oil smoke, and has a stable structure and excellent oil smoke pumping and discharging performance.

Optionally, integrated kitchen wind channel subassembly still includes the base, and the one side setting that first casing was kept away from to the second casing is on the base to improve integrated kitchen wind channel subassembly's structural stability.

In one embodiment, the integrated stove air duct assembly further includes a first filter element disposed on the air guide housing, and the first filter element is configured to filter the gas entering the second cavity through the first cavity.

Be equipped with first filtration piece on foretell integrated kitchen wind channel assembly's the wind-guiding casing, first filtration piece is used for filtering the gas that gets into the second cavity through first cavity, prevents in the impurity in the gas gets into the second cavity through first cavity to influence the normal operating of fan subassembly in the second cavity.

In one embodiment, the integrated stove air duct assembly further comprises a second filter member disposed on the air guide housing, the second filter member covers the air outlet, and the second filter member is used for filtering the air output through the air outlet.

The air guide shell of the integrated stove air duct assembly is further provided with a second filter piece, and the second filter piece is covered at the air outlet and filters gas exhausted from the air outlet. The second filters the impurity that is arranged in filtering oil smoke, prevents that the impurity in the oil smoke from directly discharging outside integrated kitchen wind channel subassembly and influencing sanitation. Therefore, the safety performance of the integrated stove air duct assembly can be improved by the structure.

In one embodiment, the integrated stove air duct assembly further comprises an adsorption assembly, the adsorption assembly is arranged on the air guide shell and located in the third cavity, and the adsorption assembly is used for adsorbing particles in the gas in the third cavity.

Still be equipped with adsorption component on foretell integrated kitchen air duct assembly's the wind-guiding casing, adsorption component is located the third cavity and is arranged in adsorbing the harmful substance in the internal gas of third cavity, prevents that the harmful substance in the oil smoke from directly discharging outside integrated kitchen air duct assembly and influencing health safety. Therefore, the safety performance of the integrated stove air duct assembly can be improved by the structure.

An integrated cooker comprising: an energy supply device capable of providing heat; the integrated stove air duct assembly is used for adsorbing gas generated when the energy supply device heats an external object; and the control device is electrically connected with the fan assembly and is used for controlling the fan assembly.

The utility model also discloses an integrated kitchen, integrated kitchen is including being used for providing the energy supply device of heat energy, adsorbs the gaseous integrated kitchen wind channel subassembly that produces when energy supply device heats the foreign matter to and the controlling means of fan subassembly operation in the integrated kitchen wind channel subassembly of control. The application discloses an integrated kitchen through setting up aforementioned arbitrary integrated kitchen wind channel subassembly to make integrated cooking utensils have the function of efficient oil smoke suction and emission, and simple structure, operational reliability are good, facilitate the use.

Optionally, the energy supply device is a gas energy supply device and/or an electromagnetic energy supply device.

Drawings

Fig. 1 is a front view structural sectional view of the integrated cooker air duct assembly of the present invention;

fig. 2 is a schematic view of the whole structure of the integrated stove air duct assembly of the present invention;

FIG. 3 is a side view structural cross-sectional view of the integrated stove air duct assembly of the present invention;

fig. 4 is a schematic view of an exploded structure of the integrated stove air duct assembly of the present invention;

fig. 5 is a side view structural section of the fan assembly of the present invention.

Wherein, the corresponding relation between the reference signs and the component names is as follows:

1, an air guide shell, 11 a first shell, 12 a second shell, 13 a third shell, 14 a base, 101 a first cavity, 102 a second cavity, 103 a third cavity, 104 an air inlet, 105 an air outlet, 106 an air passing outlet and 107 a shell air inlet;

2, a fan assembly, a 21 shell assembly, a 211 air guide shell, a 212 positioning support, a 22 driving assembly, a 221 driving piece, a 222 driving shaft, a 223 locking piece, a 224 driving protrusion, a 23 air wheel assembly, a 231 connecting shaft, a 232 connecting plate, 233 blades, 24 protecting rings, a 201 air passing cavity, a 202 mounting opening, a 203 fan air inlet and a 204 fan air outlet;

3 a first filter member;

4 second filter element.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

The integrated kitchen air channel assembly and the integrated kitchen of some embodiments of the present invention are described below with reference to the accompanying drawings.

As shown in fig. 1 to 2, the present embodiment discloses an integrated oven duct assembly, including: the air guide shell 1 is provided with a first cavity 101, a second cavity 102 and a third cavity 103, the first cavity 101 is communicated with the second cavity 102, the air guide shell 1 is provided with an air inlet 104 and an air outlet 105, the air inlet 104 is communicated with the first cavity 101, and the air outlet 105 is communicated with the third cavity 103; fan subassembly 2, fan subassembly 2 sets up on wind-guiding casing 1, and fan subassembly 2 is located second cavity 102, and second cavity 102 and third cavity 103 communicate through fan subassembly 2, and fan subassembly 2 is used for carrying the gas that gets into by air intake 104 to air outlet 105.

In the integrated kitchen wind channel subassembly disclosed in this application, be equipped with first cavity 101, second cavity 102 and third cavity 103 in the wind guide housing 1 respectively, first cavity 101 intercommunication air intake 104, third cavity 103 intercommunication air outlet 105. In addition, the first cavity 101 is also communicated with the second cavity 102, and the fan assembly 2 of the second cavity 102 is communicated with the third cavity 103. Under the action of the fan assembly 2, oil smoke enters from the air inlet 104, sequentially passes through the first cavity 101, the second cavity 102 and the third cavity 103, and is discharged out of the external space of the integrated stove air channel assembly through the air outlet 105. The fan assembly 2 is arranged in the air guide shell 1, so that the air flow speed in the integrated stove air channel assembly can be increased, and the oil smoke extraction and discharge efficiency is improved. Meanwhile, the first cavity 101, the second cavity 102 and the third cavity 103 are arranged in the air guide shell 1 to process oil smoke, so that the oil smoke processing action time can be prolonged, and the oil smoke processing efficiency in the air duct assembly of the integrated stove can be improved.

As shown in fig. 3 and 4, in addition to the features of the above embodiment, the present embodiment further defines: the fan assembly 2 comprises a housing assembly 21, a driving assembly 22 and a fan assembly 23, the housing assembly 21 is provided with an air passing cavity 201, the housing assembly 21 is arranged on the air guide housing 1, the housing assembly 21 is provided with a mounting port 202, a fan air inlet 203 and a fan air outlet 204, the mounting port 202, the fan air inlet 203 and the fan air outlet 204 are communicated with the air passing cavity 201, the fan air inlet 203 is communicated with the second cavity 102, the fan air outlet 204 is communicated with the third cavity 103, the driving assembly 22 is arranged on the housing assembly 21, the fan assembly 23 is connected with the driving assembly 22, at least part of the fan assembly 23 is located in the air passing cavity 201, and the fan assembly 23 is used for conveying gas to the fan air outlet 204 through the fan air inlet 203.

The integrated stove air duct assembly further defines: the housing assembly 21 of the fan assembly 2 is provided with an air passing cavity 201, and the air passing cavity 201 is communicated with a fan air inlet 203 and a fan air outlet 204, wherein the fan air inlet 203 is communicated with the second cavity 102, and the fan air outlet 204 is communicated with the third cavity 103. At least part of the wind wheel assembly 23 is mounted in the air passing chamber 201 through a mounting port 202 on the housing assembly 21. Under the action of the driving assembly 22, the air wheel assembly 23 conveys the lampblack in the second cavity 102 into the air passing cavity 201 through the fan air inlet 203 and conveys the lampblack to the third cavity 103 through the fan air outlet 204. The fan assembly 2 is compact in structural design and high in tobacco tar suction and discharge efficiency.

As shown in fig. 4, in the present embodiment, the casing assembly 21 includes an air guiding shell 211 and a positioning bracket 212, the positioning bracket 212 is disposed on the air guiding shell 211, the driving assembly 22 is disposed on the air guiding shell 211, and an air passing cavity 201 is formed inside the air guiding shell 211.

The integrated stove air duct assembly further defines: the inside of the air guiding shell 211 of the casing assembly 21 forms an air passing cavity 201, so that a stable air passing structure is formed in the casing assembly 21. Wind-guiding shell 211 sets up locating support 212, and the locating support is used for the installation location of drive assembly on casing subassembly 21 to improve fan subassembly 2's structural stability.

As shown in fig. 4 and 5, in the present embodiment, the driving assembly 22 includes a driving member 221, a driving shaft 222 and a locking member 223, the driving shaft 222 is disposed on the driving member 221, the driving member 221 can drive the driving shaft 222 to rotate, the wind wheel assembly 23 is disposed on the driving shaft 222, the locking member 223 is disposed on the driving shaft 222, and the wind wheel assembly 23 is sandwiched between the driving shaft 222 and the locking member 223.

The integrated stove air duct assembly further defines: the driving member 221 of the driving assembly 22 is provided with a driving shaft 222, the wind wheel assembly 23 is arranged on the driving shaft 222, and the wind wheel assembly 23 is clamped between the driving shaft 222 and a locking member 223 on the driving shaft 222. The driving member 221 drives the driving shaft 222 to rotate, and further drives the wind wheel assembly 23 to rotate. The above structure can further improve the mounting and operational stability of the wind wheel assembly 23 on the drive assembly 22.

As shown in fig. 4 and 5, in this embodiment, the integrated oven duct assembly further includes a driving protrusion 224, the driving protrusion 224 is disposed on the driving shaft 222, a recess portion adapted to the driving protrusion 224 is disposed on the air wheel assembly 23, and the driving protrusion 224 and the recess portion are adapted to be mounted when the air wheel assembly 23 is disposed on the driving shaft 222.

The integrated stove air duct assembly further defines: the driving shaft 222 is provided with a driving protrusion 224, and the recess of the wind wheel assembly 23 is matched with the driving protrusion 224 of the driving shaft 222 such as: the wind wheel assembly 23 and the driving assembly 22 are quickly and accurately mounted, the assembling convenience between the wind wheel assembly 23 and the driving assembly 22 is improved, and the running stability and the safety of the wind wheel assembly 23 are improved.

As shown in fig. 4 and 5, in the present embodiment, the wind wheel assembly 23 includes a connecting shaft 231, a connecting plate 232, and a plurality of blades 233, the connecting shaft 231 is disposed on the connecting plate 232, the connecting shaft 231 is connected to the driving assembly 22, the blades 233 are disposed on the connecting plate 232, the number of the blades 233 is plural, and the plurality of the blades 233 are disposed along the circumferential direction of the connecting plate 232.

The integrated stove air duct assembly further defines: a connecting shaft 231 is arranged on a connecting plate 232 of the wind wheel assembly 23, and the connecting shaft 231 is connected with the driving assembly 22, so that the driving assembly 22 drives the wind wheel assembly 23 to rotate to extract oil smoke. The plurality of blades 233 are arranged along the circumferential direction of the connecting plate 232, so that air inlet and exhaust efficiency of the air wheel assembly 23 is improved, oil smoke suction and exhaust efficiency is improved, and air exhaust performance of the integrated stove air duct assembly is improved.

As shown in fig. 4, in the present embodiment, the integrated stove air duct assembly further includes a guard ring 24, the guard ring 24 is disposed on the housing assembly 21, and the guard ring 24 is located at the blower inlet 203.

The integrated stove air duct assembly further defines: the protective ring 24 is arranged on the shell assembly 21, and the protective ring 24 is located at the fan air inlet 203, so that impurities can be prevented from entering the fan air inlet 203 through the air passing cavity 201, and the fan wheel assembly is further influenced.

As shown in fig. 1, fig. 2, and fig. 3, in this embodiment, the air guide housing 1 includes a first housing 11, a second housing 12, and a third housing 13, the first housing 11 is disposed on the second housing 12, an air passing opening 106 is disposed at a connection position of the first housing 11 and the second housing 12, the first housing 11 is provided with a first cavity 101, the second housing 12 is provided with a second cavity 102, the first cavity 101 and the second cavity 102 are communicated through the air passing opening 106, the third housing 13 is disposed on the second housing 12, the third housing 13 is located in the second cavity 102, a housing air inlet 107 is disposed on the third housing 13, the fan assembly 2 is disposed on the third housing 13, and the fan assembly 2 is communicated with the third housing 103 through the housing air inlet 107.

The integrated stove air duct assembly further defines: the air guide casing 1 is composed of a first casing 11, a second casing 12, and a third casing 13. The first shell 11 with the first cavity 101 is arranged on the second shell 12, the second cavity 102 is arranged in the second shell 12, and the air inlet 106 is arranged at the connection position of the first cavity 101 and the second cavity 102. The third housing 13 is located in the second cavity 102, and the third housing 13 is provided with the fan assembly 2 and a housing inlet 107. Under the action of the fan assembly 2, the oil smoke enters the second cavity 102 through the first cavity 101 and the air inlet 106, is guided into the third cavity 103 of the third housing 13 through the housing air inlet 107, and is exhausted through the third cavity 103. The air guide shell 1 can form a channel for directional suction and discharge of oil smoke, and has a stable structure and excellent oil smoke pumping and discharging performance.

Optionally, the integrated stove air duct assembly further includes a base 14, and one side of the second housing 12 away from the first housing 11 is disposed on the base 14, so as to improve the structural stability of the integrated stove air duct assembly.

As shown in fig. 1 and fig. 2, in the present embodiment, the integrated cooking air duct assembly further includes a first filter member 3, the first filter member 3 is disposed on the air guide casing 1, and the first filter member 3 is used for filtering air entering the second cavity 102 through the first cavity 101.

The air guide shell 1 of the integrated kitchen air duct assembly is provided with the first filtering piece 3, the first filtering piece 3 is used for filtering gas entering the second cavity 102 through the first cavity 101, impurities in the gas are prevented from entering the second cavity 102 through the first cavity 101, and normal operation of the fan assembly 2 in the second cavity 102 is affected.

As shown in fig. 1, in the present embodiment, the integrated oven air duct assembly further includes a second filtering member 4, the second filtering member 4 is disposed on the air guiding housing 1, the second filtering member 4 covers the air outlet 105, and the second filtering member 4 is used for filtering the air output through the air outlet 105.

The air guide shell 1 of the integrated stove air duct assembly is also provided with a second filter piece 4, the second filter piece 4 covers the air outlet 105, and gas exhausted from the air outlet 105 is filtered. The second filtering piece 4 is used for filtering impurities in the oil smoke and preventing the impurities in the oil smoke from being directly discharged out of the air duct assembly of the integrated stove to influence environmental sanitation. Therefore, the safety performance of the integrated stove air duct assembly can be improved by the structure.

In this embodiment, integrated kitchen wind channel subassembly still includes adsorption component, and adsorption component sets up on wind guide housing 1, and adsorption component is located third cavity 103, and adsorption component is arranged in adsorbing the granule in the gas in third cavity 103.

Still be equipped with adsorption component on foretell integrated kitchen air duct assembly's the wind-guiding casing 1, adsorption component is located third cavity 103 and is arranged in adsorbing the harmful substance in the gas of third cavity 103, prevents that the harmful substance in the oil smoke from directly discharging outside integrated kitchen air duct assembly and influence health safety. Therefore, the safety performance of the integrated stove air duct assembly can be improved by the structure.

An integrated cooker comprising: the energy supply device can provide heat; the integrated stove air channel assembly is used for adsorbing gas generated when the energy supply device heats an external object; and the control device is electrically connected with the fan assembly 2 and is used for controlling the fan assembly 2.

The utility model also discloses an integrated kitchen, integrated kitchen is including being used for providing the energy supply device of heat energy, adsorbs the gaseous integrated kitchen wind channel subassembly that produces when energy supply device heats the foreign matter to and the controlling means of 2 operations of fan subassembly in the integrated kitchen wind channel subassembly of control. The application discloses an integrated kitchen through setting up aforementioned arbitrary integrated kitchen wind channel subassembly to make integrated cooking utensils have the function of efficient oil smoke suction and emission, and simple structure, operational reliability are good, facilitate the use.

Optionally, the energy supply device is a gas energy supply device and/or an electromagnetic energy supply device.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent several embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. An integrated kitchen wind channel subassembly which characterized in that includes:

the air guide shell (1) is provided with a first cavity (101), a second cavity (102) and a third cavity (103), the first cavity (101) is communicated with the second cavity (102), the air guide shell (1) is provided with an air inlet (104) and an air outlet (105), the air inlet (104) is communicated with the first cavity (101), and the air outlet (105) is communicated with the third cavity (103);

fan subassembly (2), fan subassembly (2) set up on wind-guiding casing (1), fan subassembly (2) are located in second cavity (102), second cavity (102) with third cavity (103) warp fan subassembly (2) intercommunication, fan subassembly (2) are used for with by the gas that air intake (104) got into carry extremely air outlet (105).

2. The integrated cooking stove air duct assembly according to claim 1, wherein the fan assembly (2) comprises a housing assembly (21), a driving assembly (22) and a fan assembly (23), the housing assembly (21) is provided with an air passing cavity (201), the housing assembly (21) is arranged on the air guide housing (1), the housing assembly (21) is provided with a mounting port (202), a fan air inlet (203) and a fan air outlet (204), the mounting port (202), the fan air inlet (203) and the fan air outlet (204) are communicated with the air passing cavity (201), the fan air inlet (203) is communicated with the second cavity (102), the fan air outlet (204) is communicated with the third cavity (103), the driving assembly (22) is arranged on the housing assembly (21), and the fan assembly (23) is connected with the driving assembly (22), at least part of the wind wheel assembly (23) is positioned in the air passing cavity (201), and the wind wheel assembly (23) is used for conveying gas to the fan air outlet (204) through the fan air inlet (203).

3. The integrated cooking stove air duct assembly according to claim 2, wherein the housing assembly (21) comprises an air guiding shell (211) and a positioning bracket (212), the positioning bracket (212) is arranged on the air guiding shell (211), the driving assembly (22) is arranged on the air guiding shell (211), and the air passing cavity (201) is formed inside the air guiding shell (211).

4. The integrated cooking air duct assembly according to claim 2, wherein the driving assembly (22) comprises a driving member (221), a driving shaft (222) and a locking member (223), the driving shaft (222) is arranged on the driving member (221), the driving member (221) can drive the driving shaft (222) to rotate, the air wheel assembly (23) is arranged on the driving shaft (222), the locking member (223) is arranged on the driving shaft (222), and the air wheel assembly (23) is clamped between the driving shaft (222) and the locking member (223).

5. The integrated cooking air duct assembly according to claim 4, further comprising a driving protrusion (224), wherein the driving protrusion (224) is disposed on the driving shaft (222), the wind wheel assembly (23) is provided with a recess portion adapted to the driving protrusion (224), and the driving protrusion (224) is adapted to the recess portion when the wind wheel assembly (23) is disposed on the driving shaft (222).

6. The integrated cooking air duct assembly according to claim 2, wherein the air duct assembly (23) comprises a connecting shaft (231), a connecting plate (232) and a plurality of blades (233), the connecting shaft (231) is disposed on the connecting plate (232), the connecting shaft (231) is connected with the driving assembly (22), the blades (233) are disposed on the connecting plate (232), the number of the blades (233) is plural, and the plurality of blades (233) are disposed along a circumferential direction of the connecting plate (232).

7. The integrated cooking air duct assembly according to claim 2, further comprising a guard ring (24), the guard ring (24) being provided on the housing assembly (21), the guard ring (24) being located at the fan inlet (203).

8. The integrated cooking air duct assembly according to claim 1, wherein the air guide casing (1) comprises a first casing (11), a second casing (12) and a third casing (13), the first casing (11) is disposed on the second casing (12), an air passing opening (106) is disposed at a connection position of the first casing (11) and the second casing (12), the first casing (11) is provided with the first cavity (101), the second casing (12) is provided with the second cavity (102), the first cavity (101) and the second cavity (102) are communicated through the air passing opening (106), the third casing (13) is disposed on the second casing (12), the third casing (13) is disposed in the second cavity (102), a casing air inlet (107) is disposed on the third casing (13), and the fan assembly (2) is disposed on the third casing (13), the fan assembly (2) is communicated with the third cavity (103) through the shell air inlet (107).

9. The integrated stove duct assembly according to claim 1,

the air guide device further comprises a first filter element (3), wherein the first filter element (3) is arranged on the air guide shell (1), and the first filter element (3) is used for filtering gas entering the second cavity (102) through the first cavity (101); and/or

The air guide device further comprises a second filter element (4), the second filter element (4) is arranged on the air guide shell (1), the second filter element (4) covers the air outlet (105), and the second filter element (4) is used for filtering the gas output through the air outlet (105); and/or

Still include adsorption component, adsorption component sets up on wind-guiding casing (1), adsorption component is located in third cavity (103), adsorption component is used for adsorbing the granule in the gas in third cavity (103).

10. An integrated cooker, characterized by comprising:

an energy supply device capable of providing heat;

the integrated cooking air duct assembly according to any one of claims 1 to 9, for adsorbing gas generated when the energy supply device heats an external object;

the control device is electrically connected with the fan assembly (2) and is used for controlling the fan assembly (2).

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