Air fryer
By combining an IH heating coil and a first fan in the air fryer, the heat dissipation problem of the IH heating coil is solved, enabling real-time monitoring of the overall heat dissipation and cooling of the machine and the temperature of the food, thus improving the service life and cooking effect.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- BEAR ELECTRICAL APPLIANCE CO LTD
- Filing Date
- 2025-06-09
- Publication Date
- 2026-07-10
AI Technical Summary
The heat dissipation problem of the IH heating coil in existing air fryers has not been effectively solved, resulting in excessive temperature rise of the whole machine and affecting its service life.
An IH heating coil and a first fan are installed between the inner and outer pots to dissipate heat through airflow, and the food temperature is monitored in real time by a temperature probe.
It effectively reduces the overall temperature rise of the machine, extends its service life, and ensures the accuracy of food cooking taste and temperature.
Smart Images

Figure CN224474317U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of air fryer technology, and in particular to an air fryer. Background Technology
[0002] Cooking appliances are a new type of household appliance that uses high-speed air circulation technology to fry food. Compared with traditional electric fryers, the food they produce can reduce oil content by 80%. They are easy to clean in daily use, and are both safe and economical, making them very popular.
[0003] In order to improve the taste of food, some air fryers nowadays use heating elements at the bottom of the pot. However, the bottom heating elements generate a lot of residual heat during the heating process, which causes the overall temperature to rise too high and affects the lifespan of the entire machine. Utility Model Content
[0004] The purpose of this invention is to disclose an air fryer to solve the problem that the IH heating coil in the prior art cannot dissipate heat in a timely manner.
[0005] To achieve the above objectives, this utility model discloses an air fryer, comprising:
[0006] The pot body includes an inner pot and an outer pot surrounding the inner pot, with an installation cavity formed between the inner pot and the outer pot;
[0007] An IH heating coil is located at the bottom of the inner pot;
[0008] The first fan is located below the IH heating coil and connected to the inner pot and / or the outer pot;
[0009] A temperature probe is connected to the inner pot and / or the outer pot, and passes through the inner pot.
[0010] As an optional implementation, the temperature probe and the IH heating coil are coaxially arranged.
[0011] As an optional implementation, the inner bottom wall of the outer pot is provided with a plug-in post, and the temperature measuring probe and the plug-in post are slidably disposed;
[0012] The air fryer also includes a mounting component and an elastic component. The mounting component is sleeved outside the temperature probe, and the two ends of the elastic component abut against the mounting component and the inner bottom wall of the outer pot, respectively.
[0013] As an optional implementation, the mounting component includes a support plate and a sleeve, the sleeve being disposed on the side of the support plate facing the elastic member and circumferentially disposed on the edge of the support plate, the support plate being used to abut against the elastic member.
[0014] As an optional implementation, the inner bottom wall of the outer pot is provided with air guide ribs, which surround the first fan and form an air outlet.
[0015] The air fryer also includes a control module, which is located below the IH heating coil and connected to the inner pot and / or the outer pot, and is located at the air outlet.
[0016] As an optional implementation, the control module is provided with a clearance notch, and the extension line of the central axis of the IH heating coil is located at the clearance notch;
[0017] The first fan is located on one side of the extension line of the central axis of the IH heating plate, along the vertical direction, and the projection surface of the first fan on the reference plane and the projection surface of the IH heating ring on the reference plane partially overlap.
[0018] As an optional implementation, the projection of the rotation center of the first fan onto the reference plane in the vertical direction is located outside the projection plane of the IH heating plate onto the reference plane in the vertical direction, and the area of the portion where the projection plane of the IH heating ring and the projection plane of the first fan overlap is 1 / 5 to 3 / 10 of the area of the projection plane of the IH heating ring.
[0019] As an optional implementation, the air fryer also includes an inner pot for holding food, which is detachably disposed within the inner pot.
[0020] As an optional implementation, the air fryer also includes a lid that can be flipped open or closed by means of the openings of the inner pot and / or the outer pot.
[0021] As an optional implementation, the cover body is provided with a heating plate and a second fan.
[0022] Compared with the prior art, the beneficial effects of the air fryer of this utility model are as follows:
[0023] This utility model of an air fryer incorporates an IH heating coil and a first fan within the mounting cavity between the inner and outer pots. The airflow generated by the first fan dissipates heat from the IH heating coil, reducing the overall temperature rise and ensuring the lifespan of the machine. Simultaneously, by incorporating a temperature probe, the temperature of the food can be measured in real time, ensuring optimal cooking taste. Attached Figure Description
[0024] To more clearly illustrate the technical solutions in the embodiments of this utility model, the drawings used in the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0025] Figure 1 This is a cross-sectional schematic diagram of the air fryer according to an embodiment of the present invention;
[0026] Figure 2 yes Figure 1 A cross-sectional view of the air fryer in the image;
[0027] Figure 3 yes Figure 1 Enlarged view of point I in the middle;
[0028] Figure 4 yes Figure 1 A schematic diagram of the structure of the outer pot, the first fan, the IH heating coil, and the control module.
[0029] Figure 5 yes Figure 4 A structural diagram of the outer pot, the first fan, and the control module;
[0030] Figure 6 yes Figure 5 A top view of the outer pot, the first fan, and the control module.
[0031] Explanation of key figure labels:
[0032] 100-Air fryer, 10-Pot body, 11-Inner pot, 12-Outer pot, 121-Air guide rib, 1211-Enclosure, 1212-First air guide, 1213-Second air guide, 1214-Installation space, 1215-Air outlet, 123-Plug-in post, 124-Air inlet, 125-Air outlet, 13-Installation cavity, 20-Lid, 21-Second fan, 22-Heating plate, 30-IH heating coil, 31-Installation ear, 40-First fan, 41-Fan body, 42-Installation plate, 50-Temperature probe, 60-Installation component, 61-Supporting plate, 62-Sleeve, 70-Elastic component, 80-Control module, 81-Circuit board, 82-Heat dissipation fins, 83-Avoidance notch, 90-Inner liner. Detailed Implementation
[0033] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0034] In this invention, the terms "upper," "lower," "left," "right," "front," "rear," "top," "bottom," "inner," "outer," "middle," "vertical," "horizontal," "lateral," and "longitudinal" indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. These terms are primarily for the purpose of better describing this invention and its embodiments, and are not intended to limit the indicated device, element, or component to having a specific orientation, or to be constructed and operated in a specific orientation.
[0035] Furthermore, in addition to indicating direction or positional relationship, some of the aforementioned terms may also have other meanings. For example, the term "above" may also be used in some cases to indicate a certain dependency or connection relationship. Those skilled in the art can understand the specific meaning of these terms in this utility model according to the specific circumstances.
[0036] Furthermore, the terms "installation," "setup," "equipped with," "connection," and "linked" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral structure; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium, or an internal connection between two devices, components, or parts. Those skilled in the art can understand the specific meaning of these terms in this utility model based on the specific circumstances.
[0037] Furthermore, the terms "first," "second," etc., are primarily used to distinguish different devices, components, or parts (which may be the same or different in specific type and construction), and are not intended to indicate or imply the relative importance or quantity of the indicated devices, components, or parts. Unless otherwise stated, "a plurality of" means two or more.
[0038] The technical solution of this utility model will be further described below with reference to the embodiments and accompanying drawings.
[0039] Example 1
[0040] Please see Figures 1 to 6 The air fryer 100 provided in this embodiment of the utility model includes a pot body 10, a lid 20, an IH heating coil 30, a first fan 40, and a temperature probe 50.
[0041] The pot body 10 includes an inner pot 11 and an outer pot 12 surrounding the inner pot 11, with an installation cavity 13 formed between the inner pot 11 and the outer pot 12; a lid 20 is closable and covers the opening of the inner pot 11 and / or the outer pot 12; an IH heating coil 30 is located at the bottom of the inner pot 11; a first fan 40 is located below the IH heating coil 30 and connected to the inner pot 11 and / or the outer pot 12; and a temperature probe 50 is connected to the inner pot 11 and / or the outer pot 12 and passes through the inner pot 11.
[0042] The air fryer 100 described above has an IH heating coil 30 and a first fan 40 installed in the mounting cavity 13 between the inner pot 11 and the outer pot 12. The airflow driven by the first fan 40 can dissipate heat from the IH heating coil 30, thereby reducing the temperature rise of the whole machine and ensuring the service life of the whole machine. At the same time, by setting a temperature probe 50, the temperature of the food can be measured in real time to ensure the taste of the cooked food.
[0043] Understandably, since the first fan 40 needs to drive airflow into the mounting cavity 13 and the airflow needs to flow out of the outer pot 12, the outer pot 12 is provided with an air inlet 124 in the area corresponding to the first fan 40, and an air outlet 125 is provided on the outer periphery of the outer pot 12. The airflow driven by the first fan 40 flows to the IH heating coil 30 and hits the bottom of the inner pot 11 before changing direction and flowing to the periphery of the outer pot 12, thereby flowing out from the air outlet 125 to achieve airflow circulation.
[0044] When installing the inner pot 11 and the outer pot 12, an overlapping platform can be provided at the opening of the outer pot 12, and an overlapping edge can be provided at the edge of the inner pot 11. By overlapping the overlapping edge with the overlapping platform, the inner pot 11 can be positioned and installed. Furthermore, there is a certain gap between the bottom of the inner pot 11 and the bottom of the outer pot 12, so that an installation cavity 13 is formed between them.
[0045] It should be noted that the heating method using the IH heating coil 30 heats the food inside the pot 10 by generating an inductive magnetic field. Compared with electric heating, the heat is applied directly to the food, which has the advantage of high heat conversion efficiency.
[0046] Understandably, in order to improve the taste of the food and ensure cooking efficiency, the lid 20 can be equipped with a heating plate 22 and a second fan 21. In this way, the upper heating plate 22 heats the upper surface of the food, and the second fan 21 drives the heat generated by the heating plate 22 to circulate within the pot body 10, thereby heating the upper surface of the food. At the same time, an IH heating coil 30 is also provided at the bottom of the pot body 10, which can provide auxiliary heating for the food. The heating structures on both the upper and lower sides heat the food simultaneously, ensuring that the food is heated evenly on both sides, ensuring the taste of the food, and avoiding the process of flipping the food during cooking, thereby improving cooking efficiency.
[0047] Please see Figure 1 In one embodiment of this utility model, the lid 20 covers the opening of the inner pot 11, thereby sealing the food.
[0048] Furthermore, in order to facilitate centralized cooking and removal of food, the air fryer 100 of this embodiment also includes an inner pot 90, which is used to hold food and is detachably disposed in the inner pot 11. In this way, when food needs to be cooked, it is placed in the inner pot 90, and after cooking is completed, the food can be taken out through the inner pot 90, which is convenient for the user.
[0049] Understandably, the inner pot 90 is made of magnetically conductive material so that it can sense the magnetic field generated when the IH heating coil 30 is energized, so that the inner pot 90 directly generates heat, and the heat is directly and quickly transferred to the lower surface of the food, improving cooking efficiency and taste.
[0050] It should be noted that by setting the IH heating coil 30 to generate a magnetic field to heat the food, the air fryer 100 of this embodiment can also be used as a steamer after the inner pot 90 is placed inside the pot body 10. When food needs to be steamed or cooked, water can be placed in the inner pot 90, and a support frame can be attached to the inner pot 90 to support the food. When the IH heating coil 30 is powered on, the food can be steamed or cooked, thereby improving the practicality of the air fryer 100 of this application and providing multiple usage methods. At the same time, by directly filling the inner pot 90 with water, it is possible to avoid installing an additional water-holding device in the pot body 10, which can reduce the overall molding cost of the machine.
[0051] Furthermore, when the inner pot 90 is installed, it needs to be repeatedly removed and placed inside the inner pot 11. To reduce contact friction with the temperature probe 50, the lid 20 in this embodiment is designed to open or close the opening of the inner pot 11 and / or the outer pot 12 by flipping it over. This allows the inner pot 90 to be removed from the pot body 10 with its upper part facing upwards, and placed downwards inside the pot body 10. This avoids friction and wear on the inner pot 90 caused by placing it in a drawer-like manner. Therefore, the flipped lid 20 reduces mutual wear between the inner pot 90 and the temperature probe 50.
[0052] Please see Figure 1 as well as Figures 3 to 6 In this embodiment, the temperature probe 50 and the IH heating coil 30 are coaxially positioned. This allows for the measurement of the food temperature at the center. Compared to positioning the temperature probe 50 on the side of the pot body 10, positioning it at the center ensures accurate temperature measurement. Furthermore, the coaxial positioning of the temperature probe 50 and the IH heating coil 30 simplifies the overall installation structure of the machine.
[0053] When installing the temperature probe 50, an installation post can be extended from the bottom wall of the inner pot 11, and the temperature probe 50 can be inserted into the installation post; or an installation post can be set on the inner bottom wall of the outer pot 12, and the temperature probe 50 can be inserted into the installation post. Both methods can achieve the installation of the temperature probe 50.
[0054] Specifically, the bottom wall of the outer pot 12 is provided with a plug post 123, and the temperature probe 50 is slidably disposed with the plug post 123. The air fryer 100 of this embodiment also includes a mounting member 60 and an elastic member 70. The mounting member 60 is sleeved on the outside of the temperature probe 50, and the elastic member 70 is sleeved on the outside of the plug post 123, with both ends abutting against the mounting member 60 and the inner bottom wall of the outer pot 12, respectively. Thus, under the action of the elastic force, an upward lifting force is applied to the mounting member 60 to give the temperature probe 50 an upward lifting force. When the container holding the food is placed... For example, after the inner pot 90 is placed in the inner pot 11, the inner pot 90 and the food have a downward gravity, pressing on the temperature probe 50. Combined with the upward elastic force applied by the elastic element 70, the temperature probe 50 can always be stably in contact with the bottom of the inner pot 90, so that the temperature can be detected in real time. When the inner pot 90 is removed from the inner pot 11, under the action of the elastic force of the elastic element 70, the mounting part 60 and the lower surface of the IH heating ring 30 come into contact, and the IH heating ring 30 defines the position of the temperature probe 50.
[0055] Understandably, when the temperature probe 50 and the IH heating coil 30 are coaxially arranged, or when the temperature probe 50 is offset from the central axis of the IH heating coil 30, the temperature probe 50 can be installed through the plug post 123, the mounting part 60, and the elastic part 70.
[0056] Specifically, in this embodiment, based on the coaxial arrangement of the temperature probe 50 and the IH heating coil 30, a mounting component 60 and an elastic component 70 are provided to ensure the stability of the temperature probe 50 in measuring the food temperature.
[0057] In this embodiment, the elastic element 70 is a spring, which is sleeved on the outside of the plug post 123. In other embodiments, a spring sheet can also be provided, and multiple spring sheets can be provided and arranged around the circumference of the plug post 123 to ensure the balance of the elastic force applied to the mounting member 60.
[0058] Further, please refer to Figure 3 In order to guide the movement of the elastic member 70, the mounting member 60 includes a support plate 61 and a sleeve 62. The sleeve 62 is located on the side of the support plate 61 facing the elastic member 70 and is located circumferentially on the edge of the support plate 61. In this way, the sleeve 62 can guide the movement of the elastic member 70 and limit the movement of the elastic member 70.
[0059] Please see Figure 2 as well as Figures 4 to 6 When installing the IH heating coil 30, the IH heating coil 30 is provided with mounting ears 31. Specifically, mounting posts can be set on the inner bottom wall of the outer pot 12, or on the bottom of the inner pot 11, or on both the inner bottom wall of the outer pot 12 and the bottom of the inner pot 11. The IH heating coil 30 can be installed by detachably connecting the mounting posts and mounting ears. At the same time, by detachably connecting the mounting ears 31 to the inner pot 11, or to the outer pot 12, or to both the inner pot 11 and the outer pot 12, it is convenient to disassemble and maintain the IH heating coil 30 in the future.
[0060] Understandably, when the mounting ear 31 is connected to both the inner pot 11 and the outer pot 12, the mounting ear can be connected to both the inner pot 11 and the outer pot 12 by sequentially inserting the mounting post, the mounting ear 31, and the mounting ear of the inner pot 11 along the bottom of the outer pot 12 with bolts. At the same time, this installation method of the IH heating coil 30 can also connect the inner pot 11 and the outer pot 12 into a whole.
[0061] It should be noted that after the IH heating coil 30 is installed, the temperature probe 50 can be limited. Since the mounting part 60 is fitted onto the temperature probe 50, the temperature probe 50 can only slide within the plug post 123 and cannot come out of the plug post 123.
[0062] Specifically, in this embodiment, the IH heating coil 30 is connected to the bottom of the inner pot 11, thereby reducing the difficulty of installation. After inserting the temperature probe 50 into the insertion post 123 of the outer pot 12, the IH heating coil 30 is then placed on the temperature probe 50.
[0063] Please see Figures 4 to 6 When installing the first fan 40, the first fan 40 includes a fan body 41 and a mounting plate 42. The mounting plate 42 is connected to the inner pot 11 and / or the outer pot 12. The fan body 41 is installed by setting the mounting plate 42.
[0064] Specifically, in this embodiment, the mounting plate 42 is connected to the bottom of the inner pot 11 and is installed in a detachable manner to facilitate disassembly and maintenance in the future.
[0065] Please see Figure 1 and Figure 2 as well as Figures 4 to 6 Since the operation of the IH heating coil 30 and the entire machine requires control, the air fryer 100 in this embodiment also includes a control module 80. The control module 80 is located below the IH heating coil 30 and connected to the inner pot 11 and / or the outer pot 12. The inner bottom wall of the outer pot 12 is provided with a guide rib 121, which surrounds the first fan 40 and forms an air outlet 1215. The control module 80 is located at the air outlet, so that under the obstruction of the guide rib 121, the airflow driven by the first fan 40 can be concentrated in the installation space formed by the guide rib 121. That is, the control module 80 is set in the air outlet direction of the first fan 40. When the first fan 40 draws airflow to dissipate heat from the IH heating coil 30, the airflow can move towards the control module 80 and can also dissipate heat from the control module 80 at the same time, thereby improving the heat dissipation efficiency of the entire machine and ensuring the service life of the entire machine.
[0066] The control module 80 includes a circuit board 81 and heat sink fins 82 disposed on the circuit board 81, as well as other electronic components. The heat sink fins 82 are disposed at the air outlet 1215, so that when the first fan 40 drives the airflow through the air outlet 1215, it can carry away the heat of the heat sink fins 82, thereby reducing the temperature of the IGBT and rectifier bridge and ensuring the service life of the control module 80.
[0067] Understandably, due to the obstruction of the air guide 121, the outflow direction of the airflow and the extension direction of the heat dissipation fins 82 are set at an angle. For example, the angle can be set between 0° and 90°. For instance, when the angle between the outflow direction and the extension direction of the heat dissipation fins 82 is 0°, the airflow carries away the heat from the surface of the heat dissipation fins 82 along the extension direction of the heat dissipation fins 82. When the angle between the outflow direction and the extension direction of the heat dissipation fins 82 is 90°, the airflow hits the heat dissipation fins 82, changes its flow direction by the heat dissipation fins 82, and flows along the surface of the heat dissipation fins 82, thereby carrying away the surface heat of the heat dissipation fins 82.
[0068] Furthermore, to improve the heat dissipation effect, the control module 80 of this embodiment includes multiple heat dissipation fins 82, which are arranged in parallel and spaced apart. In order to achieve simultaneous heat dissipation of multiple heat dissipation fins 82, when the first fan 40 drives the airflow outward, the extension direction of the heat dissipation fins 82 is located in the airflow outward direction. That is, the first fan 40 can drive the airflow to the gap between adjacent heat dissipation fins 82, and the airflow direction is parallel to the extension direction of the heat dissipation fins 82. At this time, the angle between the airflow direction and the extension direction of the heat dissipation fins 82 is 0, which can remove the heat from the surface of each heat dissipation fin 82 and ensure the heat dissipation effect of each heat dissipation fin 82.
[0069] Furthermore, to ensure the compactness of the overall structure, the control module 80 is provided with a clearance notch 83. Specifically, the circuit board 81 is provided with the clearance notch 83, and the extension line of the central axis of the IH heating coil 30 is located at the clearance notch 83. The first fan 40 is located on one side of the extension line of the central axis of the IH heating coil 30. In the vertical direction, the projection surface of the first fan 40 on the reference plane and the projection surface of the IH heating coil 30 on the reference plane partially overlap. That is, the first fan 40 is not completely located below the IH heating coil 30, but only partially located below the IH heating coil 30. In this way, part of the airflow driven by the first fan 40 can flow upward through the IH heating coil 30, and part of it is blocked by the air guide rib 121 and flows to the control module 80, carrying away the heat from the surface of the heat dissipation fins 82. By providing a clearance notch 83 on the control module 80, the insertion post 123 of the temperature probe 50 can be set at this position, and the first fan 40 can be set on one side of the insertion post 123, thus achieving the compactness of the overall structure. For details on the airflow process, please refer to [link / reference needed]. Figure 1 .
[0070] Furthermore, when setting the first fan 40, the projection of the rotation center of the first fan 40 on the reference plane in the vertical direction is located outside the projection surface of the IH heating ring 30 on the reference plane in the vertical direction. The area of the overlapping part of the projection surface of the IH heating ring 30 and the projection surface of the first fan 40 is 1 / 5 to 3 / 10 of the area of the projection surface of the IH heating ring 30. This ensures that the overlapping part of the IH heating ring 30 and the first fan 40 is not too small, which would weaken the heat dissipation effect of the airflow driven by the first fan 40 on the IH heating ring 30. It also avoids that the overlapping part is not too large. When the overlapping part is too large, the outer edge of the first fan 40 may touch the plug 123, and the first fan 40 may interfere with the plug 123, affecting the rotation of the first fan 40.
[0071] In some embodiments, the area of the overlapping portion of the projection surface of the IH heating coil 30 and the projection surface of the first fan 40 is 1 / 5, 1 / 4, or 3 / 10 of the area of the projection surface of the IH heating coil 30, etc., and is not limited here.
[0072] Please refer to Figure 6 In this embodiment, the air guide rib 121 includes an enclosure portion 1211, a first air guide portion 1212 and a second air guide portion 1213 disposed at both ends of the enclosure portion 1211. The enclosure portion 1211 is provided with an installation space 1214. An air outlet 1215 is formed between the first air guide portion 1212 and the second air guide portion 1213. The first air guide portion 1212 and the second air guide portion 1213 are disposed on both sides of the heat dissipation fins 82. In this way, when the first fan 40 drives the airflow out, it is blocked by the first air guide portion 1212 or the second air guide portion 1213, which can gather the airflow and make it flow in the direction of the heat dissipation fins 82, thereby realizing the heat dissipation of the heat dissipation fins 82.
[0073] Specifically, the first air guide 1212 extends along the tangential direction toward the end of the enclosure 1211 and is located on the side of the plug post 123, thereby avoiding the placement of the temperature probe 50. When the first fan 40 rotates counterclockwise, the airflow, blocked by the first air guide 1212, flows toward the heat dissipation fins 82 in a direction roughly parallel to the extension direction of the heat dissipation fins 82, thereby achieving the heat dissipation effect on the heat dissipation fins 82. Furthermore, the tangential direction of the second air guide 1213 and the end of the enclosure 1211 is set at an acute angle, and the second air guide 1213 is set away from the first air guide 1212, thereby avoiding the end of the control module 80. Specifically, it avoids the placement of the heat dissipation fins 82, so that the first air guide 1212 and the second air guide 1213 are arranged around the sides of the heat dissipation fins 82.
[0074] Further, please refer to Figure 6The second air guide 1213 is attached to the side wall of the outer pot 12, and the first air guide 1212 is close to the circuit board 81, so that the airflow driven by the first fan 40 is gathered and flows out from the flow channel formed between the first air guide 1212 and the second air guide 1213 as much as possible; furthermore, connecting the second air guide 1213 to the inner wall of the outer shell can not only improve the air guiding effect, but also increase the structural strength of the outer pot 12.
[0075] The air fryer 100 described above, by setting an IH heating coil 30 on the pot body 10, can work together with the heating plate 22 on the lid 20 to heat the food. Both the top and bottom sides of the food can quickly receive heat, which not only improves cooking efficiency but also enhances the taste of the food. Furthermore, by setting the IH heating coil 30, water can be directly placed in the inner pot 90 made of magnetic material, thereby steaming the food placed in the inner pot 90. This avoids the need for a separate steam generator in the whole machine, reducing the assembly cost and improving the practicality of the whole machine. By setting the lid 20 to open or close the pot body 10 by flipping, the inner pot 90 can be taken out and put in the pot body 10 by moving up and down, avoiding the large frictional force between the inner pot 90 and the temperature probe 50 that would cause damage when taking it out in a drawer-style manner.
[0076] The above provides a detailed description of a fresh air module and a fresh air conditioner disclosed in the embodiments of this utility model. Specific examples have been used to illustrate the principles and implementation methods of this utility model. The description of the above embodiments is only for the purpose of helping to understand the fresh air module and fresh air conditioner of this utility model and their core ideas. At the same time, for those skilled in the art, there will be changes in the specific implementation methods and application scope based on the ideas of this utility model. Therefore, the content of this specification should not be construed as a limitation of this utility model.
Claims
1. An air fryer (100), characterized in that, include: The pot body (10) includes an inner pot (11) and an outer pot (12) surrounding the inner pot (11), and an installation cavity (13) is formed between the inner pot (11) and the outer pot (12); An IH heating coil (30) is disposed at the bottom of the inner pot (11); The first fan (40) is located below the IH heating coil (30) and connected to the inner pot (11) and / or the outer pot (12); A temperature probe (50) is connected to the inner pot (11) and / or the outer pot (12) and passes through the inner pot (11).
2. The air fryer (100) according to claim 1, characterized in that, The temperature probe (50) and the IH heating coil (30) are coaxially arranged.
3. The air fryer (100) according to claim 1 or 2, characterized in that, The inner bottom wall of the outer pot (12) is provided with a plug-in post (123), and the temperature probe (50) and the plug-in post (123) are slidably arranged; The air fryer (100) also includes a mounting part (60) and an elastic part (70). The mounting part (60) is sleeved on the outside of the temperature probe (50), and the two ends of the elastic part (70) abut against the mounting part (60) and the inner bottom wall of the outer pot (12), respectively.
4. The air fryer (100) according to claim 3, characterized in that, The mounting component (60) includes a support plate (61) and a sleeve (62). The sleeve (62) is located on the side of the support plate (61) facing the elastic member (70) and is located circumferentially on the edge of the support plate (61). The support plate (61) is used to abut against the elastic member (70).
5. The air fryer (100) according to claim 1 or 2, characterized in that, The inner bottom wall of the outer pot (12) is provided with a guide rib (121), the guide rib (121) surrounds the first fan (40), and the guide rib (121) surrounds to form an air outlet (1215); The air fryer (100) also includes a control module (80), which is located below the IH heating coil (30), connected to the inner pot (11) and / or the outer pot (12), and located at the air outlet (1215).
6. The air fryer (100) according to claim 5, characterized in that, The control module (80) is provided with a clearance notch (83), and the extension line of the central axis of the IH heating coil (30) is located in the clearance notch (83); The first fan (40) is located on one side of the extension line of the central axis of the IH heating plate (22) along the vertical direction, and the projection surface of the first fan (40) on the reference plane and the projection surface of the IH heating ring (30) on the reference plane partially overlap.
7. The air fryer (100) according to claim 6, characterized in that, The projection of the rotation center of the first fan (40) onto the reference plane in the vertical direction is located outside the projection surface of the IH heating plate (22) onto the reference plane in the vertical direction. The area of the part where the projection surface of the IH heating ring (30) and the projection surface of the first fan (40) overlap is 1 / 5 to 3 / 10 of the area of the projection surface of the IH heating ring (30).
8. The air fryer (100) according to claim 1 or 2, characterized in that, The air fryer (100) also includes an inner pot (90) for holding food and is detachably mounted on the inner pot (11).
9. The air fryer (100) according to claim 1 or 2, characterized in that, The air fryer (100) also includes a lid (20) that opens or closes the openings of the inner pot (11) and / or the outer pot (12) by flipping.
10. The air fryer (100) according to claim 9, characterized in that, The cover (20) is equipped with a heating plate (22) and a second fan (21).