CN212140218U

CN212140218U - Intelligent air fryer

Info

Publication number: CN212140218U
Application number: CN202020663698.6U
Authority: CN
Inventors: 郭建刚; 姜强; 罗其云
Original assignee: Guangdong Baishengtu Technology Co Ltd
Current assignee: Guangdong Baishengtu Technology Co Ltd
Priority date: 2020-04-27
Filing date: 2020-04-27
Publication date: 2020-12-15
Anticipated expiration: 2030-04-27

Abstract

The utility model relates to an air explodes pot technical field, refers in particular to an intelligence air explodes pot, including the pot body and interior pot subassembly, on the pot body was located to interior pot subassembly detachably, be equipped with the induction system that weighs on the interior pot subassembly, be equipped with the controlling means through automatic selection heating procedure behind the induction system response weight of weighing on the pot body. By adopting the structure, the food can be manually input into the food type (such as chips) through the control panel, the weight of the food placed on the inner pot assembly is collected through the weighing sensing device, the collected weight of the food is fed back to the control device, the corresponding heating program is automatically selected by the weight of the food according to the food type through the control device, the weighing and manual input heating program is not needed, the intelligent operation is achieved, and the working efficiency is further improved.

Description

Intelligent air fryer

Technical Field

The utility model relates to an air explodes pot technical field, refers in particular to an intelligence air explodes pot.

Background

When the air fryer in the existing market is used for baking food, the corresponding baking program needs to be manually modulated when the air fryer is used for heating different food materials, so that the baking effect is achieved, and the intelligent operation is lacked. For example, different quantities of the french fries need to be weighed separately and then manually operated to select a heating program required by heating, so that the operation is complicated, the intelligent operation is lacked, and the working efficiency is low.

Patent publication No. CN201290611Y discloses an intelligent electric toaster, which comprises a toaster, an outer box, a control system, a weighing device and a human-computer interface, wherein the toaster and the weighing device are both arranged in the outer box, the weighing device is positioned below the roaster and is electrically connected with the control system, the human-computer interface comprises a control panel and an electronic display window, the control panel and the electronic display window are respectively and electrically connected with the control system, the weighing device transmits the measured weight value of the object in the roaster to the control system, a user inputs confirmation information of the degree of scorched coke to the control system through the control panel, and the control system displays the confirmation information of the user on the electronic display window, controls the roaster to roast the object placed in the bread slot of the roaster according to the weight value transmitted by the weighing device and the confirmation information transmitted by the control panel, and controls the roaster to stop working after the roasting is finished. This prior art is provided with weighing device through being provided with in the roaster below, can realize will surveying the weight value of object in the roaster and convey control system through weighing device, saves the process of putting into the roaster with food after weighing again. However, the prior art still has the drawback that the user is required to manually input the confirmation information of the scorch baking degree into the control system through the control panel, confirm the position of the user through the control system and display the information on the electronic display window, and finally control the baking device to bake the object placed in the bread slot of the baking device through the control system according to the weight value transmitted by the weighing device and the confirmation information transmitted by the control panel. The working procedures are complicated, the intelligent operation is lacked, and the working efficiency is not high.

Therefore, there is a need for improvements in the prior art.

SUMMERY OF THE UTILITY MODEL

To above problem, the utility model provides an intelligence air is fried pot designs intelligence and weighs the inductor through frying pot bottom, when eating the material and put into the frying pot, weighs the weight that the inductor gathered and eat the material through intelligence to convey information to controlling means through sensing probe, thereby pass through the corresponding heating procedure of controlling means automatic selection, need not manual operation and weigh and manual input heating procedure, reach intelligent operation and promote work efficiency.

In order to achieve the above purpose, the utility model discloses the technical scheme who uses as follows:

the utility model provides an intelligence air is fried pot, includes the pot body and interior pot subassembly, on interior pot subassembly detachably located the pot body, is equipped with the induction system that weighs on the interior pot subassembly, is equipped with the controlling means who selects the heating procedure automatically after the induction system response weight through weighing on the pot body. By adopting the structure, the food can be manually input into the food type (such as chips) through the control panel, the weight of the food placed on the inner pot assembly is collected through the weighing sensing device, the collected weight of the food is fed back to the control device, the corresponding heating program is automatically selected by the weight of the food according to the food type through the control device, the weighing and manual input heating program is not needed, the intelligent operation is achieved, and the working efficiency is further improved.

The control device stores data parameters of different food material types and different weights and corresponding heating programs in advance.

According to the scheme, the weighing sensing device comprises a weighing sensor arranged on the inner pot component, the pot body is provided with a sensing probe which corresponds to the weighing sensor, and the sensing probe is electrically connected with the control device. Adopt such structure setting, through the weight of the edible material of weighing inductor collection placement on interior pot subassembly in, the rethread sensing probe conveys information to controlling means to through the corresponding heating procedure of controlling means automatic selection.

According to the scheme, the pot body comprises an upper shell and a lower shell, a containing cavity used for containing the inner pot assembly is formed between the upper shell and the lower shell, and the sensing probe is arranged on the lower shell.

According to the scheme, the lower shell is provided with the heat insulation plate and the bottom plate, and the sensing probe is arranged on the bottom plate. By adopting the structure, after the inner pan assembly enters the accommodating cavity, the weighing sensor on the inner pan assembly can correspond to the sensing probe on the bottom plate of the lower shell.

In practical application, the heat insulation plate plays a role in heat insulation, can effectively protect the sensing probe from being heated and can effectively protect circuit components correspondingly connected with the sensing probe.

According to the above scheme, interior pot subassembly includes interior pot and front bezel subassembly, and interior pot is located on the front bezel subassembly through activity buckle detachably, and the inductor of weighing is located on the front bezel subassembly to correspond the setting with interior pot. By adopting the structure, the inner pot is buckled on the front plate component through the movable buckle, and the inner pot can be separated from the front plate component by stirring the movable buckle during disassembly.

It should be noted that the inner pot of the utility model adopts a mode of being taken out in an up-and-down movable manner, thereby being convenient for satisfying the cleaning test of the dish washer.

According to the scheme, the front plate assembly comprises a front plate and a handle, the handle is fixed on the front plate, and a weighing display screen which corresponds to the weighing sensor is arranged on the handle. By adopting the structure, the weight of the food materials placed in the inner pot can be visually displayed through the weighing display screen, so that a user can conveniently know the weight of the food.

According to the scheme, the front plate is provided with the lining, and the weighing sensor is arranged on the lining. By adopting the structure, the weighing sensor is arranged on the lining, so that the weighing sensor is convenient to contact with the bottom of the inner pot, and the weight of food materials placed in the inner pot is further identified.

According to the scheme, the air frying assembly is arranged in the upper shell and comprises a motor base, a motor, heat dissipation fan blades, air frying convection fan blades, a heat insulation cover, a heating element and a flow guide cover, the motor is fixed on the motor base, the heat dissipation fan blades and the air frying convection fan blades are both arranged on an output shaft of the motor, the heat insulation cover is arranged between the heat dissipation fan blades and the air frying convection fan blades, the heating element is arranged below the air frying convection fan blades, and the flow guide cover and the heating element are arranged correspondingly. Adopt such structure setting, drive the fried convection current fan blade of air through the motor and rotate, blow in the interior pot of interior pot subassembly with the heat that heating element produced, realize toasting the effect to the edible material in the interior pot, drive the rotation of heat dissipation fan blade through the motor, will see through the heat that separates the heat exchanger and transmit and dispel the heat.

It should be noted that, the heat dissipation fan blade and the air convection fan blade are both driven by the output shaft of the motor to rotate, and both of them adopt the same fan blade structure, but are arranged in opposite directions when installed, and the heat dissipation fan blade is arranged above the air convection fan blade and separated by the heat insulation cover, and the heat dissipation fan blade blows from the inside to the outside, while the air convection fan blade blows from the outside to the inside.

According to the scheme, the flow guide cover is arranged above the heating element, and the flow guide direction of the flow guide cover is arranged downwards. By adopting the structure, the heat generated by the heating element is conveniently guided to the inner pot of the inner pot assembly through the guide cover, and the food material in the inner pot is baked.

The utility model discloses beneficial effect:

the utility model discloses a when eating the material and putting into the fryer, weigh the inductor through intelligence and gather the weight of eating the material when frying pot bottom design intelligence, and convey information to controlling means through sensing probe, thereby pass through the corresponding heating procedure of controlling means automatic selection, need not manual operation and weigh and manual input heating procedure, reach intelligent operation and promotion work efficiency.

Drawings

FIG. 1 is a schematic sectional view of the overall structure of the present invention;

FIG. 2 is a schematic cross-sectional view of the inner pot assembly of the present invention;

FIG. 3 is a schematic view of the inner pan and front plate assembly of the present invention;

FIG. 4 is a schematic view of the combination of the weighing sensor and the sensing probe of the present invention;

fig. 5 is a schematic view of the assembly of the inner pot component and the pot body of the present invention.

1. An upper housing; 2. a lower housing; 3. a control panel; 4. an air fryer assembly; 41. a motor base; 42. a motor; 43. a heat dissipation fan blade; 44. air blasting convection fan blades; 45. a heat shield; 46. a heating element; 47. a pod; 5. an accommodating chamber; 51. a heat insulation plate; 52. a base plate; 53. a sensing probe; 6. an inner pan assembly; 61. a handle; 62. an inner pot; 63. a front plate assembly; 631. a front plate; 632. a liner; 633. a weighing display screen; 634. a movable buckle; 635. and a weighing sensor.

Detailed Description

The technical solution of the present invention will be described below with reference to the accompanying drawings and examples.

As shown in figures 1 to 5, an intelligence air explodes pot, including the pot body and interior pot subassembly 6, on the pot body was located to interior pot subassembly 6 detachably, be equipped with control panel 3 on the pot body, be equipped with weighing sensing device on the interior pot subassembly 6, be equipped with the controlling means through automatic selection heating program behind the weighing sensing device response weight on the pot body. By adopting the structure, the food can be manually input according to the food through the control panel 3, the weight of the food placed on the inner pot assembly 6 is collected through the weighing sensing device, the collected weight of the food is fed back to the control device, the corresponding heating program is automatically selected according to the food by the control device according to the type of the food, the weighing and manual input heating program is not needed, the intelligent operation is achieved, and the working efficiency is improved.

The control device stores data of different food material types and different food material weights and corresponding heating programs in advance.

In this embodiment, the weighing sensing device includes the weighing sensor 635 disposed on the inner pan assembly 6, the pan body is provided with the sensing probe 53 disposed corresponding to the weighing sensor 635, and the sensing probe 53 is electrically connected to the control device. By adopting the structure, the weight of the food material placed on the inner pot assembly 6 is collected by the weighing sensor 635 on the inner pot assembly 6, and the information is transmitted to the control device through the sensing probe 53, so that the corresponding heating program is automatically selected through the control device.

In this embodiment, the pot body includes upper casing 1 and lower casing 2, and the shaping is equipped with between upper casing 1 and the lower casing 2 and is used for holding the chamber 5 that holds of pot subassembly 6 in, and sensing probe 53 is located on lower casing 2.

In this embodiment, the lower case 2 is provided with a heat insulation board 51 and a bottom board 52, and the sensing probe 53 is provided on the bottom board 52. With such a structure, after the inner pan assembly 6 enters the accommodating cavity 5, the weighing sensor 635 on the inner pan assembly 6 can correspond to the sensing probe 53 arranged on the bottom plate 52 of the lower shell 2.

In practical application, the heat insulation board 51 plays a role in heat insulation, and can effectively protect the sensing probe 53 from being heated and effectively protect circuit components correspondingly connected with the sensing probe 53.

In this embodiment, the inner pan assembly 6 includes an inner pan 62 and a front plate assembly 63, the inner pan 62 is detachably disposed on the front plate assembly 63 through a movable buckle 634, and a weighing sensor 635 is disposed on the front plate assembly 63 and corresponds to the inner pan 62. With the structure, the inner pan 62 is buckled on the front plate component 63 through the movable buckle 634, and the inner pan 62 can be separated from the front plate component 63 by shifting the movable buckle 634 during disassembly.

It should be noted that the inner pot 62 of the present invention adopts a vertically movable manner for taking out, so as to satisfy the dish washer cleaning test.

In this embodiment, the front plate assembly 63 includes a front plate 631 and a handle 61, the handle 61 is fixed on the front plate 631, and a weighing display screen 633 corresponding to the weighing sensor 635 is disposed on the handle 61. By adopting the structure, the weight of the food material placed in the inner pot 62 can be visually displayed through the weighing display screen 633, so that a user can conveniently know the weight of the food.

In this embodiment, the front plate 631 is provided with an inner liner 632, and the weighing sensor 635 is provided on the inner liner 632. By adopting the structure, the weighing sensor 635 is arranged on the lining 632, so that the weighing sensor is conveniently contacted with the bottom of the inner pot 62, and the weight of the food material placed in the inner pot 62 is identified.

In this embodiment, an air blasting assembly 4 is disposed in the upper housing 1, the air blasting assembly 4 includes a motor base 41, a motor 42, a heat dissipation fan blade 43, an air blasting convection fan blade 44, a heat insulation cover 45, a heating element 46 and a flow guide cover 47, the motor 42 is fixed to the motor base 41, the heat dissipation fan blade 43 and the air blasting convection fan blade 44 are disposed on an output shaft of the motor 42, the heat insulation cover 45 is disposed between the heat dissipation fan blade 43 and the air blasting convection fan blade 44, the heating element 46 is disposed below the air blasting convection fan blade 44, and the flow guide cover 47 and the heating element 46 are disposed correspondingly. Adopt such structure setting, drive the fried convection current fan blade 44 of air through motor 42 and rotate, blow in the interior pot 62 of interior pot subassembly 6 with the heat that heating element 46 produced, realize toasting the effect to the edible material in the interior pot 62, drive heat dissipation fan blade 43 through motor 42 and rotate, will see through the heat that separates heat exchanger 45 and transmit and dispel the heat.

It should be noted that, the heat dissipation fan blade 43 and the air convection fan blade 44 are both driven by the output shaft of the motor 42 to rotate, and both of them adopt the same fan blade structure, but the directions are opposite when they are installed, the heat dissipation fan blade 43 is arranged above the air convection fan blade 44 and is separated by the heat insulation cover 45, the heat dissipation fan blade 43 blows from the inside to the outside, and the air convection fan blade 44 blows from the outside to the inside.

In the present embodiment, the air guide sleeve 47 is disposed above the heating element 46, and the air guide direction of the air guide sleeve 47 is downward. With the adoption of the structure, the heat generated by the heating element 46 is conveniently guided into the inner pot 62 of the inner pot assembly 6 through the guide cover 47, so that the food material in the inner pot 62 is baked.

The embodiments of the present invention have been described with reference to the accompanying drawings, but the present invention is not limited to the above-mentioned embodiments, which are only illustrative and not restrictive, and those skilled in the art can make many forms without departing from the spirit and scope of the present invention, and these forms are within the scope of the present invention.

Claims

1. The utility model provides an intelligence air is fried pot, includes pot body and interior pot subassembly, its special characterized in that:

the inner pot component is detachably arranged on the pot body, the pot body is provided with a control panel for inputting food material types, the inner pot component is provided with a weighing sensing device,

the pan body is provided with a control device which can automatically select a heating program after sensing the weight through the weighing sensing device.

2. The intelligent air fryer of claim 1, wherein: the weighing sensing device comprises a weighing sensor arranged on the inner pot component, a sensing probe arranged on the pot body and corresponding to the weighing sensor is arranged on the pot body, and the sensing probe is electrically connected with the control device.

3. The intelligent air fryer of claim 2, wherein: the pot body includes casing and lower casing, the shaping is equipped with the chamber that holds that is used for holding interior pot subassembly between casing and the lower casing, sensing probe locates on the casing down.

4. An intelligent air fryer according to claim 3, wherein: the lower shell is provided with a heat insulation plate and a bottom plate, and the sensing probe is arranged on the bottom plate.

5. The intelligent air fryer of claim 2, wherein: interior pot subassembly includes interior pot and front bezel subassembly, interior pot is located on the front bezel subassembly through activity buckle detachably, the inductor of weighing is located on the front bezel subassembly to correspond the setting with interior pot.

6. The intelligent air fryer of claim 5, wherein: the front plate assembly comprises a front plate and a handle, the handle is fixed on the front plate, and a weighing display screen which corresponds to the weighing sensor is arranged on the handle.

7. The intelligent air fryer of claim 6, wherein: the front plate is provided with a lining, and the weighing sensor is arranged on the lining.

8. An intelligent air fryer according to claim 3, wherein: the upper casing is internally provided with an air frying assembly, the air frying assembly comprises a motor base, a motor, a heat dissipation fan blade, an air frying convection fan blade, a heat insulation cover, a heating element and a flow guide cover, the motor is fixed on the motor base, the heat dissipation fan blade and the air frying convection fan blade are arranged on an output shaft of the motor, the heat insulation cover is arranged between the heat dissipation fan blade and the air frying convection fan blade, the heating element is arranged below the air frying convection fan blade, and the flow guide cover and the heating element are correspondingly arranged.

9. The intelligent air fryer of claim 8, wherein: the flow guide cover is arranged above the heating element, and the flow guide direction of the flow guide cover is arranged downwards.