CN216868560U - Overturning support structure of induction cooker - Google Patents

Abstract

The utility model discloses a turnover support structure of an induction cooker, which comprises a body of the induction cooker, wherein at least one turnover arm is arranged on the body, one end of the turnover arm is connected with a gasket, the gasket is used for being matched with the body to place a container with an arc-shaped bottom, an adjusting part is arranged at the upper end of the gasket and is used for adapting to the radian of the bottom of the container, and an anti-collision part is arranged at the bottom surface of the gasket and is used for avoiding the gasket from colliding with the body when the gasket is turned over to the surface of the body; the mode switching can be directly carried out by a user at a higher speed so as to adapt to the use requirement of the current cooking kitchen ware.

Description

Overturning support structure of induction cooker

Technical Field

The utility model relates to the technical field of kitchen appliances, in particular to a turnover support structure of an induction cooker.

Background

The induction cooker is also called as an induction cooker, is a product of modern kitchen revolution, and directly generates heat at the bottom of a pan without open fire or conduction heating, so that the heat efficiency is greatly improved, and the induction cooker is a high-efficiency energy-saving kitchen tool and is completely different from all traditional kitchen tools with fire or without fire conduction heating; the electromagnetic oven is an electric cooking appliance made by utilizing the electromagnetic induction heating principle, and is composed of a high-frequency induction heating coil (namely an excitation coil), a high-frequency power conversion device, a controller, a ferromagnetic material pan bottom cooker and the like.

The stove face of electromagnetism stove adopts the microcrystalline glass board usually, the open-hearth furnace is then plane microcrystalline glass, concave stove is then spill microcrystalline glass, however, the inconvenient flat-bottomed pan that uses of concave stove that adopts spill microcrystalline glass board, likewise, the round bottom pan (concave pot) that also can't use of open-hearth furnace that adopts plane microcrystalline glass board for two kinds of electromagnetism stoves are too restricted in using, so that the user can only carry out limited selection to kitchen utensils and appliances according to the electromagnetism stove face that uses, perhaps according to the electromagnetism stove of the corresponding type of kitchen utensils and appliances configuration of using at present, cause the commonality of electromagnetism stove not strong.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art and provide the overturning support structure of the induction cooker, the overturning support structure enhances the applicability of the induction cooker, so that the induction cooker is not limited by cooking utensils, and the induction cooker is more flexible and convenient to use and more humanized; the mode switching can be directly carried out by a user at a higher speed so as to adapt to the use requirement of the current cooking kitchen ware.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides an upset supporting structure of electromagnetism stove, includes the body of electromagnetism stove, be equipped with an at least upset arm on the body, this upset arm wherein one end is connected with a packing ring, and this packing ring is used for cooperating the body to place the container that the bottom is the arcwall face, and this packing ring upper end is equipped with the regulating part, and this regulating part is used for the radian of adaptation container bottom, is equipped with anticollision portion in the packing ring bottom surface, and this anticollision portion collides with the body when being used for avoiding the packing ring to overturn this body surface.

The body is provided with at least one furnace hinge part, the furnace hinge parts are arranged on the rear end surface of the body, two side surfaces of the body, the rear end of the upper surface of the body or two sides of the upper surface of the body, one end of the turnover arm is provided with at least one arm hinge end, and the arm hinge end is hinged with the corresponding furnace hinge part.

The furnace hinge part consists of at least two vertical blocks and a furnace connecting shaft penetrating between the two adjacent vertical blocks, each vertical block is respectively fixed on the body, the arm hinge end is an arm hanging buckle, and the arm hanging buckle is hinged with the corresponding furnace connecting shaft to form a turnover structure; when the main body is provided with only one furnace hinged part, the hinged end of each arm is hinged on the same furnace connecting shaft.

The furnace hinged part is at least one furnace hanging buckle, the arm hinged end is provided with at least two connecting blocks, each connecting block is connected with an arm connecting shaft together, and the furnace hanging buckle is hinged with the corresponding arm connecting shaft to form a turnover structure; or when the gasket is connected with at least two turnover arms, the arm hinged ends of the turnover arms form a clamping part, each clamping part is connected with an arm connecting shaft together, the furnace hinged part is at least two furnace hanging buckles, and each furnace hanging buckle is hinged with the same arm connecting shaft to form a turnover structure.

The turnover arm and the gasket are of an integrally formed structure; or, the other end of the turnover arm is provided with at least one arm connecting hole, two sides of the gasket are provided with at least one circle of connecting holes, the circle of connecting holes are matched with the locking piece to be fixedly connected with the circle of connecting holes, and when the turnover arm is provided with two strip-shaped holes which take the upper arm connecting holes or the arm connecting holes, the circle of connecting holes of the gasket are matched with the locking piece to be in adjustable connection with the arm connecting holes of the turnover arm; or, the other end of the turnover arm is provided with at least one arm buckle/arm clamp hole, two sides of the gasket are at least convexly provided with a circle of connecting parts, and the arm buckle/arm clamp hole is buckled on the corresponding circle of connecting parts; and the other end of the turnover arm is provided with at least one arm connecting part in a protruding mode, two sides of the gasket are respectively provided with at least one circle of connecting holes, and the arm connecting parts are inserted into the corresponding circle of connecting holes.

The top surface of the gasket is provided with at least two top connecting holes, the adjusting part is an adjusting single body, the bottom surface of the adjusting part is provided with a bottom inserting section, and the bottom inserting section is fixedly connected with the top connecting holes; or the regulating part is of an annular structure, more than two bottom inserting sections are convexly arranged on the bottom surface of the regulating part, at least two top connecting holes are formed in the top surface of the gasket, and the bottom inserting sections are inserted into the corresponding top connecting holes; or, the regulating part is a ring structure, the bottom surface of the regulating part is provided with a connecting groove, and the connecting groove is sleeved on the gasket; when the top connecting hole penetrates through the bottom of the gasket and the bottom inserting section is convexly arranged on the bottom surface of the gasket through the corresponding top connecting hole, the anti-collision part is fixedly connected with the corresponding bottom inserting section.

The bottom surface of the gasket is directly and fixedly connected with the anti-collision part through a bonding layer; or the bottom surface of the gasket is provided with at least two bottom connecting holes, the upper end of the anti-collision part is provided with at least one top inserting section, and the top inserting section is fixedly connected with the corresponding bottom connecting hole; or the bottom surface of the gasket is provided with at least two bottom connecting holes, the anti-collision part is provided with at least one locking hole in a penetrating way, and the locking hole is matched with the locking piece and fixedly connected with the corresponding bottom connecting hole; or, the bottom surface of the gasket is convexly provided with at least two bottom bulges, the anti-collision part is provided with at least one buckling hole, and the buckling hole is connected with the corresponding bottom bulge; when the bottom connecting hole penetrates through the top surface of the gasket and the top inserting section is convexly arranged on the top surface of the gasket through the corresponding top connecting hole, the adjusting part is fixedly connected with the corresponding top inserting section.

And a handle is arranged on one side of the gasket, which faces the front end face of the body, and is used for lifting and placing the gasket.

One side of the gasket is provided with an opening to form an open ring structure, and the opening is used for cutting off the conduction of the gasket; or, one side of the gasket is provided with an opening, the opening is provided with an insulating block, and the insulating block and the gasket form a complete closed-loop structure; or, the gasket is a closed loop structure formed integrally.

The top surface of the body is provided with a panel, an electromagnetic coil is arranged in the lower portion of the panel, a control portion is arranged in the bottom surface of the body and electrically connected with a fan, the fan is used for cooling the control portion when the equipment works, one side of the control portion is provided with a radiator, and the radiator is used for transferring heat generated by the control portion when the equipment works.

The utility model has the beneficial effects that: the electromagnetic oven comprises an oven hinge part, an arm hinge end, a gasket, a detachable overturning support structure and a turnover arm, wherein the oven hinge part is arranged on an oven body, the arm hinge end is arranged at one end of the turnover arm, the arm hinge end is hinged with the corresponding oven hinge part through the arm hinge end, and the gasket is arranged at the other end of the turnover arm in a matching manner to form the detachable overturning support structure; the detachable overturning support structure can be lifted up/down when the flat-bottomed container is used, and a user can randomly match the overturning support structure according to the appearance of cooking utensils, so that the induction cooker is not limited by the cooking utensils, and is more flexible and convenient to use and more humanized; in addition, the first limiting part or the second limiting part is arranged on the oven hinge part, so that the turnover arm can be supported conveniently when the gasket is lifted, the effect of erecting the turnover arm is achieved, a user can quickly and directly lift and place the gasket at any time, and the mode switching is carried out so as to adapt to the use requirement of the current cooking kitchenware; and when the oven hinge part and the body are of a non-integral structure, the oven hinge part, the turnover arm, the gasket and other components can form an auxiliary accessory of the induction cooker, a user can match the commercially available induction cooker according to actual use requirements, and only the oven hinge part is required to be arranged on the induction cooker, so that the induction cooker can be applicable to both flat-bottomed containers and round-bottomed containers, and the range of the induction cooker applicable to kitchenware is wider.

Drawings

FIG. 1 is a schematic diagram of the present invention.

FIG. 2 is a second schematic structural diagram of the present invention.

Fig. 3 is a third schematic structural diagram of the present invention.

FIG. 4 is a fourth schematic view of the present invention.

FIG. 5 is a fifth schematic view of the present invention.

FIG. 6 is a sixth schematic view of the present invention.

FIG. 7 is a seventh schematic structural diagram of the present invention.

FIG. 8 is a schematic structural diagram of the flip structure of the present invention.

FIG. 9 is one of the exploded views of the flip structure of the present invention.

Fig. 10 is a second schematic diagram of the explosion structure of the flip structure of the present invention.

FIG. 11 is a schematic view showing the connection between the invert arm and the washer of the present invention.

FIG. 12 is a second view showing the connection between the flip arm and the washer according to the present invention.

FIG. 13 is a third view showing the connection between the tilting arm and the washer according to the present invention.

FIG. 14 is a fourth view showing the connection between the inverting arm and the washer according to the present invention.

FIG. 15 is a schematic view of the connection between the turnover structure and the hinge of the furnace according to the present invention.

FIG. 16 is a second schematic view of the connection between the turnover structure and the hinge of the furnace according to the present invention.

The reference numbers illustrate:

1-body; 11-a furnace hinge; 111-vertical block; 112-furnace connecting shaft; 12-a panel; 1 a-furnace hanging buckle; 1 aa-a second mounting section; 1ab — second mounting hole; 1 ac-a second limit portion; 2-overturning the arm; 21-arm hinge end; 211-arm hanging buckle; 212-arm attachment hole; 22-arm snap/arm snap hole; 23-arm connection; 21 a-a clamping part; 2 a-connecting block; 2 b-arm connecting shaft; 3-a gasket; 31-ring connecting hole; 32-turn connection; 33-perforating; 34-a slot; 35-circle of insert blocks; 36-top connection hole; 4-an adjustment section; 41-bottom plug section; 5-an anti-collision part; 51-a top plug-in section; 52-locking holes; 6-a handle; 61-a fixation hole; 62-slot insert block; 7-an insulating block; 71-block card slot.

Detailed Description

The utility model is further described below with reference to the accompanying drawings:

as shown in fig. 1-16, the present invention relates to a turning bracket structure of an induction cooker, which comprises a body 1 of the induction cooker, wherein at least one turning arm 2 is arranged on the body 1, one end of the turning arm 2 is connected with a gasket 3, the gasket 3 is used for being matched with the body 1 to place a container with an arc-shaped bottom, an adjusting part 4 is arranged at the upper end of the gasket 3, the adjusting part 4 is used for adapting to the radian of the bottom of the container, an anti-collision part 5 is arranged at the bottom surface of the gasket 3, and the anti-collision part 5 is used for preventing the gasket 3 from colliding with the body 1 when being turned to the surface of the body 1.

As shown in fig. 1-16, the main body 1 is provided with at least one furnace hinge portion 11, the furnace hinge portion 11 is disposed on the rear end surface of the main body 1, two side surfaces of the main body 1, the rear end of the upper surface of the main body 1 or two sides of the upper surface of the main body 1, one end of the turning arm 2 is provided with at least one arm hinge end 21, and the arm hinge end 21 is hinged with the corresponding furnace hinge portion 11; wherein, the furnace hinge part 11 and the body 1 are of an integrated structure; or, the furnace hinge part 11 is fixed on the body 1 through glue; alternatively, the oven hinge 11 is fixedly connected to the main body 1 by a locking member.

Further, as shown in fig. 1, 3, 5, 8, 9, 11-14, the furnace hinge portion 11 is composed of at least two vertical blocks 111 and a furnace connecting shaft 112 penetrating between two adjacent vertical blocks 111, each vertical block 111 is fixed on the body 1, the arm hinge end 21 is an arm hanging buckle 211, the arm hanging buckle 211 is hinged with the corresponding furnace connecting shaft 112 to form an overturning structure, when there is only one furnace hinge portion 11 on the body 1, each arm hinge end 21 is hinged on the same furnace connecting shaft 112; the arm buckle 211 is preferably in an L-shaped or C-shaped structure, so that the arm buckle 211 is clamped on the corresponding furnace connecting shaft 112, the stability of the hinge joint of the arm buckle 211 and the furnace connecting shaft 112 is ensured, the arm buckle 211 and the furnace connecting shaft 112 are more convenient to assemble and disassemble, when the gasket 3 is not needed, the gasket 3 and the turnover arm 2 can be detached from the body 1 of the induction cooker at any time, and the design of the arm buckle 211 of the turnover arm 2 is convenient for the suspension and storage of the gasket 3 and the turnover arm 2, however, it needs to be noted that the shape and the opening direction of the arm buckle 211 can be configured and adjusted according to the design requirements of products, so that the appearance of the products is more suitable for matching with the body 1, and is not limited; here, the upright block 111 and the body 1 are integrally formed; or, a first mounting section (not shown) is convexly arranged on at least one side of the bottom surface of the vertical block 111, the first mounting section and the vertical block 111 are arranged in a mutually vertical manner, the first mounting section is fixedly connected with the body 1 through glue, and further, if glue is not adopted for bonding, a first mounting hole (not shown) can be arranged on the first mounting section and is matched with the locking piece to be fixedly connected with the body 1; the vertical block 111 and the body 1, whether integrally formed, bonded by glue or fixed by a locking member, are all used for providing a hinge structure for the turning arm 2 on the body 1 in cooperation with the furnace connecting shaft 112 so as to facilitate the connection between the body 1 and the turning arm 2, and the connection mode between the vertical block 111 and the body 1 can be matched according to the actual requirements of product design without self-limitation; moreover, when the vertical block 111 and the body 1 are not integrally formed, the furnace hinge part 11 can be matched with other induction cookers on the market at present, and the turnover arm 2 with the gasket 3 can be hinged on the induction cooker only by mounting the furnace hinge part 11 on the induction cooker, so that the induction cooker is suitable for various induction cookers, is more flexible to use and has a wide application range; in addition, the first installation sections of the at least two vertical blocks 111 can be connected to each other, that is, the at least two vertical blocks 111 are arranged on the same first installation section to form a base structure, and by the structure, the distance between the vertical blocks 111 and the vertical blocks 111 can be fixed, so that the oven hinge portion 11 can be installed on the induction cooker more conveniently, and the installation can be easily performed without measuring and positioning.

Furthermore, a first embedding hole (not shown) can be arranged on one side of the upright block 111 facing the lifting direction of the turnover arm 2, the first embedding hole is tightly matched and connected with a first limiting part (not shown), each first limiting part is arranged at a position facing the turnover arm 2, when the gasket 3 is lifted, each first limiting part supports the corresponding turnover arm 2, so that the turnover arm 2 is erected on the oven hinge part 11, and the gasket 3 can be lifted and placed at any time when the cooking utensil is replaced.

Or, as shown in fig. 2, 4, 6, 7, 10, 15, 16, the furnace hinge portion 11 is at least one furnace hanging buckle 1a, the arm hinge end 21 is provided with at least two connecting blocks 2a, each connecting block 2a is connected with an arm connecting shaft 2b, and the furnace hanging buckle 1a is hinged with the corresponding arm connecting shaft 2b to form an overturning structure; the furnace hanging buckle 1a is preferably of an L-shaped or C-shaped structure, so that the arm connecting shaft 2b is clamped on the corresponding furnace hanging buckle 1a, the hinged stability of the arm connecting shaft 2b and the furnace hanging buckle 1a is ensured, and the arm connecting shaft 2b and the furnace hanging buckle 1a are more convenient to assemble and disassemble; or, when the washer 3 is connected with at least two turning arms 2, the arm hinged end 21 of the turning arm 2 forms a clamping part 21a, each clamping part 21a is connected with an arm connecting shaft 2b together, the furnace hinged part 11 is at least two furnace hanging buckles 1a, each furnace hanging buckle is hinged 1a and connected with the same arm connecting shaft 2b to form a turning structure; it should be noted here that the furnace hanging buckle 1a and the body 1 are integrally formed, or at least one side of the lower end of the furnace hanging buckle 1a is provided with a second mounting section 1aa, the second mounting section 1aa and the furnace hanging buckle 1a are arranged vertically, the second mounting section 1aa is bonded with the body 1 through glue, further, if no glue is used for bonding, a second mounting hole 1ab can be further arranged on the second mounting section 1aa, and the second mounting hole 1ab is fixedly connected with the body 1 through a locking member; the furnace hanging buckle 1a and the body 1 are integrally formed, bonded by glue or fixed by a locking piece, and are connected with the turnover arm 2 by matching with the body 1 to form a hinged structure, and the connection mode between the furnace hanging buckle 1a and the body 1 can be matched according to the actual requirement of product design without self-limitation; moreover, when the oven hanging buckle 1a and the body 1 are not integrally formed, the oven hanging buckle 1a can be matched with other induction cookers on the market at present, and the turnover arm 2 with the gasket 3 can be hinged on the induction cooker only by mounting the oven hanging buckle 1a on the induction cooker, so that the induction cooker is adaptive to various induction cookers, is more flexible to use and has a wide application range; in addition, the second mounting sections 1aa of the at least two furnace hanging buckles 1a can be connected with each other into a whole, that is, the same second mounting section 1aa is provided with the at least two furnace hanging buckles 1a to form a seat structure; or, be equipped with a linking section 1ad between two stove hangers 1a that are provided with second installation section 1aa, this linking section 1ad and two stove hangers 1a structure as an organic whole or adopt modes such as welding to be connected, through aforementioned two kinds of structures, it is fixed to enable stove hanger 1a and stove hanger 1a interval between, and it is more convenient to make stove articulated portion 11 install on the electromagnetism stove, need not to measure the location alright easily installation.

Furthermore, a second embedding hole (not shown) can be formed in one side of the oven hanging buckle 1a facing the lifting direction of the turnover arm 2, the second embedding hole is tightly connected with a second limiting part 1ac, each second limiting part 1ac is installed facing the arrangement position of the turnover arm 2, and when the gasket 3 is lifted, each second limiting part 1ac supports the corresponding turnover arm 2, so that the turnover arm 2 is erected on the oven hinge part 11, and the gasket 3 can be lifted and placed at any time when the cooking utensil is replaced.

As shown in fig. 8-10, 15 and 16, the turnover arm 2 and the washer 3 are of an integrally formed structure; or, as shown in fig. 11-12, the other end of the turning arm 2 is provided with at least one arm connecting hole 212, at least one circle of connecting holes 31 are formed on two sides of the washer 3, the circle of connecting holes 31 is matched with the locking member and fixedly connected with the circle of connecting holes 31, when the turning arm 2 is provided with more than two arm connecting holes 212 or the arm connecting holes 212 are strip-shaped holes, the circle of connecting holes 31 of the washer 3 is matched with the locking member and is adjustably connected with the arm connecting holes 212 of the turning arm 2;

or, as shown in fig. 13, the other end of the turning arm 2 is provided with at least one arm buckle/arm clamp hole 22, at least one circle of connecting parts 32 are convexly arranged on two sides of the gasket 3, and the arm buckle/arm clamp hole 22 is buckled on the corresponding circle of connecting parts 32; as shown in fig. 13, at least one arm connecting portion 23 is protruded from the inner side of the other end of the tilting arm 2, at least one ring of connecting holes 31 are formed on both sides of the washer 3, and the arm connecting portion 23 is inserted into the corresponding ring connecting hole 31.

As shown in fig. 1 to 14, at least two top connection holes 36 are formed on the top surface of the gasket 3, the adjusting part 4 is an adjusting single body, a bottom insertion section 41 is provided on the bottom surface of the adjusting part 4, the bottom insertion section 41 is fixedly connected with the top connection holes 36, wherein the top connection holes 36 are shaped holes, the shape of the bottom insertion section 41 is matched with the shape of the top connection holes 36, and the bottom insertion section 41 is tightly matched and connected with the corresponding top connection holes 36; or, the inner wall of the top connection hole 36 is provided with an internal thread (not shown), the outer wall of the bottom insertion section 41 is provided with an external thread (not shown), and the bottom insertion section 41 is in threaded connection with the top connection hole 36. Or, the adjusting part 4 is a ring structure (not shown), the bottom surface of the adjusting part 4 is convexly provided with more than two bottom inserting sections 41, the top surface of the gasket 3 is provided with at least two top connecting holes 36, the bottom inserting sections 41 are inserted into the corresponding top connecting holes 36, wherein the top connecting holes 36 are also shaped holes, the shape of the bottom inserting sections 41 is matched with the shape of the top connecting holes 36, and the bottom inserting sections 41 are tightly matched and connected with the corresponding top connecting holes 36; or, the adjusting part 4 is a ring structure (not shown), a connecting groove (not shown) is formed on the bottom surface of the adjusting part 4, the connecting groove is sleeved on the gasket 3, the shape of the connecting groove is matched with the shape of the upper end of the gasket 3, and the connecting groove is tightly matched and connected with the gasket 3; when the top connection hole 36 penetrates the bottom of the gasket 3 and the bottom insertion section 41 is protruded to the bottom surface of the gasket 3 through the corresponding top connection hole 36, the anti-collision part 5 is fixedly connected with the corresponding bottom insertion section 41.

As shown in fig. 1-14, the bottom surface of the gasket 3 is directly and fixedly connected with the anti-collision part 5 through an adhesive layer (not shown), the anti-collision part 5 is arranged to better protect the surface of the body 1, so as to avoid the direct collision and collision of the gasket 3 and the body 1 when the gasket 3 is placed on the body 1, and when the gasket 3 is made of a metal material, the gasket 3 generates heat/conducts heat due to the heat of the cooking utensil or the electromagnetic effect of the body 1 on the gasket 3 during the operation of the body 1, and at this time, the anti-collision part 5 can effectively insulate heat between the gasket 3 and the body 1; the anti-collision part 5 is of a block structure or an annular structure, the bonding layer generally adopts an adhesive, the anti-collision part 5 is fixedly connected along the bottom surface of the gasket 3 through the bonding layer, furthermore, at least one bottom groove can be formed in the bottom surface of the gasket 3, the bottom groove is matched with the bonding layer to be fixedly connected with the anti-collision part 5, and at the moment, the lower end of the anti-collision part 5 is convexly arranged on the bottom surface of the gasket 3. Or, the bottom surface of the gasket 3 is provided with at least two bottom connecting holes (not shown), the upper end of the anti-collision part 5 is provided with at least one top inserting section 51, the top inserting section 51 is fixedly connected with the corresponding bottom connecting hole, when the bottom connecting hole is a one-type hole, the shape of the top inserting section 51 is matched with that of the bottom connecting hole, and the top inserting section 51 is tightly connected with the bottom connecting hole; when the inner wall of the bottom connection hole is provided with an internal thread, the outer surface of the top plug-in section 51 is provided with an external thread, and the top plug-in section 51 is in threaded connection with the bottom connection hole. Or, the bottom surface of the gasket 3 is provided with at least two bottom connection holes, the collision-proof part 5 is provided with at least one locking hole 52 in a penetrating manner, the locking hole 52 is matched with a locking piece to be fixedly connected with the corresponding bottom connection hole, wherein the collision-proof part 5 is of a block structure or an annular structure, and the collision-proof part 5 is matched with the locking piece through the locking hole 52 and is fixedly connected with the bottom surface of the gasket 3. Or, the bottom surface of the gasket 3 is convexly provided with at least two bottom bulges, the anti-collision part 5 is provided with at least one buckling hole, and the buckling hole is connected with the corresponding bottom bulges, wherein the anti-collision part 5 is of a block structure or an annular structure; when the bottom connecting hole penetrates the top surface of the gasket 3 and the top inserting section 51 is convexly arranged on the top surface of the gasket 3 through the corresponding bottom connecting hole, the adjusting part 4 is fixedly connected with the corresponding top inserting section 51.

As shown in fig. 1-14, a handle 6 is disposed on one side of the gasket 3 facing the front end surface of the body 1, and the handle 6 is used for lifting the gasket 3 to prevent the gasket 3 from burning the hands of the user when the temperature is high; wherein, as shown in fig. 7, 10-13, the handle 6 and the washer 3 are integrally formed, or, as shown in fig. 8, fixing holes 61 are respectively formed at two ends of the handle 6, through holes 33 are respectively formed on the washer 3 corresponding to the fixing holes 61 of the handle 6, and the through holes 33 are connected with the corresponding fixing holes 61 by matching with the locking members; or, as shown in fig. 9, at least two slots 34 are formed at the joint of the gasket 3 corresponding to the handle 6, the end surfaces or both sides of the end portions of the handle 6 extend outward to form slot insertion blocks 62, and the handle 6 is inserted into the corresponding slot 34 through the slot insertion blocks 62.

As shown in fig. 8, 9, 11-14, one side of the gasket 3 is provided with an opening to form an open ring structure, and the opening is used to block the conduction of the gasket 3; or, as shown in fig. 8, one side of the gasket 3 is provided with an opening, the opening is provided with an insulating block 7, the insulating block 7 and the gasket 3 form a complete closed loop structure, wherein when two ends of the opening of the gasket 3 are respectively provided with a ring insertion block 35 in a protruding manner, two ends of the insulating block 7 are respectively provided with a block slot 71, each block slot 71 is clamped on the corresponding ring insertion block 35, when two ends of the opening of the gasket 3 are respectively provided with a ring slot (not shown in the figure), two ends of the insulating block 7 are respectively provided with a bump (not shown in the figure), and each ring slot is clamped on the corresponding bump; alternatively, as shown in fig. 9, the gasket 3 is a closed-loop structure formed integrally; specifically, when the gasket 3 is made of a metal material, if the gasket 3 is in a closed-loop structure, when the induction cooker works, the closed gasket 3 may generate an excitation reaction like a transformer, and generate electricity and generate heat, which may easily damage the induction cooker, and therefore, the gasket 3 at this time needs to adopt an open-loop structure or a split-loop structure to cooperate with the insulating block 7, so as to avoid the aforementioned excitation reaction of the gasket 3; when the gasket 3 is made of a non-metallic material, the aforementioned "stimulus reaction" does not occur no matter the gasket is made of an open-ring structure or an open-ring structure matched with the insulating block 7 or is made of a closed-ring structure, and therefore the gasket 3 is applicable to the open-ring structure, the open-ring structure matched with the insulating block 7 or the closed-ring structure.

As shown in fig. 1-7, a panel 12 is disposed on the top surface of the main body 1, an electromagnetic coil (not shown) is disposed below the panel 12, a control portion (not shown) is disposed inside the bottom surface of the main body 1, the control portion is electrically connected to a fan (not shown) for cooling the control portion when the apparatus is in operation, and a heat sink (not shown) is disposed on one side of the control portion for dissipating heat generated by the control portion when the apparatus is in operation.

In addition, the aforementioned locking components are preferably screws, which are easy to obtain, low in cost and convenient to lock, but it should be noted that the locking components can be selected according to the connection requirements of product components, so as to ensure that the anti-collision part 5 and the gasket 3 are stably connected, and therefore, the types of the locking components are not limited herein.

In general, the turnover arm 2 and the washer 3 are in a connected state to form a bracket structure; when a container with an arc-shaped surface (such as a round-bottom pot (concave pot)) is needed, the arm hinged ends 21 of the turnover arms 2 connected with the gaskets 3 are respectively connected to the corresponding furnace hinged parts 11 to form a hinged structure with the body 1, after the hinged structure is hinged, the gaskets 3 are placed on the surface of the panel 12 of the body 1 through the handles 6, and then the container with the bottom surface matched with the radian is placed on the gaskets 3, so that the body 1 can be opened for cooking; when the flat-bottom container is replaced for cooking, the gasket 3 is lifted through the handle 6, the arm hinged ends 21 of the turnover arms 2 are respectively detached from the oven hinged parts 11 of the body 1, and then the support structure is leaned or hung aside, or the gasket 3 is lifted, so that the turnover arms 2 lean on the first limiting parts or the second limiting parts 1ac arranged on the oven hinged parts 11, and the flat-bottom container can be replaced for cooking; in addition, when the height of the gasket 3 is not matched with the radian of the bottom surface of the container to be used, the adjusting part 4 can be arranged on the gasket 3, so that the gasket 3 is suitable for the radian of the bottom surface of the container to be used, the gasket 3 can be suitable for containers with various radians, and the application range of the support structure is enlarged.

It should be noted that in the description of the present invention, the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be configured in a specific orientation, and operate, and thus, should not be construed as limiting the present invention; furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; unless expressly stated or limited otherwise, the terms "mounted," "provided," "connected," and the like are to be construed broadly, such as "connected," and may be fixedly connected, removably connected, or integrally connected; can be mechanically or electrically connected; the two components can be directly connected or indirectly connected through an intermediate medium, and the two components can be communicated with each other, so that the specific meaning of the terms in the utility model can be understood by those skilled in the art; in addition, the parts used in the present invention can be customized according to the description of the specification and the accompanying drawings, and are not described herein again.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the present invention, so that the equivalent changes or modifications of the structure, features and principles of the present invention by those skilled in the art should fall within the protection scope of the present invention.

Claims (10)

1. The utility model provides an upset supporting structure of electromagnetism stove, includes the body of electromagnetism stove, its characterized in that: the body is provided with at least one turnover arm, one end of the turnover arm is connected with a gasket, the gasket is used for matching the body to place a container with the bottom being an arc-shaped surface, the upper end of the gasket is provided with an adjusting part, the adjusting part is used for adapting to the radian of the bottom of the container, the bottom surface of the gasket is provided with an anti-collision part, and the anti-collision part is used for avoiding the gasket from colliding with the body when the gasket is turned over to the surface of the body.

2. The turning bracket structure of an induction cooker according to claim 1, characterized in that: the body is provided with at least one furnace hinge part, the furnace hinge parts are arranged on the rear end surface of the body, two side surfaces of the body, the rear end of the upper surface of the body or two sides of the upper surface of the body, one end of the turnover arm is provided with at least one arm hinge end, and the arm hinge end is hinged with the corresponding furnace hinge part.

3. The turning bracket structure of an induction cooker according to claim 2, characterized in that: the furnace hinge part consists of at least two vertical blocks and a furnace connecting shaft penetrating between the two adjacent vertical blocks, each vertical block is respectively fixed on the body, the arm hinge end is an arm hanging buckle, and the arm hanging buckle is hinged with the corresponding furnace connecting shaft to form a turnover structure; when the main body is provided with only one furnace hinged part, the hinged end of each arm is hinged on the same furnace connecting shaft.

4. The turning bracket structure of an induction cooker according to claim 2, characterized in that: the furnace hinged part is at least one furnace hanging buckle, the arm hinged end is provided with at least two connecting blocks, each connecting block is connected with an arm connecting shaft together, and the furnace hanging buckle is hinged with the corresponding arm connecting shaft to form a turnover structure; or when the gasket is connected with at least two turnover arms, the arm hinged ends of the turnover arms form a clamping part, each clamping part is connected with an arm connecting shaft together, the furnace hinged part is at least two furnace hanging buckles, and each furnace hanging buckle is hinged with the same arm connecting shaft to form a turnover structure.

5. The turning bracket structure of an induction cooker according to claim 1, characterized in that: the turnover arm and the gasket are of an integrally formed structure; or, the other end of the turnover arm is provided with at least one arm connecting hole, two sides of the gasket are provided with at least one circle of connecting holes, the circle of connecting holes are matched with the locking piece and fixedly connected with the circle of connecting holes, and when the turnover arm is provided with two strip-shaped holes which take the upper arm connecting holes or the arm connecting holes, the circle of connecting holes of the gasket are matched with the locking piece and are in adjustable connection with the arm connecting holes of the turnover arm; or, the other end of the turnover arm is provided with at least one arm buckle/arm clamp hole, two sides of the gasket are at least convexly provided with a circle of connecting parts, and the arm buckle/arm clamp hole is buckled on the corresponding circle of connecting parts; and the other end of the turnover arm is provided with at least one arm connecting part in a protruding mode, two sides of the gasket are respectively provided with at least one circle of connecting holes, and the arm connecting parts are inserted into the corresponding circle of connecting holes.

6. The turning bracket structure of an induction cooker according to claim 1, characterized in that: the top surface of the gasket is provided with at least two top connecting holes, the adjusting part is an adjusting single body, the bottom surface of the adjusting part is provided with a bottom inserting section, and the bottom inserting section is fixedly connected with the top connecting holes; or the regulating part is of an annular structure, more than two bottom inserting sections are convexly arranged on the bottom surface of the regulating part, at least two top connecting holes are arranged on the top surface of the gasket, and the bottom inserting sections are inserted into the corresponding top connecting holes; or, the regulating part is a ring structure, and the bottom surface of the regulating part is provided with a connecting groove which is sleeved on the gasket; when the top connecting hole penetrates through the bottom of the gasket and the bottom inserting section is convexly arranged on the bottom surface of the gasket through the corresponding top connecting hole, the anti-collision part is fixedly connected with the corresponding bottom inserting section.

7. The turning bracket structure of an induction cooker according to claim 1, characterized in that: the bottom surface of the gasket is directly and fixedly connected with the anti-collision part through a bonding layer; or the bottom surface of the gasket is provided with at least two bottom connecting holes, the upper end of the anti-collision part is provided with at least one top inserting section, and the top inserting section is fixedly connected with the corresponding bottom connecting hole; or the bottom surface of the gasket is provided with at least two bottom connecting holes, the anti-collision part is provided with at least one locking hole in a penetrating way, and the locking hole is matched with the locking piece and fixedly connected with the corresponding bottom connecting hole; or at least two bottom bulges are convexly arranged on the bottom surface of the gasket, at least one buckling hole is arranged on the anti-collision part, and the buckling hole is connected with the corresponding bottom bulge; when the bottom connecting hole penetrates through the top surface of the gasket and the top inserting section is convexly arranged on the top surface of the gasket through the corresponding top connecting hole, the adjusting part is fixedly connected with the corresponding top inserting section.

8. The turning bracket structure of an induction cooker according to claim 1, characterized in that: and a handle is arranged on one side of the gasket, which faces the front end face of the body, and is used for lifting and placing the gasket.

9. The turning bracket structure of an induction cooker according to claim 1, characterized in that: one side of the gasket is provided with an opening to form an open ring structure, and the opening is used for cutting off the conduction of the gasket; or, one side of the gasket is provided with an opening, the opening is provided with an insulating block, and the insulating block and the gasket form a complete closed-loop structure; or, the gasket is a closed loop structure formed integrally.

10. The turning bracket structure of an induction cooker according to claim 1, characterized in that: the top surface of the body is provided with a panel, an electromagnetic coil is arranged in the lower portion of the panel, a control portion is arranged in the bottom surface of the body and electrically connected with a fan, the fan is used for cooling the control portion when the equipment works, one side of the control portion is provided with a radiator, and the radiator is used for transferring heat generated by the control portion when the equipment works.

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