CN211451040U - Support frame and electromagnetism stove device - Google Patents

Abstract

The utility model relates to a support frame, this support frame detachable liftoff setting in the plane stove face of electromagnetism stove, the support frame deviates from one side of plane stove face has a support position, and the support position is used for supporting non-flat pan. The supporting frame can be arranged on the plane oven surface of the induction cooker, and then the non-flat-bottom cookware is supported on the supporting position of the supporting frame, so that the induction cooker can heat the non-flat-bottom cookware; the support frame is detached from the plane oven surface of the induction cooker, and then the flat-bottom pot is directly supported on the plane oven surface, so that the induction cooker heats the flat-bottom pot. The same induction cooker realizes the heating of the non-pan and the pan respectively through the installation and the detachment of the supporting frame, does not need to purchase the induction cooker corresponding to different types of pans, and effectively reduces the cost. Meanwhile, the non-flat-bottom cookware can be converted into the flat-bottom cookware only by installing or detaching the supporting frame, so that the use is more convenient. The utility model discloses still relate to an electromagnetism stove device.

Description

Support frame and electromagnetism stove device

Technical Field

The utility model relates to a domestic appliance equipment technical field especially relates to a support frame and electromagnetism stove device.

Background

The electromagnetic oven heats the pot by utilizing electromagnetic radiation, directly heats the pot bottom without open fire or conduction heating, has higher thermal efficiency, and becomes more and more kitchen appliances necessary for families. The existing induction cookers are generally divided into a planar induction cooker suitable for a pan and a concave induction cooker suitable for a round-bottomed pan, and because the pan is suitable for frying food and the round-bottomed pan is suitable for making food which needs to be frequently stir-fried, most families are provided with two kinds of pans for respectively making different foods at present. However, if two kinds of induction cookers are purchased corresponding to two kinds of pots, the cost is greatly increased.

SUMMERY OF THE UTILITY MODEL

Therefore, it is necessary to provide an induction cooker device which can be applied to different types of pots, aiming at the problems that the existing different types of pots need to be purchased with induction cookers correspondingly and the cost is high.

The utility model provides a support frame, the detachable liftoff plane stove face that sets up in the electromagnetism stove, the support frame deviates from one side of plane stove face has a support position, support position is used for supporting non-flat pan.

In one embodiment, the support frame includes a support main body and at least three support legs, the support main body is detachably disposed on the planar furnace surface, the at least three support legs are detachably and/or rotatably connected to a side of the support main body departing from the planar furnace surface, and the at least three support legs are used for forming the support position.

In one embodiment, a first suction piece is arranged in the support frame, and when the support frame is arranged on the plane oven surface, the first suction piece is used for generating an attractive acting force with the induction cooker.

In one embodiment, a suction cup or a damping layer is arranged on one side of the support frame facing the plane furnace surface.

In one embodiment, the supporting frame is further provided with a temperature measuring piece and a communication circuit, wherein the temperature measuring piece is electrically connected with the communication circuit, the communication circuit is used for being wirelessly connected with the induction cooker, and the temperature measuring piece is located at the supporting position and is used for acquiring the temperature of the non-flat-bottom cookware supported by the supporting position.

In one embodiment, a magnetic induction coil and a rectifying circuit are further arranged in the support frame, the magnetic induction coil is used for being matched with the induction cooker to generate electric energy, and the rectifying circuit is electrically connected with the magnetic induction coil, the temperature measuring piece and the communication circuit respectively.

In one embodiment, the support frame is further provided with an LED lamp, and the LED lamp is electrically connected with the rectifying circuit.

The electromagnetic oven device comprises the electromagnetic oven and the support frame, wherein the electromagnetic oven is provided with a plane oven surface, and the support frame is detachably arranged on the plane oven surface.

In one embodiment, a second adsorption piece is arranged in the induction cooker, the support frame is provided with a first adsorption piece, and when the support frame is placed on the plane oven face, the first adsorption piece and the second adsorption piece generate an attractive force.

In one embodiment, the first adsorption part is a magnet, and the second adsorption part is a magnetic conduction part;

the outside of magnetic conduction spare is twined and is had circular telegram coil, when circular telegram coil lets in current, magnetic conduction spare is magnetized and produces the effort of mutual repulsion or attraction to magnet.

By arranging the support frame and the induction cooker device, the support frame can be arranged on the plane cooker surface of the induction cooker, and then the non-flat-bottom cooker is supported on the support position of the support frame, so that the induction cooker can heat the non-flat-bottom cooker; the support frame is detached from the plane oven surface of the induction cooker, and then the flat-bottom pot is directly supported on the plane oven surface, so that the induction cooker heats the flat-bottom pot.

So, same electromagnetism stove realizes respectively the heating to non-pan and pan through the installation of this support frame with the separation, need not to correspond the pot of different grade type and goes to purchase the electromagnetism stove, the cost is reduced effectively. Meanwhile, the conversion between the non-flat-bottom cookware and the flat-bottom cookware can be realized only by installing or detaching the supporting frame, so that the use is more convenient

Drawings

Fig. 1 is a schematic view of a matching relationship between an induction cooker device and a non-flat-bottom pot according to an embodiment of the present invention;

FIG. 2 is a schematic exploded view of the induction cooker apparatus shown in FIG. 1 and a non-pan-based cookware;

fig. 3 is a schematic structural view of an induction cooker apparatus according to another embodiment of the present invention;

FIG. 4 is a top view of the induction cooker apparatus shown in FIG. 3;

fig. 5 is an exploded view of the induction cooker apparatus shown in fig. 3.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "or/and" includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1 and 2, an induction cooker apparatus 100 according to an embodiment of the present invention includes an induction cooker 10 and a supporting frame 20.

The supporting rack 20 is detachably disposed on the planar oven surface 122 of the induction cooker 10, and a supporting position for supporting the non-pan pot 200 is disposed on a side of the supporting rack 20 away from the planar oven surface 122.

The non-flat-bottom cookware 200 can be heated by the induction cooker by arranging the supporting frame 20 on the plane cooker surface of the induction cooker and then supporting the non-flat-bottom cookware 200 on the supporting position of the supporting frame 20; the support frame 20 is detached from the planar oven surface 122 of the induction cooker, and then the pan is directly supported on the planar oven surface 122, so that the induction cooker 10 heats the pan.

Thus, the same induction cooker 10 can be used for heating the non-pan 200 and the pan through the installation and the detachment of the supporting frame 20, and the induction cooker does not need to be purchased corresponding to different types of pans, so that the cost is effectively reduced. Meanwhile, the non-flat cookware 200 can be converted from a flat cookware only by installing or detaching the supporting frame 20, so that the use is more convenient.

In some embodiments, the induction cooking range 10 includes a housing 12, a planar oven face 122 is located on one side of the housing 12, and the housing 12 further includes a receiving cavity 124.

In some embodiments, the housing 12 is substantially identical to the housing 12 of a conventional planar induction cooker 10, and the planar oven face 122 is the plane of the flat pan of the planar induction cooker 10 on which the planar pyrex plate is placed.

Referring to fig. 1 and fig. 3, in some embodiments, the electromagnetic oven 10 includes a controller 16 and an electromagnetic output coil 18, the controller 16 and the electromagnetic output coil 18 are both disposed in the accommodating cavity 124, the controller 16 is electrically connected to the electromagnetic output coil 18, and the controller 16 is configured to control the electromagnetic output coil 18 to generate electromagnetic waves for heating the pot.

It should be noted that, for the supporting rack 20, the supporting rack 20 is detachably disposed on the planar furnace surface 122, so the placing direction thereof can be changed, and the placing direction of the supporting rack 20 in fig. 1 is different from that in fig. 3, so the structure of the cross section is different.

Further, the induction cooker 10 further includes a power supply device (not shown), the power supply device is disposed in the accommodating cavity 124 and electrically connected to the controller 16, the controller 16 controls the power supply device to supply power to the electromagnetic output coil 18, and the output electromagnetic wave can be controlled by controlling the current passing through the electromagnetic output coil 18, so as to adjust the temperature of the cookware.

Of course, the connection relationship between the controller 16, the power supply device and the electromagnetic output coil 18 may be other, that is, the power supply device may be directly electrically connected to the electromagnetic output coil 18, and the controller 16 may control the power output as long as the controller 16 can control the magnitude of the current input to the electromagnetic output coil 18 by the power supply device, thereby controlling the output electromagnetic wave.

Specifically, the power supply device includes a power connection for connecting an external power source and an adapter electrically connected to the power connection, and the adapter is electrically connected to the controller 16 to output a suitable voltage and current to the controller 16.

It should be explained that the power supply device may also be used to supply power to other devices in the induction cooker 10, and also to supply power to other devices through the adapter so as to distribute the power correctly.

In some embodiments, the support frame 20 comprises a support body and at least three support legs 25, the support body is detachably disposed on the planar furnace surface 122, the at least three support legs 25 are detachably connected to a side of the support body away from the planar furnace surface 122, and the at least three support legs 25 are used for forming a support position. The three support legs 25 are detachably connected to the side of the support body away from the planar oven surface 122, so that the support legs 25 with various specifications can be manufactured to respectively and stably support the non-flat-bottom cookware 200 with different specifications.

Of course, in other embodiments, at least three support feet 25 may also be rotatably connected to the side of the support body facing away from the planar furnace surface 122, so as to enable the angle adjustment between the support feet 25 and the support body, and the at least three support feet 25 with adjustable angles are also used for forming the support position. Thus, the non-flat-bottom cookware 200 with different specifications can be stably supported by the support position through angle adjustment.

Referring to fig. 4 and 5, in some embodiments, the supporting body includes an annular base 21 and an annular support 23, the annular base 21 is disposed on the planar oven surface 122, the annular support 23 is disposed on a side of the annular base 21 away from the planar oven surface 122, and the annular base 21 and the annular support 23 surround to form an accommodating space 22, when the non-flat pot 200 is supported on the supporting frame 20, the bottom of the non-flat pot 200 is located in the accommodating space 22.

Further, the annular support 23 covers the annular base 21 to form a mounting cavity with the annular base 21. Specifically, the annular support 23 may be detachably connected to the annular base 21, or may be integrally formed with the entire support body.

Referring to fig. 1, in some embodiments, when the non-cookware 200 is supported on the supporting legs 25, the distance between the bottom of the non-cookware 200 and the planar oven surface 122 is within 2 mm, and the non-cookware 200 and the planar oven surface 122 can be contacted, but there is no stress between the non-cookware 200 and the planar oven surface 122, which means that the non-cookware 200 cannot be stably supported on the supporting legs 25 when the non-cookware 200 is stressed on the planar oven surface 122.

In some embodiments, the number of the supporting feet 25 is 3-6, and 3-6 supporting feet 25 are fixedly connected to one side of the ring-shaped support 23 away from the planar oven surface 122 and are arranged at intervals along the circumferential direction of the ring-shaped support 23 to form supporting positions for supporting the non-flat-bottom cookware 200.

Specifically, the number of the support feet 25 is preferably 4, and the 4 support feet 25 are uniformly spaced around the ring support 23.

Referring to fig. 1, in some embodiments, a first suction device 22 is disposed in the supporting rack 20, and the first suction device 22 is configured to generate an attractive force with the induction cooker 10 when the supporting rack 20 is disposed on the planar oven surface 122.

Further, the second absorbing part 14 is disposed in the induction cooker 10, and when the supporting frame 20 is disposed on the planar oven surface 122, the first absorbing part 22 and the second absorbing part 14 generate an attractive force, so as to fix the supporting frame 20 on the planar oven surface 122.

In practical applications, the first suction attachment 22 is disposed in a mounting cavity defined by the annular support 23 and the annular base 21, so as to provide a force for the annular base 21 to adhere to the planar furnace surface 122.

In some embodiments, the first attraction member 22 is a magnet, the second attraction member 14 is a magnetic conductive member, and an electric coil is wound on the outer side of the magnetic conductive member, and when the electric coil is energized, the magnetic conductive member is magnetized, so as to generate a repulsive or attractive force on the magnet.

When the support frame 20 needs to be stably arranged on the planar furnace surface 122, a current is introduced, the current can magnetize the magnetic conductive member and generate an attractive force to the magnet, the attractive force is generated to the magnetic conductive member only through the magnet, the attractive force generated by the magnetic conductive member after the current is introduced can be increased, and the support frame 20 is further stably arranged on the planar furnace surface 122.

When the supporting frame 20 needs to be taken down from the planar furnace surface 122, another current opposite to the previous current is introduced, the magnetic conduction member is magnetized, but the magnetic poles of the magnetic conduction member forming the magnetic field change at the moment, so that mutually repulsive acting force is generated on the magnet, the supporting frame 20 is adsorbed on the planar furnace surface 122, and the supporting frame 20 is convenient to take down.

Of course, in other embodiments, the magnetic conducting member may be only a metal material capable of generating an attractive force with the magnet, and the outer side of the magnetic conducting member is not wound with the electric coil, so that the support frame 20 can be attached to the planar furnace surface 122.

In some embodiments, when the rack 20 is disposed on the planar oven surface 122, the magnets in the rack 20 are aligned with the magnetic conductors in the induction cooker 10. Further, the area of the orthographic projection of the magnetic conducting member on the plane of the planar furnace surface 122 is larger than the area of the orthographic projection of the magnet on the plane of the planar furnace surface 122, so as to ensure sufficient acting force between the magnet and the magnetic conducting member.

In some embodiments, the first suction member 22 and the second suction member 14 each include at least two members to increase the force of attraction between the two members, i.e., the attraction force, so that the supporter 20 is more stably disposed on the planar oven surface 122.

Specifically, when the first absorbing part 22 is a magnet and the second absorbing part 14 is a magnetic conducting part, the first absorbing part 22 and the second absorbing part 14 are the same in number and are arranged oppositely, and the number of the first absorbing part 22 and the number of the second absorbing part 14 are 2-10.

Referring to fig. 5, in some embodiments, the first absorbing member 22 includes an arc-shaped rod 222 and permanent magnets 224 fixedly connected to opposite ends of the arc-shaped rod 222, and the second absorbing member 14 is an iron core, and when the supporting frame 20 is installed on the planar furnace surface 122, a connection line between each iron core and the corresponding permanent magnet 224 is perpendicular to the planar furnace surface 122.

Meanwhile, the permanent magnet 224 has attraction to the iron material, and after the support frame 20 is detached from the plane furnace surface 122, the support frame 20 can be directly hung on an iron wall surface through adsorption, so that convenience is improved.

Specifically, the number of the arc bars 222 is two, and the number of the permanent magnets 224 provided on each arc bar 222 is 2 to 5.

Of course, the first suction member 22 may be a separate magnet as shown in the foregoing embodiments, as long as the first suction member 22 can generate a mutual acting force with the second suction member 14 in the induction cooker 10, and the arrangement form of the first suction member 22 may be set according to actual situations.

In some embodiments, the electrical coil 19 is configured to be operatively connected or disconnected from a power supply. When the electrified coil 19 is electrically connected with the power supply device, the power supply device inputs current to the electrified coil 19, the iron core is magnetized, the direction of the magnetic field of the magnetized iron core is the same as the direction of the inherent magnetic field of the magnet, and the cooperation of the electrified coil 19 and the iron core can also generate a repulsive force to the magnet according to the repulsion of like poles.

It should be noted that the power supply device may be electrically connected to the current-carrying coil 19 at all times, but the power supply device may supply a current in a different direction to the current-carrying coil 19. In addition, in order to ensure that the magnitude of the repulsive force is at least that of the attractive force, it is necessary to ensure that a stable and strong current exists in the energized coil 19 for a short time, but the support 20 is detachable from the planar oven surface 122 of the induction cooker 10, so that it is inconvenient to provide a device capable of supplying the current; the induction cooker 10 is a kitchen or a cooking position which can be placed all the time, and the induction cooker 10 is more convenient to be powered on, so that the magnet is arranged on the support frame 20, the magnetic conduction piece and the energizing coil 19 are arranged in the induction cooker 10, the structural design is convenient, the manufacturing difficulty is reduced, and the manufacturing cost is reduced.

Specifically, the electrical coil 19 is electrically connected with the controller 16, the electrical coil 19 is electrically connected with the power supply device through the controller 16, and the electrical connection or disconnection between the electrical coil 19 and the power supply device is controlled through the controller 16. Of course, the energizing manner of the energizing coil 19 may be other manners as long as the controller 16 can control the energizing of the energizing coil 19, and the controller 16 is designed to control the electrical connection between two electrical components in a relatively conventional manner, so that the detailed description is omitted.

In other embodiments, the supporting rack 20 may also be stably disposed on the planar oven surface 122 through a suction cup or a damping layer, that is, a suction cup or a damping layer is disposed on a side of the supporting rack 20 facing the planar oven surface 122 to prevent the supporting rack 20 from sliding on the planar oven surface 122 relative to the induction cooker 10.

In some embodiments, the supporting frame 20 is further provided with a temperature measuring component 24 and a communication circuit electrically connected to each other, the temperature measuring component 24 is located at the supporting position for obtaining the temperature of the non-pan 200 supported at the supporting position, and the communication circuit is used for wirelessly connecting with the induction cooker 10.

Further, the temperature measuring part 24 is disposed on one side of the supporting leg 25 far away from the annular bracket 23, that is, one side of the supporting leg 25 supporting the non-pan pot 200, so that the temperature measuring part 24 directly contacts with the non-pan pot 200, thereby improving the accuracy of temperature measurement.

In practical application, the number of the temperature measuring parts 24 is two, and the two temperature measuring parts 24 are respectively arranged on the two supporting legs 25, but it is necessary to ensure that at least one temperature measuring part 24 will contact with the non-flat pot 200 when the non-flat pot 200 is supported on the supporting position.

Specifically, the temperature measuring component 24 is a temperature sensor, and in other embodiments, the temperature measuring component 24 may also be an infrared temperature measuring device disposed on the ring-shaped support 23, and the infrared temperature measuring device is not in direct contact with the non-pan pot 200, but is disposed on the ring-shaped support 23, and there is no other structural separation between the non-pan pot 200, so that the accuracy of obtaining the temperature can also be ensured.

When the non-flat pot 200 is placed on the supporting frame 20, the temperature measuring part 24 disposed on the supporting frame 20 can detect the temperature of the non-flat pot 200, and wirelessly transmit the detected temperature information to the controller 16 through the communication circuit, and the controller 16 controls the current passing through the electromagnetic output coil 18 after receiving the temperature information, thereby controlling the output electromagnetic wave to adjust the temperature of the non-flat pot 200. Meanwhile, compared with the traditional temperature detection device arranged below the microcrystalline glass plate, the temperature measurement piece 24 has more accurate temperature detection, so that accurate temperature adjustment can be conveniently realized.

In some embodiments, a magnetic induction coil 26 and a rectifying circuit are further disposed in the supporting frame 20, the magnetic induction coil 26 is used for generating electric energy in cooperation with the induction cooker 10, and the rectifying circuit is electrically connected to the magnetic induction coil 26, the temperature measuring element 24 and the communication circuit, respectively. Specifically, the number of turns of the magnetic induction coil 26 is set to 1 to 10 turns as required.

The magnetic induction coil 26 is used for collecting leakage electromagnetic waves generated when the electromagnetic output coil 18 is used for electromagnetically induction heating the non-flat-bottom cookware 200, induced electromotive force is generated in the magnetic induction coil 26, then the magnetic induction coil 26 is electrically connected with the rectifying circuit, the rectifying circuit is used for rectifying, filtering and stabilizing the induced electromotive force, the induced electromotive force is changed into electric energy used by other electric appliance elements, the originally leaked electromagnetic waves are collected and reused, and resources are saved.

In some embodiments, the magnetic induction coil 26 and the electromagnetic output coil 18 for generating electromagnetic radiation within the induction cooker 10 are both annular, and the outer diameter of the magnetic induction coil 26 is greater than the outer diameter of the electromagnetic output coil 18. It can be understood that the magnetic induction coil 26 is disposed in a mounting cavity formed by the annular support 23 and the annular base 21, that is, the overall diameter of the magnetic induction coil 26 is similar to that of the annular support 23, except that the inner diameter of the magnetic induction coil 26 is slightly larger than that of the annular support 23, and the outer diameter of the magnetic induction coil 26 is slightly smaller than that of the annular support 23.

Further, the outer diameter of the electromagnetic output coil 18 is 120 mm-250 mm, and the diameter is set according to actual requirements, and the inner ring diameter of the ring-shaped support 23 is larger than the outer diameter of the coil disc, and is 50 mm at most. Meanwhile, when the supporting frame 20 is disposed on the planar furnace surface 122, the annular support 23 and the coil disk are coaxially disposed, i.e., the distance between the inner edge of the annular support 23 and the outer edge of the coil disk is less than 25 mm.

The magnetic induction coil 26 is used for collecting electromagnetic waves leaked from the electromagnetic output coil 18, but in another embodiment, a coil structure may be additionally provided in the induction cooker 10, the coil structure being coaxial with the electromagnetic output coil 18 and being wound outside the electromagnetic output coil 18 for separately supplying power to the magnetic induction coil 26.

In some embodiments, an electric accumulator may be further disposed in the supporting frame 20, the electric accumulator is electrically connected to the rectifying circuit and is used for storing electric energy generated after rectification, filtering and voltage stabilization processing by the rectifying circuit, and the electric accumulator may be electrically connected to the temperature measuring component 24 and the communication circuit, respectively, so as to supply power to the temperature measuring component 24 and the communication circuit.

In some embodiments, the supporting frame 20 is further provided with an LED lamp electrically connected to the rectifying circuit for generating light simulating flame, and the LED lamp is directly electrically connected to the rectifying circuit, when the output power of the electromagnetic oven 10 is increased, the leaked electromagnetic waves collected by the electromagnetic induction coil 26 are also increased, so that the induced electromotive force generated by the electromagnetic induction coil 26 is increased, and further, the output power input to the LED lamp after being processed by the rectifying circuit is also increased. And by adopting the LED lamp with the brightness increasing or the color changing along with the power increasing, the scene of the heating power increasing of the induction cooker 10 can be further and truly simulated and displayed.

In some embodiments, the communication circuit and the rectifying circuit can be integrated on a circuit board structure 28. Further, the LED lamp may also be integrally disposed on the circuit board structure 28, that is, a window is disposed on the annular bracket 23, the circuit board structure 28 is fixed at the window, the LED lamp is disposed outside the circuit board structure 28, that is, protruding from the annular bracket 23, and the communication circuit and the rectifying circuit are disposed inside the circuit board structure 28, that is, in the mounting cavity.

In some embodiments, the induction cooker apparatus further includes a control switch, the control switch is disposed on the supporting frame 20, the control switch is electrically connected to the communication circuit, and the control switch is used for controlling the electrical connection and disconnection between the power supply device and the power supply device, or controlling and changing the direction of the current provided by the power supply device to the power supply device 19. Specifically, the control switch wirelessly transmits a wireless signal to the controller 16 through the communication circuit.

Compared with the prior art, the utility model provides a support frame and electromagnetism stove device has following advantage at least:

1) through the matching of the supporting frame and the induction cooker, the pot can be used for both non-flat-bottomed pots and flat-bottomed pots, the corresponding induction cooker does not need to be purchased, and the cost is effectively reduced;

2) the support frame is adsorbed on the plane furnace surface through magnetic force, and meanwhile, the repulsive force can be generated on the first adsorption part through magnetizing the magnetic conduction piece by the electrified coil, so that the support frame is convenient to detach;

3) when the non-flat pot is used, the temperature measuring piece is directly contacted with the pot bottom, so that the temperature detection is more accurate, and the controller can control the temperature more accurately;

4) electromagnetic waves leaked by the electromagnetic output coil can be collected and converted into induced electromotive force through the electromagnetic induction coil, and the induced electromotive force is used after being processed through the rectifying circuit or further used after being stored through the accumulator, so that resources are saved;

5) set up magnet in the support frame for can directly adsorb on the iron wall after the support frame is pulled apart, improve the convenience.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A supporting frame is detachably arranged on a plane oven surface of an induction cooker, and is characterized in that one side of the supporting frame, which is far away from the plane oven surface, is provided with a supporting position, and the supporting position is used for supporting a non-flat-bottom pan;

the support frame still include the temperature measurement spare of mutual electric connection and be used for with electromagnetism stove wireless connection's communication circuit, the temperature measurement spare is located support position for acquire support in support position the temperature of non-flat pan.

2. The support frame of claim 1, wherein the support frame comprises a support body and at least three support legs, the support body is detachably disposed on the planar furnace surface, the at least three support legs are detachably and/or rotatably connected to a side of the support body departing from the planar furnace surface, and the at least three support legs are used for forming the support position.

3. The support frame of claim 1, wherein a first suction device is disposed in the support frame, and when the support frame is disposed on the planar oven surface, the first suction device is configured to generate a suction force with the induction cooker.

4. The support frame of claim 1, wherein a suction cup or a damping layer is arranged on one side of the support frame facing the planar furnace surface.

5. The supporting frame according to claim 1, wherein a magnetic induction coil and a rectifying circuit are further arranged in the supporting frame, the magnetic induction coil is used for being matched with the induction cooker to generate electric energy, and the rectifying circuit is electrically connected with the magnetic induction coil, the temperature measuring part and the communication circuit respectively.

6. The support frame of claim 5, further comprising an accumulator, wherein the accumulator is electrically connected to the rectifying circuit.

7. The support frame of claim 5, further comprising an LED light electrically connected to the rectifying circuit.

8. An induction cooking device comprising an induction cooking device and a support according to any one of claims 1 to 7, said induction cooking device having a planar cooking surface, said support being detachably mounted to said planar cooking surface.

9. The induction cooker apparatus according to claim 8, wherein a second absorption member is disposed in the induction cooker, and the supporting frame is provided with a first absorption member, and when the supporting frame is placed on the planar oven surface, the first absorption member and the second absorption member generate an attractive force.

10. The induction cooker apparatus according to claim 9, wherein the first attraction member is a magnet, and the second attraction member is a magnetic conductive member;

the outside of magnetic conduction spare is twined and is had circular telegram coil, when circular telegram coil lets in current, magnetic conduction spare is magnetized and produces the effort of mutual repulsion or attraction to magnet.

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