CN113203107A - Induction cooker convenient to top spoon and suitable for different containers - Google Patents

Abstract

The invention belongs to the technical field of induction cookers, and particularly relates to an induction cooker which is convenient for a top spoon and is suitable for different containers, comprising an induction cooker body and a heating element, wherein the heating element is arranged on the induction cooker body; when the adjustable table top is lifted upwards or sunk, the coil moves along with the table top, and particularly the inner coil is attached to the bottom of the pot; when the frying ladle is used for frying dishes, the adjustable table board can move upwards along with the frying ladle, so that on one hand, the induction cooker can be prevented from giving an alarm and automatically closing due to the fact that the frying ladle is far away from the table board, and on the other hand, the temperature of the pot during frying can not be greatly influenced due to the distance of the frying ladle; the requirement of the jolt spoon during cooking is met. The device designed by the invention can be suitable for non-flat-bottom pan bodies or pan bodies with small flat-bottom areas.

Description

Induction cooker convenient to top spoon and suitable for different containers

Technical Field

The invention belongs to the technical field of induction cookers, and particularly relates to an induction cooker which is convenient for a top spoon and is suitable for different containers.

Background

The upper end surface of the traditional induction cooker is a flat plate, and the bottom of a pot used by the induction cooker is required to be flat. The pot bottom can not be far away from the upper end surface of the induction cooker by too much distance during cooking, on one hand, the induction cooker can give an alarm and automatically close after being far away from the induction cooker, and on the other hand, the temperature of the pot during cooking can be influenced by the fact that the distance from the induction cooker is large; so the frying ladle can not be used for frying, and on one hand, the frying ladle can ensure that the cooking raw materials are uniformly heated, colored and tasty and the completeness of the dishes is kept in the heating process; on the other hand, the common people have the impulse of a jockey ladle when cooking, and the habit is also changed, so that the traditional induction cooker with the flat upper end surface is not friendly to men and lacks the fun of cooking when cooking.

The invention designs an induction cooker which is convenient for a top spoon and is suitable for different containers, and solves the problems.

Disclosure of Invention

In order to solve the defects in the prior art, the invention discloses an induction cooker which is convenient for a top spoon and is suitable for different containers, and the induction cooker is realized by adopting the following technical scheme.

The utility model provides an electromagnetism stove that is suitable for different containers convenient to top spoon, it includes electromagnetism stove body, heating member, wherein the heating member is installed on the electromagnetism stove body.

The heating element comprises an installation table, an adjustable table board, a coil and a coil storage platform, wherein the installation table is fixedly installed on the induction cooker body, the adjustable table board consists of an inner table board, a middle annular table board and an outer annular table board, the inner table board is installed in the installation table in a sliding mode through a guide rod, and a first spring is installed between the inner table board and the installation table; a plurality of middle annular table tops with sequentially increased sizes are uniformly arranged on the outer side of the inner table top from inside to outside; the outer annular table top is fixedly arranged in the mounting table and is in sliding fit with the middle annular table top at the outermost side; the coil storage platform is fixedly arranged on the upper side of the mounting table and is positioned on the outer side of the outer annular table top; the inner side of the coil storage platform is provided with a vortex groove.

The coil is divided into a middle coil, an inner coil and an outer coil, and the inner coil, the middle coil and the outer coil are sequentially connected; the inner coil is arranged on the inner side of the inner table top in a vortex mode, the middle coil is arranged on the lower sides of the middle annular table top and the outer annular table top in a vortex mode, and the outer coil penetrates through the outer annular table top and is located in a vortex-shaped groove formed in the coil storage platform; the intermediate coil has a spring and can maintain a spiral state by itself.

Two first connecting blocks are symmetrically arranged on the lower side of the inner table top, two second connecting blocks and two first connecting blocks are symmetrically arranged on the lower side of the middle annular table top, and the two second connecting blocks are positioned on the inner sides of the two first connecting blocks; two second connecting blocks are symmetrically arranged on the lower side of the outer annular table-board; the first connecting blocks and the second connecting blocks which are close to each other and are not positioned on the same table top in the first connecting blocks and the second connecting blocks which are arranged on the adjustable table top are respectively provided with a connecting plate in a one-to-one corresponding and sliding way; and a third spring is respectively arranged between the connecting plate and the corresponding second connecting block.

As a further improvement of the technology, when the adjustable table top is in the upward-lifting open state, a part of the outer coil is always positioned in a vortex-shaped groove formed in the coil storage platform.

As a further improvement of the technology, a plurality of groups of rotating wheels which can reduce the friction resistance to the coils in the vortex-shaped grooves are uniformly arranged in the vortex-shaped grooves formed in the coil storage platform, and two rotating wheels in each group of rotating wheels are respectively and rotatably arranged on two sides of the vortex-shaped grooves through a rotating shaft.

As a further improvement of the technology, the two second connecting blocks which are arranged on the lower sides of the inner table surface and the middle annular table surface and are positioned on the lower side of the same table surface are arranged on the lower side of the corresponding table surface through a second rotating ring, and the second rotating ring is in rotating fit with the corresponding table surface.

Two first connecting blocks which are arranged at the lower sides of the middle annular table board and the outer annular table board and are positioned at the lower sides of the same table board are arranged at the lower sides of the corresponding table boards through a first rotating ring, and the first rotating ring is in rotating fit with the corresponding table boards.

As a further improvement of the present technology, the first rotating ring is provided with a third sliding groove, one of the two first connecting blocks mounted on the lower side of the first rotating ring is fixedly mounted on the first rotating ring, the other first connecting block is mounted on the first rotating ring through the sliding fit of the second sliding block and the third sliding groove, and a fourth spring is mounted between the second sliding block and the first sliding groove.

The second rotating ring is provided with a first sliding groove, one of two second connecting blocks arranged on the lower side of the second rotating ring is fixedly arranged on the second rotating ring, the other second connecting block is arranged on the second rotating ring through the sliding fit of a first sliding block and the first sliding groove, and a second spring is arranged between the first sliding block and the first sliding groove.

One of the two connecting blocks connected by the same connecting plate is fixedly arranged on the corresponding rotating ring, and the other connecting block is rotatably arranged on the corresponding rotating ring.

As a further improvement of the present technology, a second sliding groove is formed on the second connecting block, one end of the third spring is fixedly mounted on the connecting plate, and the other end of the third spring is fixedly mounted on the inner end surface of the second sliding groove.

As a further improvement of the technology, an evasion groove for the coil to pass through is arranged on the outer circular surface of the outer annular table-board.

As a further improvement of the technology, annular sealing wear pads are arranged among the annular mounting ring, the middle annular table top and the outer annular table top.

As a further improvement of the technology, the uppermost circle of the intermediate coil is arranged on the annular mounting ring through a plurality of clamping pieces which are evenly distributed.

As a further improvement of the present technology, the third spring is an extension spring.

Compared with the traditional induction cooker technology, the induction cooker has the beneficial effects that:

1. when the adjustable table top is lifted upwards or sunk, the coil moves along with the table top, and particularly the inner coil is attached to the bottom of the pot; when the frying ladle is used for frying dishes, the adjustable table board can move upwards along with the frying ladle, so that on one hand, the induction cooker can be prevented from giving an alarm and automatically closing due to the fact that the frying ladle is far away from the table board, and on the other hand, the temperature of the pot during frying can not be greatly influenced due to the distance of the frying ladle; the requirement of the jolt spoon during cooking is met.

2. After the adjustable table top is lifted upwards or sunk, the middle coil is changed into a spiral shape from a state of being tightly attached to the mounting disc, so that the middle coil distributed in the lower side area of the middle annular table top needs to be increased, and at the moment, the outer coil originally arranged in the coil storage platform can be pulled out by one section; whether the adjustable table top is an upward step or a downward depression, the outer coil in the coil can automatically wind or release the required quantity of the coil on the outer side along with the change of the adjustable table top. When the adjustable table top is in the process of lifting the table top to the horizontal state or from the sunken state to the horizontal state, the outer coil is wound towards the vortex groove in the coil storage platform, the outer coil is wound to drive the middle coil to be wound, the middle coil which is flattened to be excessive is wound in the vortex groove, and the redundant coil cannot influence the movement of the middle annular table top and the outer annular table top.

3. The device designed by the invention can be suitable for non-flat-bottom pan bodies or pan bodies with small flat-bottom areas.

Drawings

Fig. 1 is an external view of an entire part.

Fig. 2 is a schematic view of the overall component distribution.

Fig. 3 is a schematic view of a heating element installation.

Fig. 4 is a schematic diagram of an adjustable mesa configuration.

Fig. 5 is a coil mounting schematic.

Fig. 6 is a schematic diagram of a coil structure.

Fig. 7 is a schematic diagram of the coil and coil storage platform.

FIG. 8 is a schematic view of the first and second connector blocks being installed.

FIG. 9 is a second connector block installation schematic.

Fig. 10 is a first connecting block installation diagram.

Fig. 11 is a schematic view of the operation principle of the first connection block and the second connection block.

Number designation in the figures: 1. an induction cooker body; 2. a heating member; 3. an installation table; 4. the table top can be adjusted; 5. a coil; 6. a coil storage platform; 7. an inner table-board; 8. a middle annular table-board; 9. an avoidance groove; 10. an outer annular table top; 11. installing a clamping piece; 12. mounting a rod; 13. a first spring; 14. an inner coil; 15. an outer coil; 16. a middle coil; 17. a volute groove; 18. a rotating shaft; 19. a rotating wheel; 20. a first connection block; 21. a second connecting block; 22. a connecting plate; 23. a first rotating ring; 24. a second rotating ring; 25. a first chute; 26. a second chute; 27. a first slider; 28. a second spring; 29. a third spring; 31. a third chute; 32. a fourth spring; 33. and a second slider.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples or figures are illustrative of the present invention and are not intended to limit the scope of the present invention.

As shown in fig. 1 and 2, it comprises an induction cooker body 1, a heating member 2, wherein the heating member 2 is mounted on the induction cooker body 1. The induction cooker body 1 of the invention is internally provided with other parts of the traditional induction cooker except a shell and a coil 5.

As shown in fig. 3, the heating element 2 includes a mounting table 3, an adjustable table top 4, a coil 5, and a coil storage platform 6, wherein the mounting table 3 is fixedly mounted on the induction cooker body 1, as shown in fig. 4 and 8, the adjustable table top 4 is composed of an inner table top 7, a middle annular table top 8, and an outer annular table top 10, the inner table top 7 is slidably mounted in the mounting table 3 through a guide rod, and a first spring 13 is mounted between the inner table top 7 and the mounting table 3; a plurality of middle annular table tops 8 with sequentially increased sizes are uniformly arranged on the outer side of the inner table top 7 from inside to outside; an outer annular table top 10 is fixedly arranged in the mounting table 3, and the outer annular table top 10 is in sliding fit with the middle annular table top 8 at the outermost side; as shown in fig. 7, the coil storage platform 6 is fixedly mounted on the upper side of the mounting table 3 and is located outside the outer annular table top 10; the coil storage platform 6 is provided with a spiral groove 17 on the inner side.

The first spring 13 in the invention plays a role of restoring and pushing the inner table-board 7 upwards. The matching surfaces of the inner table surface 7, the middle annular table surface 8 and the outer annular table surface 10 are all provided with sleeve-shaped sealing gaskets, so that the sealing performance of the inner table surface 7, the middle annular table surface 8 and the outer table surface in the sliding process is ensured.

As shown in fig. 5 and 6, the coil 5 is divided into a middle coil 16, an inner coil 14 and an outer coil 15, and the inner coil 14, the middle coil 16 and the outer coil 15 are connected in sequence; the inner coil 14 is mounted inside the inner table 7 in a spiral arrangement and the intermediate coil 16 is mounted on the underside of the intermediate annular table 8 and the outer annular table 10 in an arrangement such that, as shown in figure 7, the outer coil 15 passes through the outer annular table 10 and is located in a spiral slot 17 cut in the coil storage platform 6.

According to the invention, after the adjustable table top 4 is lifted upwards, the inner coil 14 is positioned in the inner table top 7, the top coil of the middle coil 16 is moved upwards by the annular mounting ring through the annular clamping piece, and the rest middle coils 16 are spirally distributed on the lower side of the middle annular table top 8, at this time, the middle coil 16 distributed in the lower side area of the middle annular table top 8 needs to be increased because the middle coil 16 is changed into a spiral shape from a state of being tightly attached to the mounting disc, and at this time, the outer coil 15 originally distributed in the coil storage platform 6 can be pulled out by one section; after the adjustable table top 4 is sunken downwards, the inner coil 14 is positioned in the inner table top 7, the top coil of the middle coil 16 is moved downwards by the annular mounting ring through the shape clamping piece, and the rest middle coils 16 are spirally distributed on the lower side of the middle annular table top 8, at the moment, the middle coil 16 distributed in the lower side area of the middle annular table top 8 needs to be increased because the middle coil 16 is changed into a spiral shape from a state of being tightly attached to a mounting disc, and at the moment, the outer coil 15 originally distributed in the coil storage platform 6 can be pulled out by one section; whether the adjustable table top 4 is stepped up or recessed downward, the outer coil 15 of the coil 5 can automatically wind or release the required amount of the coil 5 on the outer side along with the change of the adjustable table top 4.

When the inner table 7 is forced to move downwards from a lifting state to a horizontal state, the inner table 7 can move downwards under the action of downward pressure to compress the first spring 13, the middle annular table 8 can move downwards along with the inner table 7 under the action of self gravity and the action of tension of the third spring 29 after losing upward tension, when the adjustable table 4 moves downwards, the middle coil 16 is gradually pressed downwards from a spiral shape and finally attached to the mounting disc, in the process, the outer coil 15 is wound towards the spiral groove 17 in the coil storage platform 6, the outer coil 15 is wound to drive the middle coil 16 to wind, the middle coil 16 which is changed from the spiral shape into a flattened shape to be more is wound in the spiral groove 17, and the downward movement of the middle annular table 8 and the outer annular table 10 cannot be influenced by the redundant coils 5.

As shown in fig. 8, two first connecting blocks 20 are symmetrically installed on the lower side of the inner table 7, two second connecting blocks 21 and two first connecting blocks 20 are symmetrically installed on the lower side of the middle annular table 8, and the two second connecting blocks 21 are located inside the two first connecting blocks 20; two second connecting blocks 21 are symmetrically arranged on the lower side of the outer annular table top 10; the first connecting blocks 20 and the second connecting blocks 20 which are close to each other and are not positioned on the same table top in the first connecting blocks 20 and the second connecting blocks which are arranged on the adjustable table top 4 are respectively provided with a connecting plate 22 in a one-to-one corresponding and sliding way; a third spring 29 is respectively installed between the connecting plate 22 and the corresponding second connecting block 21.

The outer coil 15 is always partially located in the spiral groove 17 formed in the coil storage platform 6 when the adjustable table top 4 is in the raised open state.

As shown in fig. 7, a plurality of sets of runners 19 for reducing frictional resistance to the sliding of the coils 5 in the spiral grooves 17 are uniformly installed in the spiral grooves 17 formed in the coil storage platform 6, and two runners 19 in each set of runners 19 are rotatably installed on both sides of the spiral grooves 17 through a rotating shaft 18. In the present invention, the runner 19 is designed to reduce the resistance of the coil 5 to sliding in the spiral groove 17.

As shown in fig. 8, the two second connecting blocks 21 mounted on the lower sides of the inner table top 7 and the middle ring-shaped table top 8 and located on the lower side of the same table top are mounted on the lower side of the corresponding table top through a second rotating ring 24, and the second rotating ring 24 is rotatably matched with the corresponding table top. Such design can guarantee that middle coil 16 when the spiral distributes in middle annular mesa 8 downside, and coil 5 can be avoided to first connecting block 20, the second connecting block 21 of interior mesa 7, middle annular mesa 8 and outer annular mesa 10 downside installation, can not influence placing of coil 5, to the heating of mesa.

As shown in fig. 8, two first connecting blocks 20 mounted on the lower sides of the middle ring-shaped table top 8 and the outer ring-shaped table top 10 and located on the lower side of the same table top are mounted on the lower side of the corresponding table top through a first rotating ring 23, and the first rotating ring 23 is rotatably matched with the corresponding table top. Such design can guarantee that middle coil 16 when the spiral distributes in middle annular mesa 8 downside, and coil 5 can be avoided to first connecting block 20, the second connecting block 21 of interior mesa 7, middle annular mesa 8 and outer annular mesa 10 downside installation, can not influence placing of coil 5, to the heating of mesa.

As shown in fig. 10, the first rotating ring 23 is provided with a third sliding slot 31, one of the two first connecting blocks 20 mounted on the lower side of the first rotating ring 23 is fixedly mounted on the first rotating ring 23, the other first connecting block 20 is mounted on the first rotating ring 23 by the sliding fit of a second slider 33 and the third sliding slot 31, and a fourth spring 32 is mounted between the second slider 33 and the first sliding slot 25.

As shown in fig. 9, the second rotating ring 24 is provided with a first sliding groove 25, one of the two second connecting blocks 21 mounted on the lower side of the second rotating ring 24 is fixedly mounted on the second rotating ring 24, the other second connecting block 21 is mounted on the second rotating ring 24 by the sliding fit of a first slider 27 and the first sliding groove 25, and a second spring 28 is mounted between the first slider 27 and the first sliding groove 25.

As shown in fig. 9 and 10, one of the two connecting blocks connected by the same connecting plate 22 is fixedly mounted on the corresponding rotating ring, and the other connecting block is rotatably mounted on the corresponding rotating ring.

The second connecting block 21 is provided with a second sliding groove 26, one end of a third spring 29 is fixedly arranged on the connecting plate 22, and the other end of the third spring 29 is fixedly arranged on the inner end surface of the second sliding groove 26.

The reason that the aforesaid designed first sliding ring, second sliding ring, first connecting block 20, second connecting block 21 like this is that can guarantee that middle coil 16 when the spiral distributes in middle annular mesa 8 downside, coil 5 can be avoided to first connecting block 20, the second connecting block 21 of interior mesa 7, middle annular mesa 8 and outer annular mesa 10 downside installation, can not influence placing of coil 5, the heating to the mesa.

As shown in fig. 4, the outer circumferential surface of the outer annular table 10 is provided with an escape groove 9 through which the coil 5 passes.

Annular sealing wear-resistant pads are arranged among the annular mounting ring, the middle annular table top 8 and the outer annular table top 10.

As shown in fig. 5, the uppermost turn of the intermediate coil 16 is mounted on the annular mounting ring by a plurality of evenly distributed clips 11.

The third spring 29 is an extension spring.

The specific working process is as follows: when the device designed by the invention is used, when the ladle is used for frying, the ladle is lifted, at the moment, the adjustable table top 4 is opened upwards in a ring-shaped step shape under the elastic action of the second spring 28, as shown in a in fig. 11, in the process of upwards pulling, two first connecting blocks 20 arranged on the inner table top 7 can pull the corresponding connecting plates 22 to move upwards, the connecting plates 22 move upwards to drive two second connecting blocks 21 arranged on the lower side of the middle ring table top 8 positioned on the innermost side to move upwards, and further drive the middle ring table top 8 positioned on the inner side to move upwards, the middle ring table top 8 drives the next middle ring table top 8 to move upwards through the two first connecting blocks 20 arranged on the middle ring table top 8 positioned on the outermost side, and the two first connecting blocks 20 on the middle ring table top 8 positioned on the outermost side sequentially transfer, and pull the third springs 29 arranged in the two second connecting blocks 21 arranged on the outer ring table top 10 to stretch through the corresponding connecting plates 22, while the third spring 29 in the second connecting piece 21 mounted on the intermediate annular table 8 is in a stretched state. In this state, the inner coil 14 is located in the inner table 7, the top coil of the middle coil 16 is moved upwards by the annular mounting ring through the annular clamping piece, and the rest of the middle coils 16 are spirally distributed on the lower side of the middle annular table 8, at this time, the middle coil 16 distributed in the lower area of the middle annular table 8 needs to be increased because the middle coil 16 is changed into a spiral shape from a state of being tightly attached to the mounting plate, and at this time, the outer coil 15 originally distributed in the coil storage platform 6 is pulled out by one section; compensating for the portion that needs to be increased for becoming helical.

When the frying ladle is put down, the adjustable table top 4 moves downwards from a step shape, at the moment, the inner table top 7 moves downwards under the action of downward pressure to compress the first spring 13, the two first connecting blocks 20 arranged on the inner table top 7 can pull the corresponding connecting plates 22 to move downwards, the connecting plates 22 move downwards to drive the two second connecting blocks 21 arranged on the lower side of the middle annular table top 8 positioned at the innermost side to move downwards, at the moment, the corresponding third springs 29 are in a stretching state, and the connecting plates 22 are tightly attached to the lower end faces opened by the second connecting blocks 21 under the action of the third springs 29; the second connecting blocks 21 move downwards to drive the middle annular table top 8 positioned at the inner side to move downwards, the middle annular table top 8 drives the next middle annular table top 8 to move downwards through the two first connecting blocks 20 arranged on the middle annular table top 8, and the middle annular table top is sequentially transmitted, and in the process, all the third springs 29 are in a stretching state and tightly tighten and attach the corresponding connecting plates 22 to the lower end faces of the sliding grooves formed by the corresponding second connecting blocks 21; in the process, the middle coil 16 is gradually pressed down from the spiral shape and finally attached to the mounting disc, in the process, the outer coil 15 is wound towards the vortex-shaped groove 17 in the coil storage platform 6, the outer coil 15 is wound to drive the middle coil 16 to be wound, the middle coil 16 which is changed from the spiral shape into the flattening shape and is increased is wound in the vortex-shaped groove 17, and the redundant coil 5 cannot influence the downward movement of the middle annular table top 8 and the outer annular table top 10.

As shown in b in fig. 11, when the non-flat pan is used, after the pan body is placed, the inner table 7 moves downwards under the action of gravity, the two first connecting blocks 20 installed on the inner table 7 pull the corresponding connecting plates 22 to move downwards, the connecting plates 22 move downwards to drive the two second connecting blocks 21 installed on the lower side of the innermost middle annular table 8 to move downwards, at this time, the corresponding third springs 29 are in a stretching state, and the connecting plates 22 tightly cling to the lower end faces where the second connecting blocks 21 open under the action of the third springs 29; the second connecting blocks 21 move downwards to drive the middle annular table top 8 positioned at the inner side to move downwards, the middle annular table top 8 drives the next middle annular table top 8 to move downwards through the two first connecting blocks 20 arranged on the middle annular table top 8, and the middle annular table top is sequentially transmitted, and in the process, all the third springs 29 are in a stretching state and tightly tighten and attach the corresponding connecting plates 22 to the lower end faces of the sliding grooves formed by the corresponding second connecting blocks 21; at the moment, the inner coil 14 is positioned in the inner table top 7, the top coil of the middle coil 16 is moved downwards by the annular mounting ring through the annular clamping piece, the rest middle coils 16 are spirally distributed on the lower side of the middle annular table top 8, at the moment, the middle coil 16 is changed into a spiral shape from a state of being tightly attached to the mounting disc, so that the middle coil 16 distributed in the lower side area of the middle annular table top 8 needs to be increased, and at the moment, the outer coil 15 originally distributed in the coil storage platform 6 is pulled out by one section; compensating for the portion that needs to be increased for becoming helical.

When the non-pan top ladle is used, the inner table surface 7 moves upwards under the elastic force of the first spring 13, the two first connecting blocks 20 arranged on the inner table surface 7 pull the corresponding connecting plates 22 to move upwards, the connecting plates 22 move upwards to drive the two second connecting blocks 21 arranged at the lower side of the middle annular table surface 8 at the innermost side to move upwards, and further drive the middle annular table surface 8 at the inner side to move upwards, the middle annular table top 8 drives the next middle annular table top 8 to move upwards through the two first connecting blocks 20 arranged on the middle annular table top 8, the two first connecting blocks 20 on the middle annular table top 8 positioned on the outermost side pull the third springs 29 in the two second connecting blocks 21 arranged on the outer annular table top 10 through the corresponding connecting plates 22 to stretch, the third springs 29 in the second connecting blocks 21 mounted on the middle annular table 8 are all in a stretched state; after the adjustable table top 4 is restored to the horizontal state, the middle annular table top 8 can be restored to the horizontal state under the action of self gravity and the action of the pulling force of the third spring 29 after losing the upward pulling force, and the third spring 29 is restored and tightly tightens the corresponding connecting plate 22 to be attached to the lower end face of the sliding groove opened by the corresponding second connecting block 21; in the process, the outer coil 15 is wound towards the vortex groove 17 in the coil storage platform 6, the outer coil 15 is wound to drive the middle coil 16 to be wound, the middle coil 16 which is changed from spiral to flat shape and is increased is wound in the vortex groove 17, and the redundant coil 5 cannot influence the upward movement of the middle annular table top 8 and the outer annular table top 10.

Claims (10)

1. The utility model provides an electromagnetism stove that is suitable for different containers convenient to top spoon which characterized in that: the induction cooker comprises an induction cooker body and a heating element, wherein the heating element is arranged on the induction cooker body;

the heating element comprises an installation table, an adjustable table board, a coil and a coil storage platform, wherein the installation table is fixedly installed on the induction cooker body, the adjustable table board consists of an inner table board, a middle annular table board and an outer annular table board, the inner table board is installed in the installation table in a sliding mode through a guide rod, and a first spring is installed between the inner table board and the installation table; a plurality of middle annular table tops with sequentially increased sizes are uniformly arranged on the outer side of the inner table top from inside to outside; the outer annular table top is fixedly arranged in the mounting table and is in sliding fit with the middle annular table top at the outermost side; the coil storage platform is fixedly arranged on the upper side of the mounting table and is positioned on the outer side of the outer annular table top; the inner side of the coil storage platform is provided with a vortex groove;

the coil is divided into a middle coil, an inner coil and an outer coil, and the inner coil, the middle coil and the outer coil are sequentially connected; the inner coil is arranged on the inner side of the inner table top in a vortex mode, the middle coil is arranged on the lower sides of the middle annular table top and the outer annular table top in a vortex mode, and the outer coil penetrates through the outer annular table top and is located in a vortex-shaped groove formed in the coil storage platform; the middle coil is provided with a spring and can maintain a spiral state by itself;

two first connecting blocks are symmetrically arranged on the lower side of the inner table top, two second connecting blocks and two first connecting blocks are symmetrically arranged on the lower side of the middle annular table top, and the two second connecting blocks are positioned on the inner sides of the two first connecting blocks; two second connecting blocks are symmetrically arranged on the lower side of the outer annular table-board; the first connecting blocks and the second connecting blocks which are close to each other and are not positioned on the same table top in the first connecting blocks and the second connecting blocks which are arranged on the adjustable table top are respectively provided with a connecting plate in a one-to-one corresponding and sliding way; and a third spring is respectively arranged between the connecting plate and the corresponding second connecting block.

2. The induction cooker suitable for different containers convenient for a jolt spoon as claimed in claim 1, wherein: when the adjustable table top is in an upward-lifting opening state, a part of the outer coil is always positioned in a vortex-shaped groove formed in the coil storage platform.

3. The induction cooker suitable for different containers convenient for a jolt spoon as claimed in claim 1, wherein: the coil stores even installation multiunit in the vortex inslot that opens on the platform and slides the runner that plays reduction frictional resistance to the coil in the vortex inslot, and two runners in every group runner are respectively through the rotatory both sides of installing in vortex groove of a pivot.

4. The induction cooker suitable for different containers convenient for a jolt spoon as claimed in claim 1, wherein: the two second connecting blocks which are arranged on the lower sides of the inner table surface and the middle annular table surface and are positioned on the lower side of the same table surface are arranged on the lower sides of the corresponding table surfaces through a second rotating ring, and the second rotating ring is in rotating fit with the corresponding table surfaces;

two first connecting blocks which are arranged at the lower sides of the middle annular table board and the outer annular table board and are positioned at the lower sides of the same table board are arranged at the lower sides of the corresponding table boards through a first rotating ring, and the first rotating ring is in rotating fit with the corresponding table boards.

5. The induction cooker suitable for different containers and convenient for a jolt spoon as claimed in claim 4, wherein: the first rotating ring is provided with a third sliding groove, one of two first connecting blocks arranged on the lower side of the first rotating ring is fixedly arranged on the first rotating ring, the other first connecting block is arranged on the first rotating ring through the sliding fit of a second sliding block and the third sliding groove, and a fourth spring is arranged between the second sliding block and the first sliding groove;

the second rotating ring is provided with a first sliding groove, one of two second connecting blocks arranged on the lower side of the second rotating ring is fixedly arranged on the second rotating ring, the other second connecting block is arranged on the second rotating ring through the sliding fit of a first sliding block and the first sliding groove, and a second spring is arranged between the first sliding block and the first sliding groove;

one of the two connecting blocks connected by the same connecting plate is fixedly arranged on the corresponding rotating ring, and the other connecting block is rotatably arranged on the corresponding rotating ring.

6. The induction cooker suitable for different containers convenient for a jolt spoon as claimed in claim 1, wherein: and a second sliding groove is formed in the second connecting block, one end of a third spring is fixedly installed on the connecting plate, and the other end of the third spring is fixedly installed on the inner end face of the second sliding groove.

7. The induction cooker suitable for different containers convenient for a jolt spoon as claimed in claim 1, wherein: and an avoidance groove for the coil to pass through is formed on the outer circular surface of the outer annular table-board.

8. The induction cooker suitable for different containers convenient for a jolt spoon as claimed in claim 1, wherein: annular sealing wear-resisting pads are arranged among the annular mounting ring, the middle annular table board and the outer annular table board.

9. The induction cooker suitable for different containers convenient for a jolt spoon as claimed in claim 1, wherein: the uppermost circle of the middle coil is arranged on the annular mounting ring through a plurality of clamping pieces which are uniformly distributed.

10. The induction cooker suitable for different containers convenient for a jolt spoon as claimed in claim 1, wherein: the third spring is an extension spring.

Images