CN218390807U - Hot air assembly mounting structure of air fryer - Google Patents

Abstract

The utility model discloses a hot-blast subassembly mounting structure of air fryer, including separate heat exchanger (2) and locate the hot-blast subassembly in separating heat exchanger (2), hot-blast subassembly including heating tube (3) and thermal cycle fan (6), its characterized in that: the heating tube (3) is basically annular, a cavity (31) is formed in the middle of the heating tube (3), and at least part of the heat circulation fan (6) is accommodated in the cavity (31). Compared with the prior art, the utility model discloses a hot-blast subassembly mounting structure of air fryer can reduce hot-blast subassembly occupation space.

Description

Hot air assembly mounting structure of air fryer

Technical Field

The utility model relates to a kitchen equipment technical field specifically indicates a hot-blast subassembly mounting structure of air fryer.

Background

The air fryer is a novel household appliance for frying food by utilizing a high-speed and high-temperature air circulation technology, the oil of the food made by the air fryer can be reduced by 80 percent compared with that of the traditional electric fryer, and the air fryer is easy to clean in daily use, is safe and economical and is favored by people.

Current air fryer generally includes the organism, be formed with the culinary art cavity in the organism, be equipped with the hot-blast subassembly that can send into high-temperature air to culinary art cavity inside in the organism, be equipped with the pot body that is used for holding food in the culinary art cavity, the high-temperature hot-blast that utilizes hot-blast subassembly during operation to produce heats the edible material in the pot, hot-air and food fully contact, utilize the food surface to lose moisture fast in the twinkling of an eye, or in addition the grease that food self produced, make the food surface form crisp taste, the effect of being fried appears. Specifically, see the utility model patent application No. cn202220364018.X (publication No. CN 216932833U) entitled "air fryer for cooling casing", a hot air assembly composed of a heat circulation fan and a heating tube blows hot air to food materials, takes away moisture in food and heats food.

However, in the above scheme, the heat circulation fan is arranged above the heating pipe, and the space occupied by the hot air component along the vertical direction is larger.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that to prior art's current situation, provide a can reduce hot-blast subassembly mounting structure of air fryer of hot-blast subassembly occupation space.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: the utility model provides a hot-blast subassembly mounting structure of air fryer, including separate the heat exchanger and locate the hot-blast subassembly in separating the heat exchanger, hot-blast subassembly including heating tube and thermal cycle fan, its characterized in that: the heating tube is basically annular, a cavity is formed in the middle of the heating tube, and at least part of the thermal circulation fan is accommodated in the cavity.

In order to blow heat generated by the heating pipe in all directions, the heat circulation fan is basically positioned on the horizontal plane where the heating pipe is positioned.

In order to simplify the structure and reduce the cost, the device also comprises

The cover is arranged on the outer side of the heat shield;

the motor is arranged between the cover and the heat shield, is arranged on the top wall of the heat shield and is provided with an upper output shaft extending upwards and a lower output shaft extending downwards, and the lower output shaft penetrates through the top wall of the heat shield and extends into the heat shield; and

the cooling fan is arranged between the cover and the heat shield and is connected with the upper output shaft;

the heat circulation fan is connected with the lower output shaft.

In order to conveniently introduce external cold air to cool each part, the top of the cover is provided with an air inlet, the side part of the cover is provided with an air outlet, and the cooling fan is right opposite to the air inlet and used for sucking external atmosphere through the air inlet and discharging the external atmosphere through the air outlet.

In order to avoid the steam in the heat shield to get into the cover and influence the motor work between the heat shield, the lateral part of cover has the air exit, the lateral part of heat shield has the steam extraction mouth, is connected with exhaust duct between this steam extraction mouth and the air exit.

In order to avoid external impurities to enter the exhaust pipeline, the air outlet end of the exhaust pipeline is inserted into the air outlet, an air outlet cover is arranged at the port of the air outlet end of the exhaust pipeline, and at least two air outlet holes are formed in the air outlet cover at intervals.

In order to improve the aesthetic property, the air outlet cover with the cover is located the smooth transition of outer wall in air exit periphery.

In order to improve the steam discharging efficiency, the steam discharging port is basically positioned on the horizontal plane of the thermal circulation fan.

In order to facilitate the installation of the motor and compress the installation space, a concave part is formed in the middle of the top wall of the heat shield in a downward pressing mode, and the motor is installed on the bottom surface inside the concave part.

Compared with the prior art, the utility model has the advantages of: the heating pipe is arranged into a ring shape, so that a cavity is formed in the middle of the heating pipe, and at least part of the heat circulation fan is accommodated in the cavity, so that the occupied space of the hot air component in the height direction can be reduced.

Drawings

FIG. 1 is a schematic perspective view of an embodiment of a hot air assembly mounting structure of an air fryer according to the present invention;

FIG. 2 is an exploded perspective view of FIG. 1;

fig. 3 is a longitudinal sectional view of fig. 1.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

Fig. 1 to 3 show a preferred embodiment of the hot air component mounting structure of the air fryer according to the present invention.

Wherein, the top of the cover 1 is provided with an annular air inlet 11, and the side part of the cover 1 is provided with an air outlet 12 and an air outlet 13 which are arranged at intervals.

The heat shield 2 is arranged in the cover 1, a concave part 21 is formed at the middle position of the top wall of the heat shield 2 in a downward pressing mode, an exhaust port 22 is formed in the rear side of the heat shield 2, and the exhaust port 22 is opposite to the air outlet 13.

The heating tube 3 is arranged in the heat shield 2. In this embodiment, the heating tube 3 is substantially annular, and a cavity 31 is formed in the middle of the heating tube 3.

The motor 4 is provided between the lid 1 and the heat shield 2, is installed on the bottom surface inside the recess 21, and has an upper output shaft 41 extending upward and a lower output shaft 42 extending downward, the lower output shaft 42 extending into the heat shield 2 through the top wall of the heat shield 2.

The cooling fan 5 is disposed between the cover 1 and the heat shield 2, and is connected to the upper output shaft 41, and the cooling fan 5 is disposed opposite to the air inlet 11, so as to suck the outside air through the air inlet 11 and discharge the air through the air outlet 12.

The heat circulation fan 6 is provided in the heat shield 2 and connected to the lower output shaft 42. The heat circulation fan 6 is matched with the heating pipe 3 to form a hot air assembly to blow hot air to food materials, and the hot air takes away water in the food and heats the food, so that the effect and the taste of frying various foods, chips, fishes and other fried foods are achieved. In addition, the heat circulation fan 6 is accommodated in the cavity 31 in the middle of the heating tube 3 and is basically positioned on the horizontal plane where the heating tube 3 is positioned, so that on one hand, the occupied space of the hot air component along the height direction can be reduced, and on the other hand, the heat generated by the heating tube 3 can be blown away towards all directions; the exhaust port 22 of the heat shield 2 is substantially at the level of the heat cycle fan 6, thereby facilitating the exhaust.

The exhaust duct 7 is connected between the exhaust port 22 and the exhaust port 13, the air outlet end of the exhaust duct 7 is inserted in the exhaust port 13, the port of the air outlet end of the exhaust duct 7 is provided with an air outlet cover 71, the air outlet cover 71 is provided with at least two air outlet holes 711 arranged at intervals, and the outer walls of the air outlet cover 71 and the cover 1 positioned on the periphery of the exhaust port 13 are in smooth transition.

The working principle of the embodiment is as follows: the air fryer is started, the motor 4 drives the cooling fan 5 and the heat circulation fan 6 to rotate, the heating pipe 3 generates heat, on one hand, under the action of the cooling fan 5, the outside atmosphere is sucked in through the air inlet 11 and discharged through the air outlet 12, all the parts, particularly the cover 1, are cooled, on the other hand, the heat circulation fan 6 is matched with the heating pipe 3 to form a hot air assembly to blow hot air to food materials, moisture in the food is taken away through the hot air and the food is heated, and water vapor in the heat insulation cover 2 is discharged through the exhaust pipeline 7;

firstly, the heat circulation fan 6 is accommodated in the cavity 31 in the middle of the heating tube 3, so that the space occupied by the hot air component along the height direction can be reduced, and the height of the upper machine body of the air fryer can be greatly compressed;

secondly, because motor 4 direct mount is on the roof of heat exchanger 2 that separates, can save the setting of original wind scooper, simple structure and with low costs.

Claims (9)

1. The utility model provides a hot-blast subassembly mounting structure of air fryer, is including separating heat exchanger (2) and locating the hot-blast subassembly in separating heat exchanger (2), hot-blast subassembly including heating tube (3) and thermal circulation fan (6), its characterized in that: the heating tube (3) is annular, a cavity (31) is formed in the middle of the heating tube (3), and at least part of the heat circulation fan (6) is accommodated in the cavity (31).

2. The hot air assembly mounting structure for an air fryer according to claim 1, wherein: the heat circulation fan (6) is positioned on the horizontal plane where the heating pipe (3) is positioned.

3. The hot air assembly mounting structure for an air fryer according to claim 1, wherein: the heat insulation cover is characterized by also comprising a cover (1) arranged on the outer side of the heat insulation cover (2);

the motor (4) is arranged between the cover (1) and the heat shield (2), is arranged on the top wall of the heat shield (2), is provided with an upper output shaft (41) extending upwards and a lower output shaft (42) extending downwards, and the lower output shaft (42) penetrates through the top wall of the heat shield (2) and extends into the heat shield (2); and

the cooling fan (5) is arranged between the cover (1) and the heat shield (2) and is connected with the upper output shaft (41);

the heat circulation fan (6) is connected with the lower output shaft (42).

4. The hot air assembly mounting structure for an air fryer according to claim 3, wherein: the top of cover (1) is equipped with air intake (11), and the lateral part of cover (1) has air outlet (12), cooling fan (5) just right air intake (11) set up for inhale and discharge through air outlet (12) with external atmosphere through air intake (11).

5. The hot air assembly mounting structure for an air fryer according to claim 3, wherein: the lateral part of cover (1) has air exit (13), the lateral part that separates heat exchanger (2) has exhaust steam port (22), is connected with exhaust duct (7) between this exhaust steam port (22) and air exit (13).

6. The hot air assembly mounting structure for an air fryer according to claim 5, wherein: the air outlet end of the air exhaust pipeline (7) is inserted into the air outlet (13), an air outlet cover (71) is arranged at the port position of the air outlet end of the air exhaust pipeline (7), and at least two air outlet holes (711) are formed in the air outlet cover (71) at intervals.

7. The hot air assembly mounting structure for an air fryer according to claim 6, wherein: the air outlet cover (71) and the cover (1) are located on the outer wall of the periphery of the air outlet (13) in a smooth transition mode.

8. The hot air assembly mounting structure for an air fryer according to claim 5, wherein: the steam exhaust port (22) is positioned on the horizontal plane where the heat circulation fan (6) is positioned.

9. The hot air assembly mounting structure for an air fryer according to any one of claims 3 to 8, wherein: a concave part (21) is formed in the middle of the top wall of the heat shield (2) in a downward pressing mode, and the motor (4) is installed on the bottom surface inside the concave part (21).

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