A reversible pot support and gas stove
By designing a reversible pot support with an arc-shaped structure to adapt to different pot shapes, the problem of low cooking efficiency caused by excessive distance between the flat-bottomed pan and the energy-concentrating plate is solved, enabling efficient cooking for different pot shapes.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- QINGDAO HAIER WISDOM KITCHEN APPLIANCE CO LTD
- Filing Date
- 2025-05-09
- Publication Date
- 2026-06-05
AI Technical Summary
Existing pot supports have excessive distances between the pan and the energy-concentrating plate when using them, which affects cooking efficiency and quality.
Design a reversible pot support, including a base assembly, a first auxiliary assembly, and a second auxiliary assembly. The first and second auxiliary assemblies are provided with a disc-shaped structure. The arc structure of the first auxiliary assembly is smaller than the arc structure of the second auxiliary assembly. By adjusting the direction of the components, it can adapt to different pot shapes and improve heat utilization.
Improve cooking efficiency by using different pot types, ensure effective heat transfer, prevent heat loss, and enhance cooking results.
Smart Images

Figure CN224327246U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of gas stove technology, and in particular to a reversible pot support and a gas stove. Background Technology
[0002] As living standards improve, people have increasingly higher demands for cooking experience and results. In daily cooking, gas stoves are among the most widely used kitchen appliances, and pot supports, as an important accessory for gas stoves, directly affect the cooking process.
[0003] Currently, common pot supports may or may not use a heat-concentrating plate, depending on the needs. When using a heat-concentrating plate, it typically has a single plate structure with a concave, curved surface. This structure is more suitable for pointed-bottom pots. When using this structure to place a flat-bottomed pot, the distance between the heat-concentrating plate and the bottom of the pot is greater than the distance between the bottom of the pointed-bottom pot and the heat-concentrating plate. This is detrimental to radiative heat transfer between the heat-concentrating plate and the flat-bottomed pot, as well as convective heat transfer of internal airflow, thus affecting cooking efficiency and quality.
[0004] In view of the above, this application is hereby submitted. Utility Model Content
[0005] To address the issue of low energy-concentrating efficiency of frying pans during cooking in related technologies.
[0006] This application proposes a reversible pot support, which includes a base assembly, a first auxiliary assembly, and a second auxiliary assembly, wherein the centers of the first auxiliary assembly and the second auxiliary assembly together form a first through hole, and the first auxiliary assembly and the second auxiliary assembly are mounted on the base assembly.
[0007] The first auxiliary component is configured as a disc-shaped structure, the second auxiliary component is configured as a disc-shaped structure, the second auxiliary component is installed on the outer bottom surface of the first auxiliary component, and the opening direction of the first auxiliary component and the opening direction of the second auxiliary component are set in opposite directions.
[0008] The first auxiliary component includes a first arc-shaped structure protruding away from the first through hole, and the second auxiliary component includes a second arc-shaped structure protruding away from the first through hole, wherein the arc of the first arc-shaped structure is smaller than the arc of the second arc-shaped structure.
[0009] In one possible embodiment, the inner side of the first auxiliary component is provided with a plurality of first support portions along the circumferential direction, and the inner side of the second auxiliary component is provided with a plurality of second support portions along the circumferential direction.
[0010] The angle between the end face of the first support near the first through hole and the vertical plane is different from the angle between the end face of the second support near the first through hole and the vertical plane.
[0011] In one possible embodiment, the first support is configured to be vertically arranged, and the second support is configured to be inclined downward from the periphery of the second auxiliary component toward the center.
[0012] In one possible embodiment, the top surface of the support column includes a first support surface, which is configured as a plane.
[0013] In one possible embodiment, the top surface of the support column includes a second support surface configured to slope downwards from the periphery of the first auxiliary component toward the center.
[0014] In one possible embodiment, the base assembly includes a support frame and a support column, the support column being mounted on one side of the support frame along the height direction, and a first auxiliary component and a second auxiliary component being mounted on the support frame via the support column.
[0015] In some possible embodiments, the first auxiliary component is provided with a plurality of second through holes circumferentially near its own edge, and the second auxiliary component is provided with a plurality of third through holes circumferentially near its own edge.
[0016] The support column passes through the second and third through holes to mount the first and second auxiliary components onto the support frame.
[0017] In some possible embodiments, when the side with the first support is installed facing upwards, the support column passes through the third through hole and the second through hole in sequence, and the second support abuts against the upper surface of the support frame;
[0018] Define the vertical distance between the top surface of the support column and the edge of the first through hole as H1, and define the vertical distance between the bottom surface of the support frame and the edge of the first through hole as H2.
[0019] Where the difference between H1 and H2 is less than 15 mm, or H1 = H2.
[0020] When the side with the second support is installed facing upwards, the bracket passes through the second and third through holes in sequence, and the first support abuts against the upper surface of the support frame; at this time, the difference between H1 and H2 is less than 15mm, or H1 = H2.
[0021] In one possible embodiment, the top surface of the support column includes a second support surface with a different inclination angle.
[0022] The reversible pot support proposed in this application includes a base assembly, a first auxiliary assembly, and a second auxiliary assembly. The first and second auxiliary assemblies are provided with a disc-shaped structure. The first auxiliary assembly includes a first arc-shaped structure protruding outward, and the second auxiliary assembly includes a second arc-shaped structure protruding outward. The arc of the first arc-shaped structure is smaller than the arc of the second arc-shaped structure. By aligning the first auxiliary assembly upward to adapt to the cooking effect during the cooking process of a flat-bottomed pan, and aligning the second auxiliary assembly upward to adapt to the cooking effect during the cooking process of a pointed-bottomed pan, cooking efficiency can be improved in different cooking scenarios.
[0023] Secondly, this application provides a gas stove, which includes the aforementioned reversible pot support.
[0024] By combining the aforementioned reversible pot support with the gas stove, the cooking efficiency when using a frying pan is improved. Attached Figure Description
[0025] The accompanying drawings, which are incorporated in and form part of this specification, illustrate embodiments consistent with this application and, together with the description, serve to explain the principles of this application.
[0026] Figure 1 This is a schematic diagram of the structure of the reversible pot support provided in this application when it is placed in the forward orientation;
[0027] Figure 2 A schematic diagram of the reversible pot support provided in this application embodiment when placed in the forward orientation;
[0028] Figure 3 A schematic diagram of the reversible pot support provided in this application embodiment when placed in the forward orientation;
[0029] Figure 4 for Figure 3 A cross-sectional view at position AA in the middle;
[0030] Figure 5 A schematic diagram of the structure of the reversible pot support provided in this application when placed in reverse;
[0031] Figure 6 A schematic diagram of the reversible pot support provided in this application embodiment when placed in reverse;
[0032] Figure 7 A schematic diagram of the reversible pot support provided in this application embodiment when placed in reverse;
[0033] Figure 8 for Figure 7 A cross-sectional view at position BB in the middle;
[0034] Figure 9 An exploded view of the reversible pot support provided in the embodiments of this application;
[0035] Figure 10 This is a schematic diagram of the base assembly in an embodiment of this application.
[0036] Explanation of reference numerals in the attached figures:
[0037] 1- Reversible pot support; 10- Base assembly; 11- Support column;
[0038] 20 - First auxiliary component; 21 - First through hole;
[0039] 23-First support section; 32-Second support section;
[0040] 111 - First support surface; 112 - Second support surface; 30 - Second auxiliary component;
[0041] 25 - First arc-shaped structure; 31 - Second arc-shaped structure;
[0042] 12-Support frame; 26-Second through hole; 33-Third through hole.
[0043] The accompanying drawings illustrate specific embodiments of this application, which will be described in more detail below. These drawings and descriptions are not intended to limit the scope of the concept in any way, but rather to illustrate the concept of this application to those skilled in the art through reference to particular embodiments. Detailed Implementation
[0044] Exemplary embodiments will now be described in detail, examples of which are illustrated in the accompanying drawings. When the following description relates to the drawings, unless otherwise indicated, the same numbers in different drawings denote the same or similar elements. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with this application. Rather, they are merely examples of apparatuses and methods consistent with some aspects of this application as detailed in the appended claims.
[0045] In related technologies, pot supports include an energy-concentrating plate and feet mounted on the plate, with the pot resting on the feet. While the single energy-concentrating plate structure improves cooking efficiency for some pots, for flat-bottomed pans, the larger space between the pan and the energy-concentrating plate hinders radiative heat transfer and convective heat transfer between the plate and the pan, thus affecting the energy-concentrating effect.
[0046] The reversible pot support provided in this application is installed on a gas stove to support pots and pans. The reversible pot support includes a base assembly, a first auxiliary assembly, and a second auxiliary assembly, which are assembled together. Both the first and second auxiliary assemblies have disc-shaped structures. The first auxiliary assembly includes a first outwardly protruding arc-shaped structure, and the second auxiliary assembly includes a second outwardly protruding arc-shaped structure. The arc of the first arc-shaped structure is smaller than that of the second arc-shaped structure. By aligning the first auxiliary assembly upwards to suit the cooking effect of a flat-bottomed pan, and the second auxiliary assembly upwards to suit the cooking effect of a pointed-bottomed pan, cooking efficiency is improved in different cooking scenarios.
[0047] The technical solution of this application and how the technical solution of this application solves the above-mentioned technical problems are described in detail below with specific embodiments. These specific embodiments can be combined with each other, and the same or similar concepts or processes may not be described again in some embodiments. The embodiments of this application will now be described with reference to the accompanying drawings.
[0048] like Figure 1 , Figure 2 As shown, the reversible pot support 1 includes a base assembly 10. The base assembly 10 can be used as the overall base of the reversible pot support 1 and for placing pots and pans.
[0049] The base assembly 10 includes a support frame 12 and a support column 11, with the support column 11 mounted on the upper surface of the support frame 12 along its height. The support frame 12 provides the overall bottom surface for the reversible pot support 1, and the support column 11 is used to place the pot.
[0050] like Figure 10 As shown, the support frame 12 is designed as a circular structure, which has good symmetry and stability and can be adapted to the layout of most kitchen countertops and cooking utensils.
[0051] It should be noted that this application does not limit the shape of the support frame 12, such as square, polygonal, etc. As long as the shape of the support frame 12 can serve the function of installing the support column 11, it is within the protection scope of this application.
[0052] like Figure 2 As shown, the reversible pot support 1 includes a first auxiliary component 20, which is configured as a disc-shaped structure. Preferably, the first auxiliary component 20 is configured as a circular disc-shaped structure. The circular configuration can evenly surround the circular bottom of the pot, collecting and reflecting energy from all directions, effectively reducing heat loss during cooking. In some embodiments, such as Figure 7As shown, the reversible pot support 1 includes a second auxiliary component 30. The second auxiliary component 30 is configured as a disc-shaped structure. The second auxiliary component 30 is disposed on the outer bottom surface of the second auxiliary component 30, and the opening direction of the first auxiliary component 20 and the opening direction of the second auxiliary component 30 are opposite.
[0053] The first auxiliary component 20 and the second auxiliary component 30 share a common center with a first through hole 21. The first through hole 21 allows the flame from the gas stove to pass through and heats the cookware on the reversible pot support 1. The diameter of the first through hole 21 needs to meet the requirements of flame coverage and uniform heating of the pot bottom.
[0054] In some implementations, such as Figure 9 As shown, the first auxiliary component 20 includes a first arc-shaped structure 25 protruding away from the first through hole 21, and the second auxiliary component 30 includes a second arc-shaped structure 31 protruding away from the first through hole 21.
[0055] When the first support part 23 is set vertically and the second support part 32 is set at an angle, the curvature of the first arc-shaped structure 25 is smaller than the curvature of the second arc-shaped structure 31.
[0056] When the first support part 23 is inclined and the second support part 32 is vertical, the curvature of the first arc-shaped structure 25 is greater than the curvature of the second arc-shaped structure 31.
[0057] This design results in a large curvature on the side walls of the disc-shaped structure that holds the pointed-bottom pan, narrowing into a distinct frustum-shaped cone to fit the pointed bottom of the pan. The side walls of the disc-shaped structure that holds the flat-bottom pan have a smaller curvature, adapting to the large flat bottom of the pan.
[0058] The two distinctly different curvature designs are both intended to fit closely to the shape of the corresponding pot bottom, reducing heat loss between the pot and the plate-shaped structure, thereby improving energy efficiency.
[0059] When the support column 11 is used to support cookware of different pot types, energy can be concentrated for the cooking process of different pot types by adjusting the placement direction of the first auxiliary component 20 and the second auxiliary component 30.
[0060] Furthermore, refer to Figure 1 The inner side of the first auxiliary component 20 is provided with a plurality of first support parts 23 along the circumferential direction, and the inner side of the second auxiliary component 30 is provided with a plurality of second support parts 32 along the circumferential direction.
[0061] Preferably, the first support parts 23 are all distributed on the inner side of the first auxiliary component 20. When the first support parts 23 are used to place the flat-bottomed pan, it can better adapt to the projection of the round flat-bottomed pan, and the support contact points are evenly distributed on the circumference of the bottom of the pan.
[0062] Preferably, four first support portions 23 are provided, and the four first support portions 23 are evenly distributed circumferentially on the inner side of the first auxiliary component 20 so as to facilitate stable installation when supported by the first support portions 23.
[0063] It should be noted that the number of first support parts 23 in this application is not limited to the four mentioned above. The first support parts 23 can also be set to three, five, etc., as long as they can satisfy the function of supporting and limiting the distance between the first through hole 21 and the flame when the first support parts 23 are installed facing downwards.
[0064] Preferably, four second support portions 32 are provided, and the four second support portions 32 are evenly distributed circumferentially on the inner side of the second auxiliary component 30, so as to facilitate stable installation when supported by the second support portions 32.
[0065] It should be noted that the number of second support parts 32 in this application is not limited to the four mentioned above. The second support parts 32 can also be set to three, five, etc., as long as they can satisfy the function of supporting and limiting the distance between the first through hole 21 and the flame when the second support parts 32 are installed facing downwards.
[0066] like Figure 1 As shown, the first support portion 23 of the first auxiliary component 20 is mounted upwards on the base component 10; this is defined as upright placement. Figure 6 As shown, the second support portion 32 of the first auxiliary component 20 is mounted on the base component 10 with its face upward, which is defined as being placed in reverse at this time.
[0067] Reference Figure 3 The first auxiliary component 20 includes a second through hole 26, which is located near the edge of the disc-shaped structure. The second through hole 26 and the first through hole 21 do not interfere with each other.
[0068] The position of the second through hole 26 matches the position of the support column 11, so that the support column 11 can pass through the second through hole 26, and the first auxiliary component 20 can be installed on the base component 10.
[0069] like Figure 10 As shown, the second auxiliary component 30 is provided with a third through hole 33 that cooperates with the second through hole 26.
[0070] like Figure 2 As shown, when the first support part 23 is installed facing upwards, the support column 11 passes through the third through hole 33 and the second through hole 26 in sequence, and then the upper surface of the second support part 32 and the support frame 12 abuts, completing the installation of the first auxiliary component 20.
[0071] The second through hole 26, the third through hole 33 and the support column 11 are on the same vertical plane so that the support column 11 can pass smoothly through the second through hole 26 and the third through hole 33, and cooperate with the first support part 23 or the second support part 32 to realize the installation between the base assembly 10 and the first auxiliary assembly 20 and the second auxiliary assembly 30.
[0072] In some embodiments, the second auxiliary component 30 and the first auxiliary component 20 are integrally formed, and the first auxiliary component 20 and the second auxiliary component 30 share the first through hole 21 through which the flame passes.
[0073] By setting the second support part 32, the distance between the edge of the first through hole 21 and the flame is limited, so as to prevent the pot from being too close to the flame.
[0074] To improve the installation stability between the base assembly 10 and the first auxiliary assembly 20, the positions of the second through holes 26 correspond to the positions of the support columns 11, and the number of second through holes 26 is the same as the number of support columns 11. Alternatively, the number of second through holes 26 cannot be less than the number of support columns 11.
[0075] like Figure 4 , Figure 5 As shown, the vertical distance between the top surface of the support column 11 and the edge of the first through hole 21 is defined as H1, and the vertical distance between the bottom surface of the support frame 12 and the edge of the first through hole 21 is defined as H2.
[0076] To prevent the flame from burning the plate structure of the first auxiliary component 20 during cooking, the difference between H1 and H2 is less than 15mm.
[0077] By limiting the vertical height of the lower space supported by the second support 32 and the vertical height of the upper space formed by the support column 11 and the first through hole 21, the vertical distance between the bottom surface of the pot and the flame is limited to a safe range when the first auxiliary component 20 of the reversible pot support 1 is installed in the forward direction.
[0078] If the difference between H1 and H2 is too large, it may cause: when placed upright, H1 is too small, and the flame may easily burn the edge, handle or stove area of the pan or flat-bottomed pan, which may easily cause a fire.
[0079] When placed upright, limiting the difference between H1 and H2 to less than 15mm ensures that the height difference between the bottom of the pot and the flame is controlled within a reasonable range, and the flame is concentrated in the bottom area of the pot to prevent overflow.
[0080] If the difference between H1 and H2 is too large, it may also cause the following: when placing the frying pan, if H1 is too large, the bottom of the frying pan will be too far from the flame, which will not only reduce the heating efficiency, but may also cause the second support part 32 to be burned due to the flame spreading outward.
[0081] In some possible implementations, H1 = H2.
[0082] By making the vertical distance between the top surface of the support column 11 and the edge of the first through hole 21 equal to the vertical distance between the bottom surface of the support frame 12 and the edge of the first through hole 21 after the first auxiliary component 20 is placed upright, the distance between the flame and the pot can be kept stable, ensuring the stability and efficiency of heat transfer during cooking.
[0083] like Figure 6 , Figure 7 As shown, when the side with the second support 32 is installed facing upwards, the support column 11 passes through the second through hole 26 and the third through hole 33 in sequence, and the first support 23 abuts against the upper surface of the support frame 12.
[0084] To ensure a stable distance between the cookware and the flame, such as Figure 8 , Figure 9 As shown, the vertical distance between the top surface of the support column 11 and the edge of the first through hole 21 is H1, and the vertical distance between the bottom surface of the support frame 12 and the edge of the first through hole 21 is H2. The difference between H1 and H2 is less than 15mm.
[0085] By limiting the vertical height of the lower space supported by the first support part 23 and the vertical height of the upper space formed by the support column 11 and the first through hole 21, when the first auxiliary component 20 of the reversible pot support 1 is placed in reverse, the vertical distance between the bottom surface of the pot and the flame is limited to a safe range.
[0086] In some possible implementations, H1 = H2.
[0087] By making the vertical distance between the top surface of the support column 11 and the edge of the first through hole 21 equal to the vertical distance between the bottom surface of the support frame 12 and the edge of the first through hole 21 after the first auxiliary component 20 is placed in the opposite direction, the distance between the flame and the pot can be kept stable, thus ensuring the stability and efficiency of heat transfer during cooking.
[0088] By setting the relationship between the vertical distance between the top surface of the support column 11 and the edge of the first through hole 21 and the vertical distance between the bottom surface of the support frame 12 and the edge of the first through hole 21 when the pot is placed upright or in reverse, it can be ensured that the vertical distance between the bottom surface of the pot and the flame is limited to a safe range regardless of whether the pot is placed upright or in reverse. This avoids the flame from getting too close to burn the non-cooking parts of the pot due to different placement methods, or the flame from getting too far away to reduce heating efficiency, thus ensuring the stability and efficiency of heat transfer during the cooking process.
[0089] The vertical distance between the top surface of the support column 11 and the edge of the first through hole 21 is greater than the vertical distance between the support point of the pointed bottom pot and the bottom of the pot, so as to avoid the bottom of the pointed bottom pot being too close to the flame and extinguishing the flame after the pointed bottom pot is installed.
[0090] In some possible implementations, the top surface of the support column 11 has a support surface with a different angle.
[0091] The top surface of the support column 11 may include a first support surface 111, such as Figure 7 As shown, the first support surface 111 is constructed as a plane. This plane is parallel to the horizontal plane, and the first support surface 111 is used to place a frying pan.
[0092] The top surface of the support column 11 includes the second support surface 112. For example... Figure 7 As shown, the second support surface 112 is configured to be inclined downward from the periphery of the support frame 12 toward the center of the support frame 12, and the second support surface 112 is used to place the pointed bottom pot.
[0093] Preferably, the angle between the second support surface 112 and the horizontal direction is 16°-20°. In some possible embodiments, the top surface of the support column 11 includes a plurality of second support surfaces 112, the multiple support surfaces having different inclination angles, which can be used to place pointed-bottom pots with different bottom curvatures.
[0094] Preferably, four support columns 11 are provided, spaced apart around the circumference of the support frame 12. This arrangement better accommodates the projection of a round cookware, with the support contact points evenly distributed around the bottom of the pot. This effectively prevents damage to the support columns 11 due to uneven stress when the cookware is heavy during cooking, ensuring the stability of the entire cookware.
[0095] It should be noted that the number of support columns 11 in this application is not limited to the four mentioned above. Support columns 11 can also be set to three, five, etc., as long as they can support different models of flat-bottomed and pointed-bottomed pans.
[0096] In some embodiments, the support frame 12 and the support column 11 are integrally formed, which facilitates improving the overall support force of the dual-purpose pot support frame 1.
[0097] The base assembly is made of an alloy material with specific physical properties. This material possesses characteristics such as high strength, high temperature resistance, and good corrosion resistance, ensuring that it can withstand high-temperature environments and frequent use during long-term cooking without damage or deformation.
[0098] In some possible implementations, the angle between the end face of the first support portion 23 near the center of the first auxiliary component 20 and the vertical plane is different from the angle between the end face of the second support portion 32 near the center of the first auxiliary component 20 and the vertical plane.
[0099] When the pot is small, the first support part 23 and the second support part 32 can be used to support the pot.
[0100] By setting the first support part 23 and the second support part 32 to form different angles with the vertical plane, different shaped pots can be placed.
[0101] The cookware of the above different shapes can be flat-bottomed pans and pointed-bottomed pans, or pointed-bottomed pans with different curvatures of the bottom surface, or flat-bottomed pans with different sizes of the bottom surface.
[0102] In this specific embodiment, the first support part 23 is arranged vertically and the second support surface 112 is arranged at an angle as an example. However, the specific structural arrangement of the first support part 23 and the second support part 32 is not limited, as long as they serve a supporting function during installation.
[0103] In some embodiments, the first support portion 23 is configured to be vertically arranged, and the second support portion 32 is configured to be inclined downward from the periphery of the first auxiliary component 20 toward the center.
[0104] In other embodiments, the first support portion 23 is configured to be inclined downward from the periphery of the first auxiliary component 20 toward the center, and the second support portion 32 is configured to be vertical.
[0105] In some embodiments, the first support portion 23 is configured to be vertically arranged. The second support portion 32 is configured to be vertically arranged.
[0106] The dimensions of the pot-holding space enclosed by the first support portion 23 and the pot-holding space enclosed by the second support portion 32 may be the same or different. When they are the same, the first support portion 23 and the second support portion 32 can be used interchangeably. When they are different, the first support portion 23 and the second support portion 32 can be used to hold frying pans of different sizes.
[0107] In some embodiments, the first support portion 23 is configured to be inclined, and the second support portion 32 is configured to be inclined.
[0108] The inclination angles of the first support portion 23 and the second support portion 32 can be the same or different. When the inclination angles of the first support portion 23 and the second support portion 32 are the same, the first support portion 23 and the second support portion 32 can be used interchangeably. When they are different, the first support portion 23 and the second support portion 32 can be used to place pots with pointed bottoms and different curvatures.
[0109] In the above embodiment, the reversible pot support 1 is configured with a double-plate structure. Different plate structures are used when supporting different pot types. The plate structure can reflect the flame energy back to the bottom of the pot, preventing heat from dissipating to the surroundings and ensuring that more heat is used to heat the food.
[0110] This application provides a reversible pot support 1, which can support both pointed-bottom pots and flat-bottom pots, thus offering better adaptability.
[0111] The reversible pot support 1 proposed in this application includes a base assembly 10, a first auxiliary assembly 20, and a second auxiliary assembly 30. The first auxiliary assembly 20 and the second auxiliary assembly 30 are provided with a disc-shaped structure. The first auxiliary assembly 20 includes an outwardly protruding first arc-shaped structure 25, and the second auxiliary assembly 30 includes an outwardly protruding second arc-shaped structure 31. The arc of the first arc-shaped structure 25 is smaller than the arc of the second arc-shaped structure 31. By facing the first auxiliary assembly 20 upward to adapt to the cooking effect in the cooking process of a flat-bottomed pan, and facing the second auxiliary assembly 30 upward to adapt to the cooking effect in the cooking process of a pointed-bottomed pan, the cooking efficiency can be improved in different cooking scenarios.
[0112] This application also proposes a gas stove, which includes the aforementioned reversible pot support 1.
[0113] By combining the aforementioned reversible pot support 1 with the gas stove, the cooking efficiency when using a flat-bottomed pan is improved.
[0114] Finally, it should be noted that other embodiments of this application will readily conceive of by those skilled in the art upon consideration of the specification and practice of the utility model disclosed herein. This application is intended to cover any variations, uses, or adaptations of this application that follow the general principles of this application and include common knowledge or customary techniques in the art not disclosed herein, and is not limited to the precise structures described above and shown in the accompanying drawings, and various modifications and alterations may be made without departing from its scope. The scope of this application is limited only by the appended claims.
Claims
1. A reversible pot support, characterized in that, include: Base assembly; A first auxiliary component, wherein the first auxiliary component is configured as a disk-shaped structure; The second auxiliary component is configured as a disc-shaped structure and is disposed on the outer bottom surface of the first auxiliary component. The opening direction of the second auxiliary component is opposite to the opening direction of the first auxiliary component. The first auxiliary component and the second auxiliary component share a common center forming a first through hole; the first auxiliary component and the second auxiliary component are mounted on the base assembly; The first auxiliary component includes a first arc-shaped structure protruding away from the first through hole, and the second auxiliary component includes a second arc-shaped structure protruding away from the first through hole. The arc of the first arc structure is smaller than the arc of the second arc structure.
2. The reversible pot support according to claim 1, characterized in that, The inner side of the first auxiliary component is provided with a plurality of first support parts along the circumferential direction, and the inner side of the second auxiliary component is provided with a plurality of second support parts along the circumferential direction. The angle between the end face of the first support near the first through hole and the vertical plane is different from the angle between the end face of the second support near the first through hole and the vertical plane.
3. The reversible pot support according to claim 2, characterized in that, The first support is configured to be vertically arranged, and the second support is configured to be inclined downward from the periphery of the second auxiliary component toward the center.
4. The reversible pot support according to claim 2 or 3, characterized in that, The base assembly includes: Support frame; A support column is installed on one side of the support frame along the height direction; The first auxiliary component and the second auxiliary component are mounted on the support frame via the support column.
5. The reversible pot support according to claim 4, characterized in that, The top surface of the support column includes a first support surface, which is constructed as a plane.
6. The reversible pot support according to claim 4, characterized in that, The top surface of the support column includes a second support surface, which is configured to slope downward from the periphery of the first auxiliary component toward the center.
7. The reversible pot support according to claim 4, characterized in that, The first auxiliary component has a plurality of second through holes arranged circumferentially near its own edge, and the second auxiliary component has a plurality of third through holes arranged circumferentially near its own edge; The support column passes through the second through hole and the third through hole to mount the first auxiliary component and the second auxiliary component on the support frame.
8. The reversible pot support according to claim 7, characterized in that, When the side with the first support is installed facing upwards, the support column passes through the third through hole and the second through hole in sequence, and the second support abuts against the upper surface of the support frame; Define the vertical distance between the top surface of the support column and the edge of the first through hole as H1, and define the vertical distance between the bottom surface of the support frame and the edge of the first through hole as H2; Where the difference between H1 and H2 is less than 15 mm, or H1 = H2; When the side with the second support is installed facing upwards, the support column passes through the second through hole and the third through hole in sequence, and the first support abuts against the upper surface of the support frame; At this point, the difference between H1 and H2 is less than 15 mm, or H1 = H2.
9. The reversible pot support according to claim 6, characterized in that, The top surface of the support column includes a second support surface with different inclination angles.
10. A gas stove, characterized in that, The reversible pot support includes any one of claims 1-9.