An electromagnetic heated cooking apparatus
By installing a barrier in the cooking equipment to prevent the container from sliding from the heating panel to the display panel, the problem of equipment failure caused by container sliding is solved, and the equipment failure rate is reduced.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- SHENZHEN TYPHUR TECH CO LTD
- Filing Date
- 2022-12-16
- Publication Date
- 2026-07-07
AI Technical Summary
Users may easily move the container from the heating part of the cooking device to the display and operation part, which increases the probability of device malfunction.
A barrier is installed in the cooking device, located between the first panel and the second panel, and higher than the two panels, to prevent the container from moving from the first panel to the second panel and to protect the screen assembly from high temperature damage.
It reduces the failure rate of cooking equipment by preventing containers from sliding to the display operation area through a barrier, thus reducing damage to the screen components from high temperatures.
Smart Images

Figure CN115930272B_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of cooking equipment technology, specifically to an electromagnetic heating cooking device. Background Technology
[0002] Electromagnetic heating cooking appliances (such as induction cookers) typically include a heating element for heating the container and a display / operation element for the user to view the operating status and perform operations. During use, the user may accidentally move the heated container from the heating element to the display / operation element. Since the display / operation element usually includes a screen and control circuitry, these electronic components are sensitive to changes in ambient temperature; therefore, the high temperature at the bottom of the container may cause the cooking appliance to malfunction. Summary of the Invention
[0003] The main technical problem solved by this invention is that users can easily move the container from the heating part of the cooking equipment to the display and operation part, thereby increasing the probability of the cooking equipment malfunctioning.
[0004] In a first aspect, one embodiment provides an electromagnetic heating cooking device, comprising:
[0005] Organism;
[0006] A first panel is disposed on the machine body and is used to support the container to be heated;
[0007] An electromagnetic heating coil is disposed inside the machine body and is used to heat the container on the first panel;
[0008] The second panel is disposed on the body and is arranged side by side with the first panel;
[0009] A screen assembly is disposed on the side of the second panel facing the body, the second panel having a transparent or semi-transparent display area so that information on the screen assembly can be seen through the display area;
[0010] And a barrier member, which is at least partially disposed between the first panel and the second panel, and in the vertical direction, the barrier member is higher than the first panel and the second panel, for preventing the container from moving from the first panel to the second panel.
[0011] In one embodiment, the body includes a base plate, and in the vertical direction, the maximum distance between the barrier and the base plate is greater than the maximum distance between the first panel and the base plate and the maximum distance between the second panel and the base plate.
[0012] In one embodiment, the barrier extends in a horizontal plane along a direction perpendicular to the line connecting the midpoints of the first panel and the second panel.
[0013] In one embodiment, the barrier includes a barrier portion and a mating portion. The mating portion has a first side and a second side disposed opposite to each other. The first side of the mating portion mates with the first panel, and the second side of the mating portion mates with the second panel. The barrier portion is disposed above the mating portion and is used to contact a container on the first panel to prevent the container from moving from the first panel to the second panel.
[0014] In one embodiment, the first side of the mating part has a first mating groove, which engages with the first panel, and the second side of the mating part has a second mating groove, which engages with the second panel.
[0015] In one embodiment, the device further includes a mounting base connected to the body for supporting the first panel and the second panel. The portion of the mounting base facing the gap between the first panel and the second panel has a mounting groove. The barrier also includes a mounting portion disposed below the mating portion, which engages with the mounting groove.
[0016] In one embodiment, the mounting groove is further provided with an adhesive structure, which adhesively bonds the mounting part to the inner wall of the mounting groove. The outer surface of the mounting part is provided with a plurality of adhesive grooves, and the adhesive structure engages with the adhesive grooves.
[0017] In one embodiment, the barrier has a contact sidewall for contacting a container on the first panel to prevent the container from moving from the first panel to the second panel, the contact sidewall being perpendicular to the first panel.
[0018] In one embodiment, the barrier includes a barrier portion, a mating portion, and a mounting portion. In the vertical direction, the barrier portion, the mating portion, and the mounting portion are connected sequentially from top to bottom, or the barrier portion, the mating portion, and the mounting portion form an integral structure in a top-to-bottom order.
[0019] In one embodiment, in the vertical direction, the distance between the top of the barrier and the top of the first panel is a first distance, and the distance between the top of the barrier and the top of the second panel is a second distance, both the first distance and the second distance being greater than or equal to 2.5 mm.
[0020] In one embodiment, the body has a first cavity and a second cavity, the first cavity is disposed opposite to the first panel, the electromagnetic heating coil is disposed in the first cavity, the second cavity is disposed opposite to the second panel, and a partition structure is provided between the first cavity and the second cavity to separate the first cavity and the second cavity to prevent gas flow between the first cavity and the second cavity.
[0021] In one embodiment, the device further includes a mounting base connected to the body. The mounting base has a first surface and a second surface disposed opposite to each other. The mounting base has a thickness portion that is recessed from the first surface to the second surface to form a receiving cavity on the first surface and a protruding structure on the second surface.
[0022] The screen assembly includes a display screen, a screen control assembly, and a stacking component. The screen control assembly is connected to the side of the display screen facing the mounting base, and at least a portion of the screen control assembly extends into the receiving cavity. The stacking component is disposed on the second surface, excluding the protruding structure.
[0023] In a second aspect, one embodiment provides an electromagnetic heating cooking device, comprising:
[0024] Organism;
[0025] A first panel is disposed on the machine body and is used to support the container to be heated;
[0026] An electromagnetic heating coil is disposed inside the machine body and is used to heat the container on the first panel;
[0027] And a barrier, which is at least partially disposed on the first panel to prevent the container from moving out of the first panel.
[0028] Thirdly, one embodiment provides an electromagnetic heating cooking device, comprising:
[0029] Organism;
[0030] A second panel is disposed on the body;
[0031] A screen assembly is disposed on the side of the second panel facing the body, the second panel having a transparent or semi-transparent display area so that information on the screen assembly can be seen through the display area;
[0032] And a barrier, which is at least partially disposed on the second panel and is higher than the second panel in the vertical direction, to prevent the container from moving onto the second panel.
[0033] In one embodiment, the body includes a base plate, and in the vertical direction, the maximum distance between the barrier and the base plate is greater than the maximum distance between the second panel and the base plate.
[0034] In one embodiment, the barrier includes a barrier portion and a mating portion, the mating portion having a first side and a second side disposed opposite to each other, the second side of the mating portion engaging with the second panel; the barrier portion is disposed above the mating portion, the barrier portion being used to prevent the container from moving onto the second panel.
[0035] In one embodiment, the device further includes a mounting base connected to the body for supporting the second panel, the mounting base having a mounting groove; the barrier further includes a mounting portion disposed below the mating portion, the mounting portion engaging with the mounting groove.
[0036] According to the electromagnetic heating cooking device of the above embodiment, the cooking device includes a body, a first panel, an electromagnetic heating coil, a second panel, a screen assembly, and a barrier. The first panel is disposed on the body and supports a container to be heated. The electromagnetic heating coil is disposed within the body and heats the container on the first panel. The second panel is disposed on the body and arranged side-by-side with the first panel. The screen assembly is disposed on the side of the second panel facing the body, and the second panel has a transparent or semi-transparent display area so that information on the screen assembly can be seen through the display area. The barrier is at least partially disposed between the first and second panels, and in the vertical direction, the barrier is higher than both the first and second panels, preventing the container from moving from the first panel to the second panel. When using the cooking device, the user places the container on the first panel, and the electromagnetic heating coil heats the container on the first panel. Because of the added barrier, the container is prevented from moving from the first panel to the second panel, thereby preventing the high temperature at the bottom of the container from damaging the screen assembly under the second panel, thus helping to reduce the failure rate of the cooking device. Attached Figure Description
[0037] Figure 1 This is a schematic diagram of the structure of a cooking device in one embodiment of this application;
[0038] Figure 2 This is a schematic diagram of the internal structure of a cooking device in one embodiment of this application;
[0039] Figure 3 This is a schematic diagram of the structure of the first panel, the second panel, and the mounting base in one embodiment of this application;
[0040] Figure 4 For this application Figure 3 Enlarged view of point A in the middle;
[0041] Figure 5 This is a schematic diagram of the structure of the first panel, the second panel, the mounting base, and the screen assembly in one embodiment of this application;
[0042] Reference numerals: 100, Body; 110, Base plate; 120, First cavity; 130, Second cavity; 140, Separation structure; 200, First panel; 300, Electromagnetic heating coil; 400, Second panel; 500, Screen assembly; 510, Display screen; 520, Screen control assembly; 530, Stacking component; 600, Barrier; 610, Barrier part; 611, Contact sidewall; 620, Mating part; 621, First mating groove; 622, Second mating groove; 630, Mounting part; 631, Adhesive groove; 700, Mounting base; 710, Mounting groove; 720, First surface; 730, Second surface; 740, Thick part; 741, Receiving cavity; 742, Protruding structure. Detailed Implementation
[0043] The present invention will now be described in further detail with reference to specific embodiments and accompanying drawings. Similar elements in different embodiments are referred to by associated similar element reference numerals. In the following embodiments, many details are described to facilitate a better understanding of this application. However, those skilled in the art will readily recognize that some features may be omitted in different situations, or may be replaced by other elements, materials, or methods. In some cases, certain operations related to this application are not shown or described in the specification. This is to avoid obscuring the core parts of this application with excessive description. For those skilled in the art, detailed description of these related operations is not necessary; they can fully understand the related operations based on the description in the specification and general technical knowledge in the art.
[0044] Furthermore, the features, operations, or characteristics described in the specification can be combined in any suitable manner to form various embodiments. At the same time, the steps or actions in the method description can be rearranged or adjusted in a manner obvious to those skilled in the art. Therefore, the various orders in the specification and drawings are only for the clear description of a particular embodiment and do not imply a necessary order, unless otherwise stated that a particular order must be followed.
[0045] The serial numbers assigned to components in this document, such as "first" and "second," are used only to distinguish the described objects and have no sequential or technical meaning. The terms "connection" and "linkage" used in this application, unless otherwise specified, include both direct and indirect connections (linkages).
[0046] Electromagnetic heating cooking appliances (such as induction cookers) typically include a support panel and an electromagnetic heating coil. The support panel can be made of heat-resistant ceramic or glass, and the electromagnetic heating coil is located below the support panel. During cooking, food is placed in a container made of iron or alloy, and then the container is placed on the support panel. An alternating current is then passed through the electromagnetic heating coil below the support panel, causing the coil to generate a magnetic field. When the magnetic field lines pass through the bottom of the container (such as an iron or stainless steel pot), eddy currents are generated, causing the bottom of the container to heat up rapidly, thus heating the food.
[0047] This embodiment provides a cooking device using electromagnetic heating.
[0048] Please refer to Figure 1-5 The cooking device includes a body 100, a first panel 200, an electromagnetic heating coil 300, a second panel 400, a screen assembly 500, and a barrier 600.
[0049] A first panel 200 is disposed on the body 100 and is used to support a container to be heated. An electromagnetic heating coil 300 is disposed inside the body 100 and is used to heat the container on the first panel 200. A second panel 400 is disposed on the body 100 and is arranged side by side with the first panel 200. A screen assembly 500 is disposed on the side of the second panel 400 facing the body 100, and the second panel 400 has a transparent or semi-transparent display area so that information on the screen assembly 500 can be seen through the display area. A barrier 600 is at least partially disposed between the first panel 200 and the second panel 400, and in the vertical direction, the barrier 600 is higher than the first panel 200 and the second panel 400, to prevent the container from moving from the first panel 200 to the second panel 400. When using the cooking appliance, the user places the container on the first panel 200, and the electromagnetic heating coil 300 heats the container on the first panel 200.
[0050] By adding the barrier 600, the container is prevented from moving from the first panel 200 to the second panel 400, thereby preventing the high temperature at the bottom of the container from damaging the screen assembly 500 under the second panel 400, which in turn helps to reduce the failure rate of the cooking equipment.
[0051] Please refer to Figure 1 , 3Regarding point 4, it should be noted that in specific application scenarios, the first panel 200 of the cooking equipment typically has a smooth surface. The container to be heated is placed on this smooth surface. When the user operates the container, for example, by flipping or stirring the food inside, the container can easily slide on the first panel 200, making it prone to moving to the second panel 400 adjacent to the first panel 200, thus affecting the screen assembly 500 below the second panel 400. However, with the addition of a barrier 600 between the first panel 200 and the second panel 400, since the barrier 600 is higher than both panels, when the container moves from the first panel 200 to the second panel 400, the portion of the barrier 600 higher than the first and second panels 200 will contact the side of the container. On the one hand, it hinders the movement of the container, reducing the possibility of the container moving directly to the second panel 400. On the other hand, the resistance formed by the barrier 600 provides feedback to the operator, enabling the operator to notice the risk of the container moving to the second panel 400 and make adjustments to the ongoing operation, thereby further reducing the possibility of the container moving to the second panel 400.
[0052] It is understood that the above-described cooking device, from the perspective of "preventing the container from moving from the first panel 200 to the second panel 400", places the barrier 600 between the first panel 200 and the second panel 400. In other embodiments, the barrier 600 may also be placed on the first panel 200 or the second panel 400, considering only one end of the first panel 200 or the second panel 400.
[0053] For example, please refer to Figure 1-4 In one embodiment, the electromagnetic heating cooking device includes a body 100, a first panel 200, an electromagnetic heating coil 300, and a barrier 600.
[0054] A first panel 200 is disposed on the body 100 and is used to support a container to be heated. An electromagnetic heating coil 300 is disposed inside the body 100 and is used to heat the container on the first panel 200. A barrier 600 is at least partially disposed on the first panel 200 and, in the vertical direction, is higher than the first panel 200, in order to prevent the container from moving out of the first panel 200.
[0055] Considering one end of the first panel 200, since a barrier 600 is provided on the first panel 200, the container is prevented from moving out of the first panel 200, thereby avoiding the high temperature at the bottom of the container from affecting other components of the cooking device. These "other components" include, but are not limited to, the screen assembly 500 under the second panel 400.
[0056] For example, please refer to Figure 1-4 In one embodiment, the electromagnetic heating cooking device includes a body 100, a second panel 400, a screen assembly 500, and a barrier 600.
[0057] A second panel 400 is disposed on the body 100, and a screen assembly 500 is disposed on the side of the second panel 400 facing the body 100. The second panel 400 has a transparent or semi-transparent display area so that information on the screen assembly 500 can be seen through the display area. A barrier 600 is at least partially disposed on the second panel 400, and in the vertical direction, the barrier 600 is higher than the second panel 400 to prevent the container from moving onto the second panel 400 and to avoid damage to the second panel 400 or the screen assembly 500 caused by the high temperature of the container.
[0058] Considering one end of the second panel 400, since a barrier 600 is provided on the second panel 400, the container is prevented from moving to the second panel 400, thereby preventing the container moving from other components to the second panel 400 from affecting the screen assembly 500 under the second panel 400. These "other components" include, but are not limited to, the first panel 200.
[0059] It is understandable that, when considering only one end of the first panel 200 or the second panel 400, other descriptions of the cooking equipment can also be changed accordingly. For example, "In the vertical direction, the maximum distance between the barrier 600 and the base plate 110 is greater than the maximum distance between the first panel 200 and the base plate 110 and the maximum distance between the second panel 400 and the base plate 110" can be adjusted to "In the vertical direction, the maximum distance between the barrier 600 and the base plate 110 is greater than the maximum distance between the second panel 400 and the base plate 110" when considering only one end of the second panel 400.
[0060] In other embodiments, other suitable structures can also be used to prevent the container from moving out of the first panel 200 or moving to the second panel 400. Specifically, the structure used to prevent the container from moving can be in direct contact with the container, such as the barrier 600. For example, the structure can be a damping layer with a high coefficient of friction, which is laid on the edge of the first panel 200. When the container moves to contact the damping layer, the friction between the damping layer and the container serves as a resistance to prevent the container from moving out of the first panel 200.
[0061] The structure used to prevent the container from moving can also be one that does not directly contact the container. For example, the structure can be a magnet, which can be placed at the bottom of the first panel 200. When the container is made of a magnetic metal or alloy, the magnetic force between the magnet and the container can be used as a resistance to prevent the container from moving out of the first panel 200.
[0062] Please refer to Figure 1 and2 In one embodiment, the body 100 includes a base plate 110. In the vertical direction, the maximum distance between the barrier 600 and the base plate 110 is greater than the maximum distance between the first panel 200 and the base plate 110 and the maximum distance between the second panel 400 and the base plate 110.
[0063] By comparing the maximum distances between the barrier 600, the first panel 200, the second panel 400, and the base plate 110, the meaning of "the barrier 600 is higher than the first panel 200 and the second panel 400" is further explained. Specifically, the barrier 600 can be perpendicular to the first panel 200 and the second panel 400, or it can be at an angle to the first panel 200 and the second panel 400, for example, at an angle of 30° or 60°.
[0064] Please refer to Figure 1 In one embodiment, the barrier 600 extends in a horizontal plane along a direction perpendicular to the line connecting the midpoints of the first panel 200 and the second panel 400.
[0065] The extension direction of the barrier member 600 is perpendicular to the arrangement direction of the first panel 200 and the second panel 400. Under the premise of the same blocking effect, the extension direction of the barrier member 600 in this embodiment is conducive to reducing the length of the barrier member 600 and saving the material used for the barrier member 600. Of course, in other embodiments, the barrier member 600 extends in the horizontal plane in other ways according to actual needs. For example, when the first panel 200 is circular, the barrier member 600 can also extend in an arc shape in the horizontal plane.
[0066] Please refer to Figure 3 and 4 In one embodiment, the barrier 600 includes a barrier portion 610 and a mating portion 620. The mating portion 620 has a first side and a second side disposed opposite to each other. The first side of the mating portion 620 mates with a first panel 200, and the second side of the mating portion 620 mates with a second panel 400. The barrier portion 610 is disposed above the mating portion 620 and is used to contact a container on the first panel 200 to prevent the container from moving from the first panel 200 to the second panel 400.
[0067] By connecting the mating part 620 to the first panel 200 and the second panel 400, the barrier 600 is installed between the first panel 200 and the second panel 400. Furthermore, the barrier part 610 can contact the side of the container to prevent the container from moving from the first panel 200 to the second panel 400. Specifically, the connection between the mating part 620 and the first panel 200 and the second panel 400 can be a snap-fit, adhesive, damping fit, or other suitable connection method.
[0068] Please refer to Figure 3 and4 In one embodiment, the first side of the mating part 620 has a first mating groove 621, which engages with the first panel 200, and the second side of the mating part 620 has a second mating groove 622, which engages with the second panel 400.
[0069] The first mating groove 621 and the second mating groove 622 achieve the snap-fit connection between the mating part 620 and the first panel 200 and the second panel 400. Specifically, the shapes of the first mating groove 621 and the second mating groove 622 can correspond to the shapes of the sides of the first panel 200 and the second panel 400 to improve the stability of the snap-fit. Of course, in other embodiments, the mating part 620 and the first panel 200 and the second panel 400 can also be connected by adhesive, damping fit or other suitable connection methods.
[0070] Please refer to Figure 3 and 4 In one embodiment, the cooking device further includes a mounting base 700 connected to the body 100 for supporting the first panel 200 and the second panel 400. The portion of the mounting base 700 facing the gap between the first panel 200 and the second panel 400 has a mounting groove 710. The barrier 600 also includes a mounting portion 630 disposed below the mating portion 620, which engages with the mounting groove 710.
[0071] On the one hand, the mounting base 700 serves to support the first panel 200 and the second panel 400. On the other hand, the blocking member 600 is stably installed between the first panel 200 and the second panel 400 through the snap-fit of the mounting groove 710 and the mounting part 630.
[0072] Please refer to Figure 3 and 4 In one embodiment, the mounting groove 710 is further provided with an adhesive structure (not shown), which adhesively bonds the mounting part 630 to the inner wall of the mounting groove 710. The outer surface of the mounting part 630 is provided with a plurality of adhesive grooves 631, and the adhesive structure is engaged with the adhesive grooves 631.
[0073] The bonding structure and the bonding groove 631 work together to create a tighter connection between the bonding structure and the mounting part 630, thereby facilitating the stable fixing of the mounting part within the mounting groove 710. Specifically, the bonding structure can be any solidified adhesive layer. Of course, in other embodiments, an interference fit or other connection method can be used between the mounting part 630 and the mounting groove 710 instead of the bonding method.
[0074] Please refer to Figure 3 and 4In one embodiment, the barrier portion 610 has a contact sidewall 611 for contacting a container on the first panel 200 to prevent the container from moving from the first panel 200 to the second panel 400. The contact sidewall 611 is perpendicular to the first panel 200.
[0075] Since some inclined or curved sidewalls may guide the movement of the container from the first panel 200 to the second panel 400, setting the contact sidewall 611 to be perpendicular to the first panel 200 can enable the contact sidewall 611 to have a better blocking effect on the container.
[0076] Please refer to Figure 3 and 4 In one embodiment, the barrier 600 includes a barrier portion 610, a mating portion 620, and a mounting portion 630. Vertically, the barrier portion 610, mating portion 620, and mounting portion 630 are connected sequentially from top to bottom, or they form an integral structure in a top-to-bottom order. Typically, a container to be heated is disposed on the first panel 200. After the container is heated, it reflects heat away from the first panel 200. By providing the barrier 600, heat transfer from the first panel 200 to the second panel 400 can be reduced, protecting the second panel 400 and the screen assembly 500 below it from damage due to high temperatures. This allows the screen assembly 500 to be a touchscreen or other screen assembly with poor temperature resistance.
[0077] The barrier portion 610, located at the top of the barrier member 600, contacts the container to act as a barrier. The mating portion 620, located in the middle of the barrier member 600, mates with the first panel 200 and the second panel 400, thus positioning the barrier member 600 between the first panel 200 and the second panel 400. The mounting portion 630, located at the bottom, mates with the mounting groove 710, thus ensuring stable installation of the barrier member 600 between the first panel 200 and the second panel 400. Specifically, the barrier portion 610, the mating portion 620, and the mounting portion 630 can be three independent components connected in sequence, or they can be a single integral structure molded by injection molding or other methods.
[0078] Please refer to Figure 3 and 4 In one embodiment, in the vertical direction, the distance between the top of the barrier 600 and the top of the first panel 200 is a first distance, and the distance between the top of the barrier 600 and the top of the second panel 400 is a second distance, both the first distance and the second distance being greater than or equal to 2.5 mm.
[0079] In practical applications, the specific distance between the barrier 610 and the first panel 200 and the second panel 400 deserves careful consideration. If the distance is too large, the barrier 600 will protrude excessively from the first panel 200 and the second panel 400, affecting the appearance of the cooking equipment and increasing its thickness unnecessarily. Conversely, if the distance is too small, it will be difficult to effectively block the container. Through continuous testing, it was found that when the first and second distances are greater than or equal to 2.5 mm, the movement of the container can be effectively blocked, providing the user with a tactile feedback of the blocking effect.
[0080] Please refer to Figure 1 and 2 In one embodiment, the body 100 has a first cavity 120 and a second cavity 130. The first cavity 120 is disposed opposite to the first panel 200. An electromagnetic heating coil 300 is disposed in the first cavity 120. The second cavity 130 is disposed opposite to the second panel 400. A partition structure 140 is provided between the first cavity 120 and the second cavity 130 to separate the first cavity 120 and the second cavity 130, thereby preventing gas flow between the first cavity 120 and the second cavity 130.
[0081] This makes it difficult for the first cavity 120 to exchange heat with the second cavity 130, thereby helping to prevent the heat generated when the electromagnetic heating coil 300 is working from affecting the components inside the second cavity 130, including but not limited to the screen assembly 500 under the first panel 200.
[0082] Please refer to Figure 3-5 In one embodiment, the cooking device further includes a mounting base 700 connected to the body 100. The mounting base 700 has a first surface 720 and a second surface 730 disposed opposite to each other. The mounting base 700 has a thickness portion 740 recessed from the first surface 720 to the second surface 730 to form a receiving cavity 741 on the first surface 720 and a protruding structure 742 on the second surface 730. The screen assembly 500 includes a display screen 510, a screen control assembly 520, and a stacking member 530. The screen control assembly 520 is connected to the side of the display screen 510 facing the mounting base 700, and at least a portion of the screen control assembly 520 extends into the receiving cavity 741. The stacking member 530 is disposed on the second surface 730 except for the protruding structure 742.
[0083] The mounting space on the second surface 730 of the mounting base 700, excluding the protruding structure 742, is effectively utilized, thereby reducing the maximum thickness of the display screen 510, screen control component 520, stacking component 530, and mounting base 700 as a whole, which in turn helps to reduce the thickness of the cooking device. Specifically, the stacking component 530 includes, but is not limited to, the main control circuit board, speaker module, button module, and antenna module.
[0084] The above examples illustrate the present invention only to aid in understanding it and are not intended to limit the scope of the invention. Those skilled in the art can make various simple deductions, modifications, or substitutions based on the principles of this invention.
Claims
1. A cooking device using electromagnetic heating, characterized in that, include: Organism; A first panel is disposed on the machine body and is used to support the container to be heated; An electromagnetic heating coil is disposed inside the machine body and is used to heat the container on the first panel; The second panel is disposed on the body and is arranged side by side with the first panel; A screen assembly is disposed on the side of the second panel facing the body, the second panel having a transparent or semi-transparent display area so that information on the screen assembly can be seen through the display area; And a barrier member, which is at least partially disposed between the first panel and the second panel, and in the vertical direction, the barrier member is higher than the first panel and the second panel, so as to prevent the container from moving from the first panel to the second panel; The barrier includes a barrier portion and a mating portion. The mating portion has a first side and a second side disposed opposite to each other. The first side of the mating portion mates with the first panel, and the second side of the mating portion mates with the second panel. The barrier portion is disposed above the mating portion and is used to contact the container on the first panel to prevent the container from moving from the first panel to the second panel. It also includes a mounting base connected to the body for supporting the first panel and the second panel, and the portion of the mounting base facing the gap between the first panel and the second panel has a mounting groove; the barrier also includes a mounting part disposed below the mating part, and the mounting part engages with the mounting groove. The mounting base is connected to the body. The mounting base has a first surface and a second surface disposed opposite to each other. The mounting base has a thickness portion that is recessed from the first surface of the mounting base to form a receiving cavity on the first surface of the mounting base and a protruding structure on the second surface of the mounting base. The screen assembly includes a display screen, a screen control assembly, and a stacking component. The screen control assembly is connected to the side of the display screen facing the mounting base, and at least a portion of the screen control assembly extends into the receiving cavity. The stacking component is disposed on the second surface except for the portion of the protruding structure.
2. The cooking apparatus as described in claim 1, characterized in that, The body includes a base plate. In the vertical direction, the maximum distance between the barrier and the base plate is greater than the maximum distance between the first panel and the base plate and the maximum distance between the second panel and the base plate.
3. The cooking apparatus as described in claim 1, characterized in that, The barrier extends in the horizontal plane along a direction perpendicular to the line connecting the midpoints of the first panel and the second panel.
4. The cooking apparatus as described in claim 1, characterized in that, The first side of the mating part has a first mating groove, which engages with the first panel. The second side of the mating part has a second mating groove, which engages with the second panel.
5. The cooking apparatus as described in claim 1, characterized in that, The barrier has a contact sidewall for contacting a container on the first panel to prevent the container from moving from the first panel to the second panel, and the contact sidewall is perpendicular to the first panel.
6. The cooking apparatus according to any one of claims 1-5, characterized in that, In the vertical direction, the distance between the top of the barrier and the top of the first panel is a first distance, and the distance between the top of the barrier and the top of the second panel is a second distance, both of which are greater than or equal to 2.5 mm.