CN214048460U - Base and cooking utensil - Google Patents

Abstract

The utility model provides a base and cooking utensil. Wherein, the base includes: a placing platform having a placing plane; the air guide shell is arranged on one side of the placing platform in the horizontal direction and protrudes upwards out of the placing platform, an air channel is arranged in the air guide shell, and an air inlet and an air outlet which are communicated with the air channel are formed in the air guide shell; and the hot air generating device is arranged in the air duct of the air guide shell. Use the technical scheme of the utility model the pot that can solve effectively among the correlation technique is not convenient for the problem of taking.

Description

Base and cooking utensil

Technical Field

The utility model relates to a small household electrical appliances field particularly, relates to a base and cooking utensil.

Background

The current cooking appliances for cooking by baking are generally in a vertical structure, and the cooking appliances adopting the vertical structure generally comprise an appliance body and a cover body covering the appliance body. Wherein, a cooker is arranged in the utensil body, and food is arranged in the cooker. Be provided with fan and heating device in the lid, fan drive area moves the air current and blows to heating device and form hot-blastly, and hot-blastly enter into the pan, toast the culinary art to the food in the pan. Adopt this kind of vertical structure's cooking utensil on the one hand can make cooking utensil's height higher, and the vertical space that needs to occupy when placing is great, is not convenient for accomodate. On the other hand, when the fan rotates at a high speed in the lid, the center of gravity of the cooking utensil is liable to be unstable, and the cooking utensil may topple over.

In order to solve the above problems, a cooking appliance in which a fan is installed in an appliance body in such a manner that the height of the cooking appliance can be reduced and the cooking appliance can be conveniently stored has been devised in the related art. In addition, because the height of the cooking utensil is reduced, when the fan rotates in the utensil body, the gravity center of the cooking utensil is relatively stable, and the probability of toppling is reduced. However, the cookware body and the cookware of the cooking utensil in the related art are deep, so that a user needs to hold the upper edge of the cookware when moving the cookware out of the cookware body, move the cookware upwards firstly until the bottom of the cookware moves out of the upper surface of the cookware body, and then move the cookware horizontally, so that the cookware is taken out. This way of fetching is inconvenient for the user to operate, resulting in poor user experience.

SUMMERY OF THE UTILITY MODEL

A primary object of the present invention is to provide a base and a cooking utensil to solve the problem that the cookware in the prior art is not convenient to take.

In order to achieve the above object, according to an aspect of the present invention, there is provided a base including: a placing platform having a placing plane; the air guide shell is arranged on one side of the placing platform in the horizontal direction and protrudes upwards out of the placing platform, an air channel is arranged in the air guide shell, and an air inlet and an air outlet which are communicated with the air channel are formed in the air guide shell; and the hot air generating device is arranged in the air duct of the air guide shell.

Use the technical scheme of the utility model, because the wind-guiding shell only sets up one side (like the rear side) on place the platform's horizontal direction, consequently when the pan on the place the platform of taking, can shift out by place the platform's front side, left side or right side level. Above-mentioned structure makes the user needn't upwards move the upper surface to the utensil body that provides in the background when taking the pan again, therefore above-mentioned structure can reduce the distance that the user upwards moved the pan to be convenient for user operation has promoted user's use and has experienced.

Further, a placing groove which is concave downwards is arranged on the placing plane. In the structure, the cookware can be placed in the placing groove, and the side wall of the placing groove can limit the cookware, so that the cookware and the placing platform are prevented from moving relatively.

Further, the depth of the placing groove is between 3mm and 30 mm. In the above-mentioned structure, if the degree of depth of standing groove is too big, then can lead to the pan when taking the distance of rebound too big to the user of not being convenient for takes. If the degree of depth undersize of standing groove then can lead to the standing groove not good to the spacing effect of pan for take place relative movement between pan and the place the platform.

Further, the hot wind generating device includes: the shell comprises a cover body and a cover plate connected with the cover body, an opening is formed in the rear side wall of the cover body, and the cover plate covers the opening; the heating component is arranged in the shell; the temperature sensing assembly is contacted with the heating assembly, and the heating assembly and the temperature sensing assembly are clamped between the cover body and the cover plate; and the fan is arranged in the shell. The assembling mode is simple, and the time for the overall assembly of the hot air generating device can be effectively reduced, so that the assembling efficiency is improved.

Further, the cover body includes the cover body and sets up in the installation section of thick bamboo of cover body top, and the opening sets up on the rear side wall of cover body, and heating element upwards wears to locate in the installation section of thick bamboo, is provided with on the rear side wall of installation section of thick bamboo and dodges the mouth, and the apron is including covering the apron body of locating the opening part and the spacing frame that upwards extends, and temperature sensing subassembly wears to locate to dodge mouthful and presss from both sides and establish between spacing frame and heating element. The temperature sensing assembly can be stably clamped between the heating assembly and the limiting frame by the aid of the structure, and the temperature inaccuracy of the heating assembly measured by the temperature sensing assembly due to the fact that a gap is generated between the temperature sensing assembly and the heating assembly is avoided. In addition, the assembling mode is simple, the time for the overall assembly of the hot air generating device can be effectively shortened, and the assembling efficiency is improved.

Further, the apron still includes connects the platform, connects the platform to set up on the rear side external surface of apron body, and spacing setting is provided with the strengthening rib between connection platform and the apron body on connecting the platform. In the structure, because the temperature sensing assembly is arranged at the rear side of the heating assembly, the position of the limiting frame is closer to the rear side than the cover plate body, the connecting platform extending backwards is arranged on the outer surface of the rear side of the cover plate body, the limiting frame is arranged on the connecting platform, the limiting frame can be matched with the temperature sensing assembly conveniently, and therefore the limiting frame can limit the temperature sensing assembly in the front and rear directions conveniently. In addition, the reinforcing ribs are arranged to enhance the strength of the cover plate, reduce the deformation of the limiting frame and ensure that the temperature sensing assembly can be firmly clamped between the limiting frame and the heating assembly.

Further, the temperature sensing assembly comprises a temperature sensing probe, the temperature sensing probe comprises a temperature sensing probe body and a protective sleeve sleeved outside the temperature sensing probe body, the protective sleeve is attached to the mouth wall of the dodging opening, the limiting frame comprises a first limiting frame, a U-shaped groove extending downwards is formed in the first limiting frame, and the rear end of the temperature sensing probe body is limited in the U-shaped groove. The temperature-sensing probe is limited in the front-back direction by the first limiting frame, the temperature-sensing probe is limited in the left-right direction of the base by the U-shaped groove, and the temperature-sensing probe can be stably abutted to the heating component on the basis of installation of the temperature-sensing probe, so that the accuracy of the temperature measured by the temperature-sensing probe is improved.

Further, the temperature sensing assembly further comprises a temperature protection probe, the temperature protection probe comprises a temperature protection probe body and support legs arranged on two sides of the temperature protection probe body, the limiting frame further comprises a second limiting frame, a through groove extending along the horizontal direction in the front-back direction of the perpendicular is formed in the second limiting frame, the temperature protection probe body is connected in the through groove, and the support legs extend out of the through groove and are electrically connected with the heating assembly. The structure can improve the connection stability of the temperature protection probe.

Further, the heating element includes heating shell and sets up the heater strip in heating shell, heating shell wears to locate on the roof of casing, wear to be provided with the overflow mouth on the lateral wall of the heating shell of casing, the roof of wind-guiding shell includes front end plate and back end plate and connects two relative connecting plates between front end plate and back end plate, the front end plate, enclose into the air outlet between back end plate and two connecting plates, the heating element stretches out from the air outlet, the front end plate is less than the overflow mouth, the temperature sensing subassembly is located the below of back end plate. In the structure, the temperature sensing component is positioned behind the heating component, and is positioned below the rear end plate after the hot air generating device is arranged in the air guide shell. In order to provide a sufficient accommodating space for the temperature sensing assembly, the rear end plate is higher than the front end plate, so that the air guide shell has a sufficient space in the vertical direction to accommodate the temperature sensing assembly.

Further, the connecting plate is obliquely arranged. The structure is simple, and the front end plate and the rear end plate are convenient to connect. Of course, in other embodiments not shown in the figures, the connecting plates may be stepped. But the connection plate that sets up in the slope is better than the connection plate that is the echelonment setting.

Further, the height of the connecting plate is between 5mm and 20 mm; in the structure, the height of the connecting plate is the height of the rear end plate higher than the front end plate. Because the temperature sensing subassembly is located the below of back end plate, only the height of connecting plate is high enough, just can provide sufficient accommodation space for the temperature sensing subassembly. Of course, if the height of the rear end plate is too high, the volume of the base is increased, and the production material is wasted. And/or the angle alpha between the connecting plate and the front end plate is 10-45 degrees. In the above structure, if the included angle α is too large, the height of the rear end plate is too high, which increases the volume of the base and wastes production materials. If the angle of contained angle alpha is undersize, then can lead to the height of back end plate to hang down excessively for the accommodation space of the below of back end plate is not enough, leads to temperature sensing assembly's installation difficulty.

Furthermore, a pressure plate extending upwards is arranged on the position, close to the opening wall of the rear end plate, of the air outlet, and the pressure plate is in compression joint with the top of the cover body. In the above structure, if the position where the hot air generating device is installed is too high, the cover body is difficult to cover. The pressing plate is arranged to be matched with the top of the cover body in a compression joint mode, so that the hot air generating device is accurately installed in the position, and the cover body can be smoothly covered.

According to another aspect of the present invention, there is provided a cooking appliance, including: the base is the base; the pan sets up on the place plane of the place platform of base, has the culinary art chamber in the pan, the air outlet and the culinary art chamber intercommunication of the wind-guiding shell of base. The lid is arranged on the base and the cooker. In the structure, the base has the advantage of being convenient for a user to take the cookware, so that the cooking utensil with the base also has the advantages.

Drawings

The accompanying drawings, which form a part of the present application, 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 invention and not to limit the invention. In the drawings:

fig. 1 shows a schematic longitudinal section of an embodiment of a base according to the invention;

fig. 2 shows a schematic perspective view of the placement platform and the wind guiding shell of the base of fig. 1;

FIG. 3 illustrates a front view of the placement platform and wind-guiding shell of FIG. 2;

fig. 4 shows a schematic perspective view of the hot air generating device of the base of fig. 1;

FIG. 5 shows a top view of the hot air generating device of FIG. 4;

FIG. 6 shows a cross-sectional view taken along A-A of the hot wind generating apparatus of FIG. 5;

fig. 7 shows an enlarged schematic structural view at the hot wind generating device B of fig. 6;

FIG. 8 shows a front view of the hot air generating device of FIG. 4;

FIG. 9 shows a cross-sectional view taken along line C-C of the hot air generating device of FIG. 8; and

fig. 10 is an enlarged schematic view of the hot wind generating device of fig. 9 at D;

fig. 11 is a schematic view showing a split structure of a temperature sensing probe of the hot air generator of fig. 4;

figure 12 shows a perspective cross-sectional view of an embodiment of a cooking appliance according to the present invention; and

fig. 13 shows a longitudinal sectional view of the cooking appliance of fig. 12.

Wherein the figures include the following reference numerals:

1. placing a plane; 2. an air duct; 3. an air inlet; 4. an air outlet; 5. a cooking cavity; 10. placing a platform; 11. a placement groove; 20. a wind guide shell; 211. a front end plate; 212. a rear end plate; 213. a connecting plate; 22. pressing a plate; 30. a hot air generating device; 40. a housing; 41. a cover body; 411. an opening; 412. a cover body; 413. mounting the cylinder; 414. avoiding the mouth; 42. a cover plate; 421. a cover plate body; 422. a limiting frame; 4221. a first limit bracket; 4222. a U-shaped groove; 4223. a second limiting frame; 4224. a through groove; 423. a connecting table; 424. reinforcing ribs; 50. a heat generating component; 51. heating the housing; 52. heating wires; 53. a flow-through port; 60. a temperature sensing assembly; 70. a fan; 80. a temperature sensing probe; 81. a temperature sensing probe body; 82. a protective sleeve; 90. a temperature protection probe; 91. a temperature protection probe body; 92. a support leg; 100. a base; 110. a pot; 120. a cover body.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

As shown in fig. 1 and 2, the base of the present application includes: the device comprises a placing platform 10, an air guide shell 20 and a hot air generating device 30. Wherein, the placing platform 10 is provided with a placing plane 1; the air guide shell 20 is arranged on one side of the placing platform 10 in the horizontal direction and protrudes upwards out of the placing platform 10, an air duct 2 is arranged in the air guide shell 20, and an air inlet 3 and an air outlet 4 which are communicated with the air duct 2 are arranged on the air guide shell 20; the hot air generator 30 is disposed in the air duct 2 of the air guide casing 20.

By applying the technical solution of this embodiment, since the wind guiding shell 20 is only disposed on one side (e.g. the rear side) of the placing platform 10 in the horizontal direction, when taking the pot on the placing platform 10, the pot can be horizontally moved out from the front side, the left side or the right side of the placing platform 10. Above-mentioned structure makes the user needn't upwards move the upper surface to the utensil body that provides in the background when taking the pan again, therefore above-mentioned structure can reduce the distance that the user upwards moved the pan to be convenient for user operation has promoted user's use and has experienced.

When the cooking appliance is operated, the whole base may vibrate due to the rotation of the fan, and in this case, if only a pot is placed on the placing platform 10, the pot may be easily displaced and deviated from the placing platform 10. In order to solve the above problem, as shown in fig. 1 to 3, in the present embodiment, a placing groove 11 recessed downward is provided on the placing plane 1. In the above-mentioned structure, the pan can be placed in standing groove 11, and standing groove 11's lateral wall can play limiting displacement to the pan to prevent that pan and place the platform 10 from taking place relative movement.

As shown in fig. 2, in the present embodiment, the depth of the placing groove 11 is between 3mm and 30 mm. In the above structure, if the depth of the placing groove 11 is too large, the distance of the pot moving upwards when taking the pot is too large, so that the pot is inconvenient for a user to take. If the depth of the placing groove 11 is too small, the placing groove 11 is poor in limiting effect on the pot, so that relative movement between the pot and the placing platform 10 is achieved.

As shown in fig. 1, 4 to 6, 8 and 9, in the present embodiment, the hot air generating device 30 includes: a housing 40, a heat generating component 50, a temperature sensing component 60 and a fan 70. The housing 40 includes a cover 41 and a cover plate 42 connected to the cover 41, an opening 411 is formed on a rear side wall of the cover 41, and the cover plate 42 covers the opening 411; the heating element 50 is disposed in the housing 40; the temperature sensing assembly 60 is in contact with the heating assembly 50, and the heating assembly 50 and the temperature sensing assembly 60 are clamped between the cover body 41 and the cover plate 42; the fan 70 is disposed within the housing 40. In the above configuration, the fan 70, the heat generating element 50, and the temperature sensing element 60 are mounted in the housing 40. The temperature sensing element 60 is abutted against the heating element 50, so that the temperature of the heating element 50 can be conveniently measured. The fan 70 is arranged below the heating component 50, and the airflow generated by the fan 70 can blow to the heating component 50, and is heated by the heating component 50 to form hot air, and the hot air is blown out of the air outlet 4 of the air guide shell 20 into the pot to heat food in the pot. The above structure clamps the heating element 50 and the temperature sensing element 60 between the cover 41 and the cover plate 42, so that the heating element 50 and the temperature sensing element 60 can be fixed in the housing 40, and the temperature sensing element 60 can be stably abutted against the heating element 50, so that the temperature of the heating element 50 measured by the temperature sensing element 60 is more accurate. The above assembly method is simple, and the time for the overall assembly of the hot air generating device 30 can be effectively reduced, thereby improving the assembly efficiency.

As shown in fig. 4 to 6, in the present embodiment, the cover body 41 includes a cover body 412 and an installation tube 413 disposed above the cover body 412, the opening 411 is disposed on a rear side wall of the cover body 412, the heating element 50 upwardly penetrates through the installation tube 413, a avoiding opening 414 is disposed on the rear side wall of the installation tube 413, the cover plate 42 includes a cover plate body 421 covering the opening 411 and a limiting frame 422 extending upwardly, and the temperature sensing element 60 penetrates through the avoiding opening 414 and is sandwiched between the limiting frame 422 and the heating element 50. In the above structure, the heating element 50 is installed in the installation tube 413, the rear side wall of the installation tube 413 is provided with the avoidance port 414 for avoiding the temperature sensing element 60, the front end of the temperature sensing element 60 abuts against the heating element 50, and the rear end abuts against the limiting frame 422, so that the temperature sensing element 60 can be stably clamped between the heating element 50 and the limiting frame 422, and the temperature inaccuracy of the heating element 50 measured by the temperature sensing element due to the gap generated between the temperature sensing element 60 and the heating element 50 is avoided. In addition, the above-described assembling manner is simple, and the time for the overall assembly of the hot air generator 30 can be effectively reduced, thereby improving the assembly efficiency.

As shown in fig. 6, in the present embodiment, the cover plate 42 further includes a connection stage 423, the connection stage 423 is disposed on the rear outer surface of the cover plate body 421, the limiting frame 422 is disposed on the connection stage 423, and a reinforcing rib 424 is disposed between the connection stage 423 and the cover plate body 421. In the above structure, since the temperature sensing element 60 is disposed at the rear side of the heating element 50, the position of the limiting frame 422 is closer to the rear side than the cover plate body 421, the connecting platform 423 extending backwards is disposed on the outer surface of the rear side of the cover plate body 421, and the limiting frame 422 is disposed on the connecting platform 423, so that the limiting frame 422 can be matched with the temperature sensing element 60, and the limiting frame 422 can limit the temperature sensing element 60 in the front and rear directions. In addition, the reinforcing ribs 424 can reinforce the strength of the cover plate 42, reduce the deformation of the limiting frame 422, and ensure that the temperature sensing assembly 60 can be firmly clamped between the limiting frame 422 and the heating assembly 50.

As shown in fig. 8 to 11, in the present embodiment, the temperature sensing assembly 60 includes a temperature sensing probe 80, the temperature sensing probe 80 includes a temperature sensing probe body 81 and a protection sleeve 82 sleeved outside the temperature sensing probe body 81, the protection sleeve 82 is attached to the mouth wall of the avoidance port 414, the limiting frame 422 includes a first limiting frame 4221, a U-shaped groove 4222 extending downward is provided on the first limiting frame 4221, and the rear end of the temperature sensing probe body 81 is limited in the U-shaped groove 4222. In the above structure, the protective sleeve 82 can be sleeved on the outer side of the temperature sensing probe body 81 in the circumferential direction, and plays a role in protecting and supporting the temperature sensing probe body 81. The front end and the rear end of the temperature sensing probe body 81 both extend out of the protective sleeve 82, the protective sleeve 82 has elasticity, the front end of the temperature sensing probe body 81 passes through the avoiding opening 414 to abut against the heating element 50, and the first limiting frame 4221 presses the protective sleeve 82 to enable the temperature sensing probe body 81 to stably abut against the heating element 50. The part of the rear end of the temperature sensing probe body 81 extending out of the protective sleeve 82 can be clamped in a U-shaped groove 4222, and the U-shaped groove 4222 can support the temperature sensing probe 80 and limit the temperature sensing probe 80 in the left and right directions of the base. According to the structure, the temperature sensing probe 80 is limited in the front-rear direction through the first limiting frame 4221, and the temperature sensing probe 80 is limited in the left-right direction of the base through the U-shaped groove 4222, so that the temperature sensing probe 80 can be stably abutted against the heating component 50 on the basis of facilitating installation of the temperature sensing probe 80, and the accuracy of the temperature measured by the temperature sensing probe 80 is improved.

It should be noted that the base further includes a control device. The temperature sensing probe 80 is connected to the control device, so that the control device can adjust the cooking strategy through the temperature measured by the temperature sensing probe 80.

As shown in fig. 4, 6 and 7, in this embodiment, the temperature sensing assembly 60 further includes a temperature protection probe 90, the temperature protection probe 90 includes a temperature protection probe body 91 and support legs 92 disposed at two sides of the temperature protection probe body 91, the limiting frame 422 further includes a second limiting frame 4223, a through groove 4224 extending in a horizontal direction perpendicular to the front-back direction is disposed on the second limiting frame 4223, the temperature protection probe body 91 is clamped in the through groove 4224, and the support legs 92 extend from the through groove 4224 and are electrically connected to the heating assembly 50. In the above structure, the temperature protection probe 90 is provided with two support legs 92, one of the support legs is connected with the controller of the base, the other support leg is connected with the heating component 50 in series, the temperature protection probe 90 has a preset temperature, and when the temperature of the heating component 50 measured by the temperature protection probe 90 reaches a preset temperature, the temperature protection probe 90 is disconnected from the heating component 50, so that the heating component 50 is powered off, and thus the heating component 50 is prevented from overheating. The temperature protection probe 90 can play a role of overheat protection after the temperature sensing probe 80 fails, thereby improving the safety of the cooking appliance. The two legs 92 extend out from the two ends of the through groove 4224 in the extending direction, and the bottom wall of the through groove 4224 abuts against the rear end of the temperature protection probe body 91, so that the temperature protection probe 90 is limited in the front-rear direction. The upper and lower groove walls of the through groove 4224 abut against the temperature protection probe body 91, thereby limiting the temperature protection probe 90 in the vertical direction. The above structure can improve the stability of the connection of the temperature protection probe 90.

As shown in fig. 2, 6 and 12, in the present embodiment, the heating element 50 includes a heating housing 51 and a heating wire 52 disposed in the heating housing 51, the heating housing 51 is disposed on the top wall of the casing 40 in a penetrating manner, an airflow opening 53 is disposed on the side wall of the heating housing 51 penetrating the casing 40, the top wall of the air guiding casing 20 includes a front end plate 211, a rear end plate 212 higher than the front end plate 211, and two opposite connecting plates 213 connected between the front end plate 211 and the rear end plate 212, an air outlet 4 is defined between the front end plate 211, the rear end plate 212, and the two connecting plates 213, the heating element 50 extends out of the air outlet 4, the front end plate 211 is lower than the airflow opening 53, and the temperature sensing element 60 is located below the rear end plate 212. In the above configuration, the temperature sensing unit 60 is located behind the heating unit 50, and when the hot air generator 30 is mounted in the air guide casing 20, the temperature sensing unit 60 is located below the rear end plate 212. In order to provide a sufficient accommodation space for the temperature sensing assembly 60, the rear end plate 212 is higher than the front end plate 211, so that the air guiding casing 20 has a sufficient space in the vertical direction to accommodate the temperature sensing assembly 60.

As shown in fig. 2 and 3, in the present embodiment, the connection plate 213 is provided obliquely. In the above structure, since the rear end plate 212 is higher than the front end plate 211, the connection plate 213 is gradually inclined upward in a direction from the front side to the rear side of the air guide casing 20, thereby connecting the front end plate 211 and the rear end plate 212. The structure is simple, and the front end plate 211 and the rear end plate 212 are convenient to connect. Of course, in other embodiments not shown in the figures, the connecting plates may be stepped. But the connection plate that sets up in the slope is better than the connection plate that is the echelonment setting.

As shown in fig. 3, in the present embodiment, the height of the connection plate 213 is between 5mm and 20 mm. In the above structure, the height of the connecting plate 213 is the height of the rear end plate 212 higher than the front end plate 211. Since the temperature sensing assembly 60 is located below the rear end plate 212, a sufficient accommodating space can be provided for the temperature sensing assembly 60 only if the height of the connection plate 213 is high enough. Of course, if the height of the rear end plate 212 is too high, the volume of the base is increased, and the production material is wasted.

As shown in fig. 3, in the present embodiment, the angle α between the connection plate 213 and the front end plate 211 is between 10 ° and 45 °. In the above structure, if the angle of the included angle α is too large, the height of the rear end plate 212 is too high, which results in an increase in the volume of the base and a waste of production materials. If the angle of the included angle α is too small, the height of the rear end plate 212 is too low, so that the receiving space below the rear end plate 212 is insufficient, and the installation of the temperature sensing assembly 60 is difficult.

As shown in fig. 12, in the present embodiment, a pressing plate 22 extending upward is provided at the outlet wall of the outlet 4 near the rear end plate 212, and the pressing plate 22 is pressed against the top of the cover 41. In the above configuration, if the position where the hot air generator 30 is installed is too high, it is difficult to cover the cover. The pressing plate 22 is arranged to be capable of being matched with the top of the cover body 41 in a compression joint mode, so that the position installation accuracy of the hot air generating device 30 is guaranteed, and the cover body can be smoothly covered.

As shown in fig. 12 to 13, the present application also provides a cooking appliance, an embodiment of the cooking appliance according to the present application includes: a base 100, a pot 110 and a cover 120. Wherein the base 100 is the base described above; the pot 110 is arranged on the placing plane 1 of the placing platform 10 of the base 100, a cooking cavity 5 is arranged in the pot 110, and the air outlet 4 of the air guide shell 20 of the base 100 is communicated with the cooking cavity 5; the lid 120 covers the base 100 and the pot 110. In the structure, the base has the advantage of being convenient for a user to take the cookware, so that the cooking utensil with the base also has the advantages.

In this embodiment, the cooking appliance is an air fryer. Of course, in the embodiment not shown in the figures, the cooking appliance may also be an electric pressure cooker, an electric rice cooker, a low-pressure rice cooker, an oven, a soymilk maker, a food processor, an electric stewpan, a cooking machine, a multifunctional pot, or the like.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (13)

1. A base, comprising:

a placement platform (10) having a placement plane (1);

the air guide shell (20) is arranged on one side of the placing platform (10) in the horizontal direction and protrudes upwards out of the placing platform (10), an air duct (2) is arranged in the air guide shell (20), and an air inlet (3) and an air outlet (4) which are communicated with the air duct (2) are arranged on the air guide shell (20);

and the hot air generating device (30) is arranged in the air duct (2) of the air guide shell (20).

2. The base of claim 1, characterized in that the resting plane (1) is provided with a downwardly concave resting groove (11).

3. The base of claim 2, characterized in that the depth of the placement grooves (11) is between 3mm and 30 mm.

4. The base according to claim 1, characterized in that said hot air generating means (30) comprise:

the shell (40) comprises a cover body (41) and a cover plate (42) connected with the cover body (41), an opening (411) is formed in the rear side wall of the cover body (41), and the cover plate (42) is arranged at the opening (411) in a covering mode;

a heat generating component (50) disposed within the housing (40);

a temperature sensing element (60) in contact with the heating element (50), wherein the heating element (50) and the temperature sensing element (60) are sandwiched between the cover body (41) and the cover plate (42);

a fan (70) disposed within the housing (40).

5. The base of claim 4, wherein the cover body (41) includes a cover body (412) and an installation tube (413) disposed above the cover body (412), the opening (411) is disposed on a rear sidewall of the cover body (412), the heating element (50) upwardly penetrates through the installation tube (413), a dodging opening (414) is disposed on a rear sidewall of the installation tube (413), the cover plate (42) includes a cover plate body (421) disposed at the opening (411) and a limiting frame (422) extending upwardly, and the temperature sensing element (60) penetrates through the dodging opening (414) and is sandwiched between the limiting frame (422) and the heating element (50).

6. The base of claim 5, wherein the cover plate (42) further comprises a connection stage (423), the connection stage (423) is disposed on a rear outer surface of the cover plate body (421), the spacing frame (422) is disposed on the connection stage (423), and a reinforcing rib (424) is disposed between the connection stage (423) and the cover plate body (421).

7. The base of claim 5, wherein the temperature sensing assembly (60) comprises a temperature sensing probe (80), the temperature sensing probe (80) comprises a temperature sensing probe body (81) and a protective sleeve (82) sleeved outside the temperature sensing probe body (81), the protective sleeve (82) is attached to the wall of the avoidance opening (414), the limiting frame (422) comprises a first limiting frame (4221), a downwardly extending U-shaped groove (4222) is formed in the first limiting frame (4221), and the rear end of the temperature sensing probe body (81) is limited in the U-shaped groove (4222).

8. The pedestal according to claim 7, wherein the temperature sensing assembly (60) further comprises a temperature protection probe (90), the temperature protection probe (90) comprises a temperature protection probe body (91) and support legs (92) arranged on two sides of the temperature protection probe body (91), the limiting frame (422) further comprises a second limiting frame (4223), a through groove (4224) extending in a horizontal direction perpendicular to the front-back direction is arranged on the second limiting frame (4223), the temperature protection probe body (91) is clamped in the through groove (4224), and the support legs (92) extend out of the through groove (4224) and are electrically connected with the heating assembly (50).

9. The base of claim 4, wherein the top wall of the wind-guiding shell (20) comprises a front end plate (211), a rear end plate (212) higher than the front end plate (211), and two opposite connection plates (213) connected between the front end plate (211) and the rear end plate (212), the front end plate (211), the rear end plate (212) and the two connecting plates (213) enclose the air outlet (4), the heating component (50) comprises a heating shell (51) and a heating wire (52) arranged in the heating shell (51), the heating shell (51) extends out of the air outlet (4), a flow passing opening (53) is arranged on the side wall of the heating shell (51) penetrating out of the shell (40), the front end plate (211) is lower than the flow passing opening (53), and the temperature sensing assembly (60) is positioned below the rear end plate (212).

10. The base of claim 9, characterized in that the connection plate (213) is arranged obliquely.

11. The base of claim 10, characterized in that the height H of the connection plate (213) is between 5mm and 20 mm; and/or the angle alpha between the connecting plate (213) and the front end plate (211) is between 10 degrees and 45 degrees.

12. The base of claim 9, characterized in that a pressure plate (22) extending upwards is arranged at the outlet wall of the outlet (4) close to the rear end plate (212), and the pressure plate (22) is pressed on the top of the cover body (41).

13. A cooking appliance comprising:

a chassis (100), characterized in that the chassis (100) is a chassis according to any one of claims 1 to 12;

pan (110), set up in place on the plane (1) of placing of place platform (10) of base (100), have culinary art chamber (5) in pan (110), air outlet (4) of wind-guiding shell (20) of base (100) with culinary art chamber (5) intercommunication.

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