CN215838485U - Air fryer with outlet structure - Google Patents

Abstract

The utility model discloses an air fryer with a wire outlet structure, which comprises an upper shell and a lower shell, wherein a heating cavity is arranged in the lower shell, a heating assembly is arranged at the bottom end of the upper shell, and the upper shell is used for covering the heating cavity so as to heat the heating cavity by the heating assembly; and the upper shell is provided with a wire outlet structure, and the wire outlet structure is used for guiding a power wire of the heating assembly to be led out of the upper shell. According to the air fryer with the wire outlet structure, the power wire of the heating assembly can be led out from the upper shell, so that the wiring length is reduced.

Description

Air fryer with outlet structure

Technical Field

The utility model relates to the technical field of household appliances, in particular to an air fryer with a wire outlet structure.

Background

At present, the working principle of an air fryer is a high-speed air circulation technology, hot air is generated by heating a heat pipe in a machine at a high temperature, then the high-temperature air is blown into the fryer by a fan to heat food, the hot air circulates in a closed space, the food is fried by using the grease of the food, so that the food is dehydrated, the surface of the food becomes golden and crisp, and the frying effect is achieved.

However, in the existing market, the power line of most of the electric components is led out and arranged on the base of the lower shell, but the control part of the electric equipment is arranged on the upper shell, which causes the wiring process to be complicated and increases the cost of the lead.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide an air fryer with a wire outlet structure, wherein a power wire of a heating assembly can be led out from an upper shell, and the length of a wire connection is reduced.

The purpose of the utility model is realized by adopting the following technical scheme:

the air fryer with the wire outlet structure comprises an upper shell and a lower shell, wherein a heating cavity is arranged in the lower shell, a heating assembly is arranged at the bottom end of the upper shell, and the upper shell is used for covering the heating cavity in a sealing manner so that the heating assembly heats the heating cavity; and the upper shell is provided with a wire outlet structure, and the wire outlet structure is used for guiding a power wire of the heating assembly to be led out of the upper shell.

Further, be equipped with the installation cavity in the upper shell, heating element install in the below of installation cavity, heating element's power cord penetrates the installation cavity, outlet structure locates the installation cavity lateral part and link up with the installation cavity to guide heating element's power cord is derived.

Furthermore, a thermal circulation fan is arranged on the upper shell, is pivoted below the mounting cavity and is positioned above the heating assembly; the installation cavity is internally provided with a motor, the motor is used for driving the thermal circulation fan to rotate, and a power line of the motor is led out by the outlet structure.

Furthermore, a cooling fan is arranged in the mounting cavity, and a rotating shaft of the motor is connected with the cooling fan.

Furthermore, the outlet structure comprises an outlet seat, a guide piece is arranged in the outlet seat, the guide piece is used for dividing the outlet seat into an outlet cavity and an air outlet cavity, and the outlet cavity is used for guiding a power line of the heating assembly to penetrate out; the air outlet cavity is communicated with the mounting cavity.

Furthermore, the bottom end of the wire outlet cavity is provided with a wire pressing sheet, and the wire pressing sheet is used for being pressed to a power supply wire of the heating assembly.

Further, the guide piece is gradually inclined from inside to outside, an air outlet is formed in the top end of the wire outlet seat, and the air outlet is communicated with the air outlet cavity.

Further, the upper shell comprises a heat shield and a top shell, the peripheral edge of the top shell is connected with the peripheral edge of the heat shield, and the top shell and the heat shield form the installation cavity at intervals; the heating assembly is arranged below the heat shield.

Furthermore, the side part of the top shell is provided with an installation opening, and the wire outlet structure is installed at the installation opening.

Further, the heating assembly is a heating coil.

Compared with the prior art, the utility model has the beneficial effects that: the outlet structure arranged on the upper shell can guide the power line of the heating component to be led out from the upper shell, so that the wiring length is saved, and the assembly process of the power line can be further simplified due to the fact that the wiring length is reduced.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an exploded view of the present invention;

fig. 3 is a cross-sectional view of the present invention.

In the figure: 10. a lower housing; 20. an upper housing; 21. a heat shield; 30. a heating assembly; 40. a wire outlet seat; 41. a guide piece; 42. pressing line sheets; 43. an air outlet; 50. a power line; 60. a thermal circulation fan; 70. a motor; 80. a heat dissipation fan.

Detailed Description

The utility model will be further described with reference to the accompanying drawings and the detailed description below:

in the description of the present invention, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

As shown in fig. 1, 2 and 3, the air fryer with a wire outlet structure includes an upper casing 20 and a lower casing 10, a heating cavity is disposed in the lower casing 10, a heating element 30 is disposed at a bottom end of the upper casing 20, and the upper casing 20 can be covered on the heating cavity, so that the heating element 30 heats the heating cavity. In particular, the upper housing 20 is provided with an outlet structure, which can guide the power line 50 of the heating assembly 30 out of the upper housing 20.

On the basis of the structure, when the air fryer with the wire outlet structure is used, a cooker can be placed in the heating cavity of the lower shell 10, an external commercial power can be connected to the power line 50 of the heating assembly 30, and the heating assembly 30 heats the air in the heating cavity, so that food in the cooker can be cooked.

It should be noted that the wire outlet structure of the upper housing 20 can guide the power line 50 of the heating assembly 30 to be led out from the upper housing 20, and the power line 50 of the heating assembly 30 is not required to be led out from the lower housing 10, so that the overall wiring length of the power line 50 of the heating assembly 30 only needs to reserve the wiring length in the upper housing 20, and does not need to be wired in the lower housing 10, thereby saving the wiring length, and the assembly process of the power line 50 can be further simplified because the wiring length is reduced.

Certainly, a control circuit board for controlling the start and stop of the heating assembly 30 may be disposed in the upper housing 20, and the power line 50 of the heating assembly 30 may be connected through the control circuit board and then led out through the outlet structure, so as to control the operation of the heating assembly 30.

Further, in the embodiment, an installation cavity is provided in the upper housing 20, the heating element 30 is installed below the installation cavity, the power line 50 of the heating element 30 can penetrate into the installation cavity, and the outlet structure is provided at a side portion of the installation cavity and communicated with the installation cavity, so that the power line 50 of the heating element 30 can be guided out from a side portion of the upper housing 20 by being guided by the outlet structure after passing through the installation cavity.

Thus, the heating element power cord 50 of the heating cavity can be isolated from the heat in the heating cavity through the space of the installation cavity, and the power cord 50 of the heating element 30 is prevented from being heated to scald the outer skin of the power cord 50, so that the internal circuit cannot be influenced.

Further, a heat circulation fan 60 may be further provided on the upper case 20, the heat circulation fan 60 is pivotally connected to a lower portion of the installation cavity, and the heat circulation fan 60 is installed above the heating assembly 30. In addition, a motor 70 is arranged in the installation cavity, a rotating shaft of the motor 70 can penetrate through the bottom wall of the installation cavity and is connected with the thermal circulation fan 60, the motor 70 can drive the thermal circulation fan 60 to rotate, and similarly, a power line 50 of the motor 70 is led out by an outlet structure.

On this structure basis, when cooking the operation, but starter motor 70, motor 70's pivot can drive heat cycle fan 60 and rotate, and heat cycle fan 60 rotates alright drive the hot-air flow in the heating chamber, and the hot-air of circulation flow can carry out better culinary art to the food of the pot body, and hot-air utilization is higher. In addition, a motor 70 for driving the heat circulation fan 60 is installed in the installation chamber to be spaced apart from the heating chamber, thereby preventing the operation of the motor 70 from being affected by heat in the heating chamber.

In addition, on the basis of the structure in which the above-described control circuit board is provided in the upper case 20, the power line 50 of the motor 70 can be connected to the control circuit board and led out together through the outlet structure.

Specifically, still can be equipped with radiator fan 80 in the installation cavity, be connected motor 70's pivot and radiator fan 80, so, when motor 70 during operation, can drive radiator fan 80 and thermal cycle fan 60 simultaneously and rotate, thermal cycle fan 60 that is located the heating intracavity can drive thermal cycle fan 60 that the heating intracavity flows, and radiator fan 80 that is located the installation cavity can drive the air flow of installation intracavity, realizes the heat dissipation, prevents that the installation intracavity temperature from receiving the heating chamber and influencing too high.

Further, the wire outlet structure in this embodiment includes a wire outlet seat 40, specifically, a guiding sheet 41 is disposed in the wire outlet seat 40, the guiding sheet 41 can divide the wire outlet seat 40 into a wire outlet cavity and a wind outlet cavity, and the wire outlet cavity is used for guiding the power line 50 of the heating assembly 30 to pass through; the air outlet cavity is communicated with the mounting cavity, on the basis of the structure, the power line 50 of the motor 70 and the power line 50 of the heating assembly 30 can be led out through the air outlet cavity of the air outlet seat 40, and the hot air can be led out through the air outlet cavity in the rotating process of the heat dissipation fan 80, so that the power line 50 and the led-out hot air can be separated by the guide sheet 41, and the outer skin of the power line 50 can be prevented from being scalded by the hot air led out by the heat dissipation fan 80.

Of course, the outlet structure may be implemented by directly selecting an outlet provided on the upper housing, or may be implemented by selecting a wire sleeve structure, or in short, may be provided on the upper housing to extract a power line.

Further, still can be equipped with line ball piece 42 in the bottom in the chamber of being qualified for the next round of competitions, with line ball piece 42 crimping to heating element 30 on the power cord 50, specifically, because power cord 50 rocks the easy wearing and tearing of in-process for a long time, the line contact condition such as bad appears easily, therefore power cord 50 after the assembly alright compress tightly through line ball piece 42, prevent that power cord 50 from rocking. Of course, after the wire pressing piece 42 is pressed on the power wire 50 of the heating assembly 30, the wire pressing piece 42 can be assembled on the wire outlet seat 40 by a screw or the like.

Further, above-mentioned guide plate 41 is from interior to exterior towards the slope gradually, top at the seat of being qualified for the next round of competitions 40 is equipped with air outlet 43, air outlet 43 and air-out chamber intercommunication, so, when radiator fan 80 operation, radiator fan 80 can guide the air current to go out the wind chamber, the air current in the air-out intracavity can be derived upwards through guide plate 41, derive through the air outlet 43 on top, because guide plate 41 is from interior to exterior upwards slope gradually, therefore at the in-process that the air current flows, can keep away from power cord 50 that is located the below gradually, make power cord 50's thermal-insulated effect better.

Further, the upper casing 20 in this embodiment includes the heat shield 21 and the top shell, and when assembling, the outer peripheral edge of the top shell is connected with the outer peripheral edge of the heat shield 21, so, can form the installation cavity with the interval between the top shell and the heat shield 21, on this structural basis, locate the heating element 30 below the heat shield 21, that is to say, the installation cavity can be separated from the heating cavity through the heat shield 21, and the thermal-insulated effect in the installation cavity is better, and specific heat shield 21 can be made of heat-insulating material.

Of course, the assembly of the top shell and the heat shield 21 can be realized by arranging a plurality of corresponding assembly holes on the peripheral edges of the top shell and the heat shield 21, and connecting screws in the corresponding hole sites in a penetrating manner to assemble and transition the screws, so that the assembly and disassembly are convenient, and the maintenance of parts in the installation cavity is convenient.

Furthermore, the side part of the top shell can be provided with an installation opening, when the wire outlet structure is assembled, the wire outlet structure is installed at the installation opening, and under the condition that the wire outlet structure is the wire outlet seat 40, the wire outlet seat 40 can be embedded in the installation opening, so that the assembly and disassembly are convenient.

Certainly, the heating assembly 30 in this embodiment is a heating coil, and the heating coil is coiled at the bottom end of the upper housing 20, so that the heating effect is uniform. In addition, the heating assembly 30 may be implemented by other structures in the prior art, such as a heating wire and an infrared heating tube in the prior art.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes should fall within the scope of the claims of the present invention.

Claims (10)

1. The air fryer with the wire outlet structure comprises an upper shell and a lower shell, wherein a heating cavity is arranged in the lower shell, a heating assembly is arranged at the bottom end of the upper shell, and the upper shell is used for covering the heating cavity in a sealing manner so that the heating assembly heats the heating cavity; the heating component is characterized in that the upper shell is provided with a wire outlet structure, and the wire outlet structure is used for guiding a power wire of the heating component to be led out of the upper shell.

2. The air fryer with the outlet structure according to claim 1, wherein a mounting cavity is formed in the upper shell, the heating assembly is mounted below the mounting cavity, a power line of the heating assembly penetrates into the mounting cavity, and the outlet structure is arranged on the side of the mounting cavity and communicated with the mounting cavity so as to guide the power line of the heating assembly to be led out.

3. The air fryer having an outlet structure according to claim 2, wherein a thermal circulation fan is provided on said upper housing, said thermal circulation fan being pivotally connected below said mounting cavity and above said heating element; the installation cavity is internally provided with a motor, the motor is used for driving the thermal circulation fan to rotate, and a power line of the motor is led out by the outlet structure.

4. The air fryer with outlet structure according to claim 3, wherein a heat dissipation fan is arranged in said mounting cavity, and a rotating shaft of said motor is connected with said heat dissipation fan.

5. The air fryer with outlet structure according to any one of claims 2-4, wherein the outlet structure comprises an outlet seat, a guiding sheet is arranged in the outlet seat, the guiding sheet is used for dividing the outlet seat into an outlet cavity and an outlet cavity, and the outlet cavity is used for guiding a power line of the heating assembly to pass out; the air outlet cavity is communicated with the mounting cavity.

6. The air fryer with outlet structure according to claim 5, wherein the bottom end of the outlet cavity is provided with a line pressing piece, and the line pressing piece is used for being pressed to a power line of the heating assembly.

7. The air fryer with outlet structure of claim 5, wherein said guiding plate is gradually inclined from inside to outside, and an air outlet is arranged at the top end of said outlet seat and is communicated with said air outlet cavity.

8. The air fryer having a wire outlet structure according to any one of claims 2-4, wherein the upper housing comprises a heat shield and a top shell, the outer peripheral edge of the top shell is connected with the outer peripheral edge of the heat shield, and the installation cavity is formed between the top shell and the heat shield at a spacing; the heating assembly is arranged below the heat shield.

9. The air fryer of claim 8, wherein said top shell has a mounting opening in a side portion thereof, said outlet structure being mounted to said mounting opening.

10. The air fryer having an outlet structure according to any one of claims 1 to 4, wherein said heating element is a heating coil.

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