CN214332812U - Air guide seat air duct structure of upward-discharging integrated stove - Google Patents

Abstract

The utility model relates to an air duct structure of an air guide seat of an upward-discharging integrated cooker, which comprises an integrated cooker cabinet for arranging cooking utensils and an air guide seat for conveying airflow; the air guide seat is provided with an integrated air duct and an exhaust air duct; the air outlet end of the integrated air duct is communicated with the outside; one end of the exhaust air duct is communicated with the inner cavity of the integrated stove cabinet, and the other end of the exhaust air duct is communicated with the integrated air duct; the integrated stove cabinet and/or the air guide seat are/is provided with an air inlet communicated with the inner cavity of the integrated stove cabinet; the air current passes through air inlet, integrated kitchen cabinet inner chamber, exhaust wind channel and integrated wind channel in proper order. The air duct structure of the air guide seat of the upward-discharging integrated cooker can ensure that air ducts in the air guide seat are smooth and do not interfere with each other, and the exhaust performance of the upward-discharging integrated cooker is ensured.

Description

Air guide seat air duct structure of upward-discharging integrated stove

Technical Field

The utility model belongs to the technical field of integrated kitchen, concretely relates to wind-guiding seat wind channel structure of integrated kitchen of row's of going up formula.

Background

The integrated cooker is a product integrating various cooking devices, and oil smoke, waste gas and the like generated by each cooking device are guided and transmitted by the air guide seat and finally discharged to the outside atmosphere; in order to meet the emission of oil smoke, waste gas and the like of different cooking equipment, more than one air channel is required to be arranged on the air guide seat; the unreasonable layout of the upper air duct of the existing air guide seat can directly influence the emission effect of oil smoke, waste gas and the like.

Therefore, further improvements are needed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the not enough of above-mentioned prior art existence, and provide an air guide seat wind channel structure of the integrated kitchen of row's of going up formula, this structure can ensure that each wind channel is unblocked and mutually noninterfere in the air guide seat, guarantees the exhaust performance of the integrated kitchen of row's of going up formula.

The purpose of the utility model is realized like this:

an air guide seat air duct structure of an upper-row integrated cooker comprises an integrated cooker cabinet for arranging cooking appliances and an air guide seat for conveying air flow; the air guide seat is provided with an integrated air duct and an exhaust air duct; the air outlet end of the integrated air duct is communicated with the outside; one end of the exhaust air duct is communicated with the inner cavity of the integrated stove cabinet, and the other end of the exhaust air duct is communicated with the integrated air duct; the integrated stove cabinet and/or the air guide seat are/is provided with an air inlet communicated with the inner cavity of the integrated stove cabinet; the air current passes through air inlet, integrated kitchen cabinet inner chamber, exhaust wind channel and integrated wind channel in proper order.

The integrated kitchen cabinet comprises a cooking bench and a cooking kitchen cabinet; a first accommodating cavity for accommodating a cooking appliance is arranged on the cooking bench; a second accommodating cavity for accommodating cooking appliances is arranged on the cooking stove cabinet; the first accommodating cavity is communicated with the second accommodating cavity, the air inlet is communicated with the first accommodating cavity and/or the second accommodating cavity, and the first accommodating cavity and/or the second accommodating cavity are communicated with the exhaust air duct through the air guide pipe.

The cooking bench is provided with an exhaust cavity, the first accommodating cavity is communicated with the exhaust cavity through a first vent hole, and the second accommodating cavity is communicated with the exhaust cavity through a second vent hole; the air inlet and the air exhaust duct are respectively communicated with the air exhaust cavity.

The air guide seat is provided with a steam interface communicated with the exhaust air channel, and a steam discharge port on the cooking utensil is communicated with the steam interface through a steam pipe body.

The air guide seat is provided with a first partition plate, and the first partition plate divides the inner cavity of the air guide seat into the integrated air channel and the exhaust air channel; the first partition plate is provided with a partition plate through hole, and the exhaust air channel is communicated with the integrated air channel through the partition plate through hole.

A second partition plate is arranged on the air guide seat, and divides the inner cavity of the air guide seat into an air inlet cavity; the air inlet is arranged on the air guide seat, one end of the air inlet cavity is communicated with the air inlet, and the other end of the air inlet cavity is communicated with the inner cavity of the integrated stove cabinet.

And the air guide seat is provided with a smoke inlet communicated with the air inlet end of the integrated air duct.

The air guide seat is provided with a smoke machine device for forming air convection, the air inlet end of the smoke machine device is communicated with the air outlet end of the integrated air channel, and the air outlet end of the smoke machine device is communicated with the outside.

The utility model has the advantages that:

the air inlet, the exhaust air duct and the integrated air duct are arranged on the air guide seat, and the airflow sequentially passes through the air inlet, the integrated oven cabinet inner cavity, the exhaust air duct and the integrated air duct, so that the gas generated by the working of each cooking appliance can be finally discharged to the outside through the air duct structure, and the normal working of each cooking appliance is ensured; the air duct has the advantages of simple and reasonable structure, reliable performance and good air guide effect.

Drawings

Fig. 1 is a perspective view of an upper-row type integrated cooker in an embodiment of the present invention.

Fig. 2 is an internal front view of an upper-row integrated cooker according to an embodiment of the present invention.

Fig. 3 is a partial sectional view of an upper-row integrated cooker according to an embodiment of the present invention.

Fig. 4 is a schematic view of an internal structure of a cooking hob in an embodiment of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

Referring to fig. 1 to 4, the air duct structure of the air guide seat of the integrated oven in the back-up row includes an integrated oven cabinet 1 for arranging cooking utensils and an air guide seat 3 for conveying air flow; an integrated air duct 302 and an exhaust air duct 305 are formed in the inner cavity of the air guide seat 3; the air outlet end of the integrated air duct 302 is communicated with the outside; one end of the exhaust air duct 305 is communicated with the inner cavity of the integrated kitchen cabinet 1, and the other end of the exhaust air duct 305 is communicated with the integrated air duct 302; an air inlet 303 communicated with the inner cavity of the integrated stove cabinet 1 is formed in the integrated stove cabinet 1 and/or the air guide seat 3; when the integrated kitchen of the formula of arranging on uses, the air current passes through air inlet 303, 1 inner chamber of integrated kitchen cabinet, exhaust wind channel 305 and integrated wind channel 302 in proper order, makes the unobstructed wind channel of the inside shaping of the integrated kitchen of the formula of arranging on to form the air convection, make waste gas, heat, steam etc. that cooking utensil work produced discharge to the external world smoothly, still can provide required air for cooking utensil simultaneously, guarantee that each cooking utensil normally works.

Further, the integrated hob cabinet 1 comprises a cooking hob 101 and a cooking hob cabinet 102; a first accommodating cavity 103 for accommodating cooking utensils is arranged in an inner cavity of the cooking hearth 101, the cooking utensils arranged on the cooking hearth 101 can be small devices with the same volume of an induction cooker 4 and a gas furnace, and the devices are heated in a direct heating mode, wherein the induction cooker 4 needs to suck outside air to carry out heat dissipation, and the gas furnace needs to suck the outside air to supplement oxygen and discharge waste gas; a second accommodating cavity 107 for accommodating cooking appliances is arranged in the inner cavity of the cooking stove cabinet 102, the cooking appliances arranged on the cooking stove cabinet 102 can be large-volume equipment such as a steaming oven, and the steaming oven 5 generally needs to dissipate heat, discharge steam and discharge waste gas; therefore, air convection between the inside of the upward-discharging integrated cooker and the outside needs to be ensured; the first accommodating cavity 103 is communicated with the second accommodating cavity 107, the air inlet 303 is respectively communicated with the first accommodating cavity 103 and the second accommodating cavity 107, and the first accommodating cavity 103 and the second accommodating cavity 107 are respectively communicated with the exhaust air duct 305 through the air guide pipe 6.

Further, an exhaust cavity 106 is arranged in the inner cavity of the cooking bench 101, the first accommodating cavity 103 is communicated with the exhaust cavity 106 through a first vent hole 1041, and the second accommodating cavity 107 is communicated with the exhaust cavity 106 through a second vent hole 105; the air inlet 303 and the air exhaust duct 305 communicate with the air exhaust chamber 106, respectively. Specifically, a middle partition plate 104 is arranged in an inner cavity of the cooking hob 101, the middle partition plate 104 divides the inner cavity of the cooking hob 101 into a first accommodating cavity 103 and an exhaust cavity 106, and a plurality of first ventilation holes 1041 are formed in the middle-heel-panel 104; a plurality of second vent holes 105 are arranged at the bottom of the exhaust cavity 106.

Furthermore, a steam interface 304 communicated with the exhaust air duct 305 is arranged on the air guide seat 3, a steam discharge port 501 for discharging steam on the steam oven 5 is communicated with the steam interface 304 through a steam pipe body 7, and the steam is directly discharged into the exhaust air duct 305 under the guidance of the steam pipe body 7, so that the steam is prevented from being directly discharged into the second accommodating cavity 107 to influence an electric control device on the steam oven 5; an exhaust gas discharge port 502 for discharging exhaust gas on the steaming oven 5 is directly communicated with the second accommodating chamber 107.

Further, a first partition 306 is arranged in the inner cavity of the air guide seat 3, and the first partition 306 divides the inner cavity of the air guide seat 3 into an integrated air duct 302 and an exhaust air duct 305; the top of the first partition 306 is provided with a partition through hole 3061, and the exhaust air duct 305 is communicated with the integrated air duct 302 through the partition through hole 3061. In this embodiment, two exhaust air ducts 305 are provided and located on two sides of the integrated air duct 302.

Further, a second partition plate 307 is arranged in the inner cavity of the air guide seat 3, and the second partition plate 307 divides the inner cavity of the air guide seat 3 into an air inlet cavity 308; the air inlet 303 is arranged at the side part of the air guide seat 3, one end of the air inlet cavity 308 is communicated with the air inlet 303, and the other end of the air inlet cavity 308 is communicated with the inner cavity of the integrated stove cabinet 1.

Further, the front side of the air guide seat 3 is provided with a smoke inlet 301 communicated with the air inlet end of the integrated air duct 302, and the smoke inlet 301 is close to a vessel for cooking so as to suck the oil smoke generated during cooking.

Further, a cigarette machine device 2 for forming air convection is arranged at the top of the air guide seat 3, an air inlet end of the cigarette machine device 2 is communicated with an air outlet end of the integrated air duct 302, the air outlet end of the cigarette machine device 2 is communicated with the outside, negative pressure can be generated in the integrated air duct 302 and the exhaust air duct 305 when the cigarette machine device 2 works, and then air flow is generated in the air duct.

The above embodiments are merely preferred embodiments of the present invention, and other embodiments are also possible. Equivalent modifications or substitutions may be made by those skilled in the art without departing from the spirit of the invention, and such equivalent modifications or substitutions are intended to be included within the scope of the claims set forth herein.

Claims (8)

1. The utility model provides an air guide seat wind channel structure of integrated kitchen of going up formula, its characterized in that: comprises an integrated kitchen cabinet (1) for arranging cooking utensils and an air guide seat (3) for transmitting air flow; an integrated air duct (302) and an exhaust air duct (305) are arranged on the air guide seat (3); the air outlet end of the integrated air duct (302) is communicated with the outside; one end of the exhaust air duct (305) is communicated with the inner cavity of the integrated stove cabinet (1), and the other end of the exhaust air duct (305) is communicated with the integrated air duct (302); the integrated stove cabinet (1) and/or the air guide seat (3) are/is provided with an air inlet (303) communicated with the inner cavity of the integrated stove cabinet (1); the airflow sequentially passes through the air inlet (303), the inner cavity of the integrated kitchen cabinet (1), the exhaust air duct (305) and the integrated air duct (302).

2. The air guide seat duct structure of the upper-row integrated cooker according to claim 1, wherein: the integrated hob cabinet (1) comprises a cooking hob (101) and a cooking hob cabinet (102); a first accommodating cavity (103) for accommodating cooking appliances is arranged on the cooking top (101); a second accommodating cavity (107) for accommodating cooking appliances is arranged on the cooking stove cabinet (102); the first accommodating cavity (103) is communicated with the second accommodating cavity (107), the air inlet (303) is communicated with the first accommodating cavity (103) and/or the second accommodating cavity (107), and the first accommodating cavity (103) and/or the second accommodating cavity (107) are communicated with the exhaust air duct (305) through the air guide pipe (6).

3. The air guide seat duct structure of the upper-row integrated cooker according to claim 2, wherein: an exhaust cavity (106) is arranged on the cooking top (101), the first accommodating cavity (103) is communicated with the exhaust cavity (106) through a first vent hole (1041), and the second accommodating cavity (107) is communicated with the exhaust cavity (106) through a second vent hole (105); the air inlet (303) and the air exhaust duct (305) are respectively communicated with the air exhaust cavity (106).

4. The air guide seat duct structure of the upper-row integrated cooker according to claim 1, wherein: the air guide seat (3) is provided with a steam interface (304) communicated with an exhaust air duct (305), and a steam discharge port (501) on the cooking utensil is communicated with the steam interface (304) through a steam pipe body (7).

5. The air guide seat duct structure of the upper-row integrated cooker according to claim 1, wherein: a first partition plate (306) is arranged on the air guide seat (3), and the first partition plate (306) divides the inner cavity of the air guide seat (3) into the integrated air duct (302) and the exhaust air duct (305); the first partition plate (306) is provided with a partition plate through hole (3061), and the exhaust air duct (305) is communicated with the integrated air duct (302) through the partition plate through hole (3061).

6. The air guide seat duct structure of the upper-row integrated cooker according to claim 5, wherein: a second clapboard (307) is arranged on the air guide seat (3), and the second clapboard (307) divides the inner cavity of the air guide seat (3) into an air inlet cavity (308); the air inlet (303) is arranged on the air guide seat (3), one end of the air inlet cavity (308) is communicated with the air inlet (303), and the other end of the air inlet cavity (308) is communicated with the inner cavity of the integrated stove cabinet (1).

7. The air guide seat duct structure of the upper-row integrated cooker according to claim 1, wherein: the air guide seat (3) is provided with a smoke inlet (301) communicated with the air inlet end of the integrated air duct (302).

8. The air guide seat duct structure of the upper-row integrated cooker according to claim 1, wherein: a smoke machine device (2) used for forming air convection is arranged on the air guide seat (3), an air inlet end of the smoke machine device (2) is communicated with an air outlet end of the integrated air duct (302), and an air outlet end of the smoke machine device (2) is communicated with the outside.

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