CN212326205U - Automatic electromagnetic frying oven structure - Google Patents

Abstract

The utility model discloses an automatic electromagnetism is fried in shallow oil stove structure. It includes the pan subassembly, the drum subassembly, motor element and electromagnetic heating motor element group spare, motor element installs on electromagnetic heating motor element group spare, the pan subassembly rotates with motor element to be connected, drum subassembly and motor element fixed connection, the inside of pan subassembly is arranged in to the drum subassembly, the pan subassembly includes the pan body, waterproof rotation props the pot circle, prop pot circle support and runner assembly, the runner assembly is installed in the below of propping pot circle support and is connected with motor element, waterproof rotation props the pot circle and is installed in the top of propping pot circle support, the pan body is arranged waterproof rotation in and is propped the pot circle, the drum subassembly is arranged in the inside of propping pot circle support and is arranged in the below of pan body. The utility model has the advantages that: the magnetic field automatic rotating device has the advantages of automatic rotation, uniform heating, reduced labor intensity, improved safety and reliability, good heat dissipation effect, prolonged service life, uniform distribution of the magnetic field, uniform heating, simple structure and convenient operation.

Description

Automatic electromagnetic frying oven structure

Technical Field

The utility model relates to an electromagnetism stove correlation technique field especially indicates an automatic electromagnetism is fried in shallow oil stove structure.

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 pot without open fire or conduction heating, so that the heat efficiency is greatly improved. Is a high-efficiency energy-saving kitchen ware and is completely different from all the traditional kitchen wares which are heated by conduction with fire or without fire. The electromagnetic oven is an electric cooking appliance made by utilizing the electromagnetic induction heating principle. The device consists of a high-frequency induction heating coil (namely an exciting coil), a high-frequency power conversion device, a controller, a ferromagnetic material pot bottom cooker and the like.

The principle of the induction cooker is an electromagnetic induction phenomenon, namely, alternating current is utilized to generate an alternating magnetic field with the direction changing constantly through a coil, and eddy current (the reason can refer to Faraday's law of electromagnetic induction) appears in a conductor in the alternating magnetic field, which is caused by the fact that an eddy electric field pushes carriers (electrons but no iron atoms in a pot) in the conductor to move; the joule heating effect of the eddy current heats the conductor, thereby achieving heating.

The existing electromagnetic frying oven is always fixed on the pan body when in use, so that the whole pan body cannot be uniformly heated in the heating process, the pan body is unevenly heated, food in the pan body cannot be uniformly heated, and meanwhile, heating equipment at the bottom is also fixed, so that the heat distribution of the pan body cannot be uniform, and the food in the pan body cannot be well controlled by the whole electromagnetic frying oven; and the fixed electromagnetism is fried in shallow oil the stove and often need manually to go to adjust the pot body for the internal food of pot is heated evenly, has so not only increased intensity of labour, also has certain potential safety hazard simultaneously, leads to injuries such as scald.

SUMMERY OF THE UTILITY MODEL

The utility model provides an automatic electromagnetic frying oven structure with uniform heating, safety and reliability, which aims to overcome the defects of the prior art.

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

the utility model provides an automatic stove structure is fried in shallow oil to electromagnetism, includes pan subassembly, drum subassembly, motor element and electromagnetic heating motor element group spare, motor element install on electromagnetic heating motor element group spare, pan subassembly and motor element rotate to be connected, drum subassembly and motor element fixed connection, the inside of pan subassembly is arranged in to the drum subassembly, the pan subassembly include pan body, waterproof rotation prop the pot circle, prop pot circle support and runner assembly, the runner assembly install in the below of propping pot circle support and be connected with motor element, waterproof rotation prop the pot circle install in the top of propping pot circle support, the pan body arrange waterproof rotation in and prop the pot circle, the drum subassembly arrange in the inside of propping pot circle support and arrange the below of pan body in.

Through the design of runner assembly, the rotation that has realized pan subassembly and motor element is connected, and motor element and coil pack all are fixed mounting on electromagnetic heating motor element group spare, so the pan body passes through the runner assembly at electromagnetic heating motor element group spare internal rotation, and because the below of pan body is arranged in to the drum subassembly, so when the drum subassembly heats the pan body, because the pan body is at the pivoted, so can make the pan body be heated evenly, meanwhile because the pan body carries out the pivoted through motor element, so do not need to adopt the manpower to carry out manually operation, when having reduced intensity of labour, the fail safe nature of entire structure can be improved.

As preferred, waterproof rotation props the outside edge of pot circle and is equipped with pot circle turn-ups, the pot circle turn-ups on be equipped with a plurality of evenly distributed's louvre one, waterproof rotation props the pan leveling screw that is equipped with a plurality of evenly distributed on the up end of pot circle, the pan body on be equipped with the pan turn-ups, waterproof rotation prop and be equipped with the pan hole on the pot circle, the pan body arrange waterproof rotation in prop the pan hole of pot circle, the pan turn-ups of pan body arrange waterproof rotation in prop on the pan leveling screw of pot circle. Through the design of the pot ring flanging, the wire coil assembly is arranged in the pot ring flanging, so that the wire coil assembly can be effectively protected; the design of the first heat dissipation holes can effectively perform heat dissipation operation on the wire coil assembly, and the service life of the wire coil assembly is prolonged; and pan leveling screw's design, its aim at is used for adjusting the planarization of pan body for the pan body can be heated more evenly.

Preferably, the pot supporting ring support comprises a support tray and a plurality of rotating supports, the rotating assembly is installed in the middle of the bottom surface of the support tray, one ends of the rotating supports are evenly installed on the outer edge of the support tray, and the other ends of the rotating supports are installed on the lower end face of the waterproof rotating pot supporting ring. Through the distribution design of the rotary support, the supporting effect of the waterproof rotary pot supporting ring is improved.

Preferably, the rotating assembly comprises a driven gear and a rotary bearing, a first bearing groove is formed in the middle of the upper end face of the driven gear, a second bearing groove is formed in the middle of the lower end face of the support tray, the rotary bearing is installed in the first bearing groove and the second bearing groove, the thickness of the rotary bearing is larger than or equal to the sum of the depth of the first bearing groove and the depth of the second bearing groove, and the driven gear is connected with the motor assembly. Through bearing groove one, bearing groove two and swivel bearing's design for better fixed connection between driven gear and the support tray, thereby realize the rotation of support tray through swivel bearing, thereby realize the automatic rotation of pan body.

Preferably, the wire coil assembly comprises microcrystalline glass, a glass fixing ring, a coil disc and a coil support frame, a glass groove is formed in the upper end face of the glass fixing ring, the microcrystalline glass is installed in the glass groove, the coil disc is arranged below the glass fixing ring, the glass fixing ring and the coil disc are installed on the coil support frame, the coil support frame comprises a coil tray and a plurality of coil supports, the coil tray is installed on the motor assembly, one end of each coil support is uniformly installed on the outer edge of the corresponding support tray, and the other end of each coil support is installed on the lower end face of the corresponding glass fixing ring. Through the distribution design of coil support for improved the support effect to the glass retainer plate.

Preferably, a coil flanging is arranged at the outer side edge of the glass fixing ring, a plurality of heat dissipation holes II which are uniformly distributed are formed in the coil flanging, a central coil and a plurality of lateral coils are arranged on the coil panel, the central coil is arranged in the center of the coil panel, the lateral coils are arranged on the outer side of the central coil and are connected with the central coil in series, and the width of the lateral coils is gradually increased from one side close to the center of the coil panel to one side close to the outer edge of the coil panel. The coil panel is arranged in the coil flanging by the design of the coil flanging, so that the coil panel can be effectively protected; the design of the second heat dissipation holes can effectively perform heat dissipation operation on the coil panel, so that the service life of the coil panel is prolonged; the structural design of the central coil and the lateral coils aims to realize uniform distribution of magnetic fields, uniform heating and same heating power density.

Preferably, the motor assembly comprises a rotating center shaft, a motor support and a driving motor, the upper end of the rotating center shaft is provided with a coil tray circular step and a pan ring tray circular step, the coil tray circular step is arranged above the pan ring tray circular step, the diameter of the coil tray circular step is smaller than that of the pan ring tray circular step, the diameter of the pan ring tray circular step is smaller than that of the rotating center shaft, the middle of the coil tray is provided with a tray hole, the coil tray is arranged on the coil tray circular step through the tray hole and is in interference fit with the coil tray circular step, the rotating bearing is arranged on the pan ring tray circular step and is in interference fit with the pan ring tray circular step, the motor support is arranged on the outer side of the rotating center shaft and is arranged below the pan ring tray circular step, the driving motor is arranged on the motor support, the electromagnetic heating machine core assembly is characterized in that a motor shaft is arranged on the driving motor, a driving gear is arranged on the motor shaft and meshed with a driven gear, a fixing bottom plate is arranged at the lower end of the rotating middle shaft and is arranged on the electromagnetic heating machine core assembly. Through the cooperation of driving gear and driven gear, realized the operation of driving motor drive support tray to the automatic rotation of utensil body on waterproof rotatory pot circle of propping has been realized.

As preferred, the outside of rotatory centraxonial and the below of arranging pot circle tray circular step in is equipped with the support annular, the support annular in be equipped with fixed tangent plane, motor support include support one and support two, the one end of support one is equipped with circular arc groove one, support one install in the support annular through circular arc groove one, the other end of support one is equipped with the shaft groove, driving motor install on the other end of support one, the motor shaft place the position department at shaft groove place in, the one end of support two is equipped with circular arc groove two, circular arc groove two in be equipped with fixed tangent plane assorted lug, support two install in the support annular through circular arc groove two, support one and support two fixed connection. The fixed tangent plane in the support ring groove is matched with the convex block on the second support, so that the fixed connection between the motor support and the rotary middle shaft is realized, and the motor support cannot generate relative displacement in the support ring groove of the rotary middle shaft.

Preferably, the fixed bottom plate is provided with a step hole, the lower end of the rotating middle shaft is provided with a step head matched with the step hole, the rotating middle shaft is installed on the fixed bottom plate through the matching of the step head and the step hole, a wire passing cavity is arranged inside the rotating middle shaft, the upper end of the rotating middle shaft is provided with a coil wire passing hole I, the coil wire passing hole I is communicated with the wire passing cavity, the side surface of the lower end of the rotating middle shaft is provided with a coil wire passing hole II, and the coil wire passing hole II is communicated with the wire passing cavity. Through the design of the step hole and the step head, the verticality of the rotary middle shaft is improved, so that the heating uniformity of the whole structure is improved; and the design of the wire passing cavity, the first coil wire passing hole and the second coil wire passing hole of the rotary middle shaft can protect the circuit wire in the structure from being exposed outside, and the safety and reliability of the structure are improved.

Preferably, the electromagnetic heating core assembly comprises an electromagnetic oven shell, an electromagnetic oven core and a motor driving power supply, a pot hole for placing a pot body is formed in the electromagnetic oven shell, the electromagnetic oven core, the motor driving power supply and the motor assembly are all installed inside the electromagnetic oven shell, the motor driving power supply is electrically connected with the motor assembly, and the motor assembly and the coil assembly are electrically connected with the electromagnetic oven core. Simple structure and convenient operation.

The utility model has the advantages that: because the pan body is in the pivoted for the pan body is heated evenly, need not adopt the manpower to carry out manually operation, when having reduced intensity of labour, can improve fail safe nature, and the radiating effect is good, improves life, improves overall structure's straightness that hangs down, thereby has improved the degree of consistency of being heated, and magnetic field evenly distributed realizes that the heating is even, makes the power density of heating the same, simple structure, convenient operation.

Drawings

Fig. 1 is a schematic diagram of the explosion structure of the present invention;

FIG. 2 is a schematic structural view of a cookware assembly;

FIG. 3 is a schematic structural view of a coil assembly;

fig. 4 is a schematic structural view of the motor assembly.

In the figure: 1. the cooker comprises a cooker body, 2 pot leveling screws, 3 waterproof rotary pot supporting rings, 4 microcrystalline glass, 5 glass fixing rings, 6 coil discs, 7 coil supporting frames, 8 pot supporting ring supports, 9 rotary bearings, 10 driven gears, 11 driving gears, 12 support I and 13 driving motors, 14 fixing bottom plates, 15 rotary center shafts, 16 support II and 17 motor driving power supplies, 18 induction cooker movement, 19 induction cooker shell, 20 pot flanging, 21 pot holes, 22 pot flanging, 23 heat dissipation holes I and 24 rotary supports, 25 support trays, 26 bearing grooves I and 27 glass grooves, 28 coil flanging, 29 heat dissipation holes II and 30 lateral coils, 31 central coils, 32 coil supports, 33 coil trays, 34 coil supporting disc holes, 35 coil wire passing holes I and 36 coil supporting disc circular steps, 37. the pot ring tray comprises a pot ring tray circular step 38, a circular arc groove II 39, a fixed tangent plane 40, a support ring groove 41, a bump 42, a coil wire passing hole II 43, a step head 44, a step hole 45, a circular arc groove I46, a shaft groove 47 and a motor shaft.

Detailed Description

The invention is further described with reference to the accompanying drawings and the detailed description.

In the embodiment of fig. 1, an automatic electromagnetism frying pan structure, including pan subassembly, the drum subassembly, motor element and electromagnetic heating motor element group spare, motor element installs on electromagnetic heating motor element group spare, pan subassembly and motor element rotate to be connected, drum subassembly and motor element fixed connection, the inside of pan subassembly is arranged in to the drum subassembly, as shown in fig. 2, the pan subassembly includes pan body 1, waterproof rotation props pot circle 3, prop pot circle support 8 and runner assembly, the runner assembly is installed in the below of propping pot circle support 8 and is connected with motor element, waterproof rotation props pot circle 3 and is installed in the top of propping pot circle support 8, pan body 1 is arranged in waterproof rotation and is propped on pot circle 3, the drum subassembly is arranged in the inside of propping pot circle support 8 and is arranged in the below of pan body 1. The electromagnetic heating engine core assembly comprises an electromagnetic oven shell 19, an electromagnetic oven engine core 18 and a motor driving power supply 17, a cooker hole 21 for placing a cooker body 1 is formed in the electromagnetic oven shell 19, the electromagnetic oven engine core 18, the motor driving power supply 17 and a motor assembly are all installed inside the electromagnetic oven shell 19, the motor driving power supply 17 is electrically connected with the motor assembly, and the motor assembly and a coil assembly are both electrically connected with the electromagnetic oven engine core 18.

As shown in fig. 2, a pot ring flange 22 is arranged at the outer edge of the waterproof rotary pot supporting ring 3, a plurality of uniformly distributed heat dissipation holes 23 are formed in the pot ring flange 22, a plurality of uniformly distributed pot leveling screws 2 are arranged on the upper end face of the waterproof rotary pot supporting ring 3, a pot flange 20 is arranged on the pot body 1, a pot hole 21 is formed in the waterproof rotary pot supporting ring 3, the pot body 1 is arranged in the pot hole 21 of the waterproof rotary pot supporting ring 3, and the pot flange 20 of the pot body 1 is arranged on the pot leveling screw 2 of the waterproof rotary pot supporting ring 3. Prop pot circle support 8 and include support tray 25 and a plurality of runing rest 24, and the runner assembly installs in the middle of the bottom surface of support tray 25, and the even installation of one end of runing rest 24 is on the outward flange of support tray 25, and the other end of runing rest 24 is installed on waterproof rotatory lower terminal surface that props pot circle 3. The rotating assembly comprises a driven gear 10 and a rotary bearing 9, a first bearing groove 26 is formed in the middle of the upper end face of the driven gear 10, a second bearing groove is formed in the middle of the lower end face of the support tray 25, the rotary bearing 9 is installed in the first bearing groove 26 and the second bearing groove, the thickness of the rotary bearing 9 is larger than or equal to the sum of the depth of the first bearing groove 26 and the depth of the second bearing groove, and the driven gear 10 is connected with the motor assembly.

As shown in fig. 3, the wire coil assembly comprises a glass ceramic 4, a glass fixing ring 5, a coil panel 6 and a coil support frame 7, wherein a glass groove 27 is formed in the upper end surface of the glass fixing ring 5, the glass ceramic 4 is installed in the glass groove 27, the coil panel 6 is arranged below the glass fixing ring 5, and the glass fixing ring 5 and the coil panel 6 are both installed on the coil support frame 7. The coil support frame 7 comprises a coil tray 33 and a plurality of coil supports 32, the coil tray 33 is installed on the motor assembly, one ends of the coil supports 32 are evenly installed on the outer edge of the support tray 25, and the other ends of the coil supports 32 are installed on the lower end face of the glass fixing ring 5. The outer edge of the glass fixing ring 5 is provided with a coil flanging 28, the coil flanging 28 is provided with a plurality of second heat dissipation holes 29 which are uniformly distributed, the coil panel 6 is provided with a central coil 31 and a plurality of lateral coils 30, the central coil 31 is arranged in the center of the coil panel 6, the lateral coils 30 are arranged on the outer side of the central coil 31 and are connected with the central coil 31 in series, and the width of the lateral coils 30 is gradually increased from one side close to the center of the coil panel 6 to one side close to the outer edge of the coil panel 6. Wherein: the bottom surface of the pot body 1, the plane of the microcrystalline glass 4 and the plane of the coil panel 6 are mutually planar.

As shown in fig. 4, the motor assembly includes a rotating central shaft 15, a motor bracket and a driving motor 13, the upper end of the rotating central shaft 15 is provided with a coil tray circular step 36 and a pan ring tray circular step 37, the coil tray circular step 36 is arranged above the pan ring tray circular step 37, the diameter of the coil tray circular step 36 is smaller than that of the pan ring tray circular step 37, the diameter of the pan ring tray circular step 37 is smaller than that of the rotating central shaft 15, the middle of the coil tray 33 is provided with a tray hole 34, the coil tray 33 is arranged on the coil tray circular step 36 through the tray hole 34 and is in interference fit with the coil tray circular step 36, a rotating bearing 9 is arranged on the pan ring tray circular step 37 and is in interference fit with the pan ring tray circular step 37, the motor bracket is arranged outside the rotating central shaft 15 and is arranged below the pan ring tray circular step 37, the driving motor 13 is arranged on the motor bracket, the driving motor 13 is provided with a motor shaft 47, the motor shaft 47 is provided with a driving gear 11, the driving gear 11 is meshed with a driven gear 10, the lower end of the rotating middle shaft 15 is provided with a fixed bottom plate 14, and the fixed bottom plate 14 is installed on the electromagnetic heating engine core assembly. The outer side of the rotating center shaft 15 is provided with a support ring groove 40 below the pot ring tray circular step 37, a fixed tangent plane 39 is arranged in the support ring groove 40, the motor support comprises a first support 12 and a second support 16, one end of the first support 12 is provided with a first arc-shaped groove 45, the first support 12 is installed in the support ring groove 40 through the first arc-shaped groove 45, the other end of the first support 12 is provided with a shaft groove 46, the driving motor 13 is installed at the other end of the first support 12, the motor shaft 47 is arranged at the position of the shaft groove 46, one end of the second support 16 is provided with a second arc-shaped groove 38, a convex block 41 matched with the fixed tangent plane 39 is arranged in the second arc-shaped groove 38, the second support 16 is installed in the support ring groove 40 through the second arc-. The fixed bottom plate 14 is provided with a step hole 44, the lower end of the rotating middle shaft 15 is provided with a step head 43 matched with the step hole 44, the rotating middle shaft 15 is installed on the fixed bottom plate 14 through the matching of the step head 43 and the step hole 44, a wire passing cavity is arranged inside the rotating middle shaft 15, the upper end of the rotating middle shaft 15 is provided with a first coil wire passing hole 35, the first coil wire passing hole 35 is communicated with the wire passing cavity, the side surface of the lower end of the rotating middle shaft 15 is provided with a second coil wire passing hole 42, and the second coil wire passing hole 42 is communicated with the wire passing cavity.

When the cooker leveling device is used, the driving motor 13 and the coil panel 6 are controlled through the electromagnetic oven core 18, the driving gear 11 on the motor shaft 47 is rotated by starting the driving motor 13, the driving gear 11 drives the driven gear 10 to rotate, the rotating bearing 9 is installed on the rotating middle shaft 15, the rotation of the driven gear 10 drives the support tray 25 to rotate, and the support tray 25 drives the waterproof rotating pot supporting ring 3 to rotate through the rotating support 24, so that a cooker body 1 arranged on the waterproof rotating pot supporting ring 3 automatically rotates, and a cooker leveling screw 2 on the waterproof rotating pot supporting ring 3 can adjust the levelness of the cooker body 1; meanwhile, the electromagnetic oven core 18 is connected with the coil panel 6 through the first coil wire passing hole 35, the wire passing cavity and the second coil wire passing hole 42 on the rotary central shaft 15, so that the central coil 31 and the lateral coil 30 on the coil panel 6 work, a gap exists between the microcrystalline glass 4 and the cookware body 1, the coil panel 6 heats the cookware body 1 through the microcrystalline glass 4, and the heating uniformity of the coil panel 6 to the cookware body 1 can be realized due to the structural design of the coil on the coil panel 6, so that food in the cookware body 1 is heated uniformly.

Claims (10)

1. An automatic electromagnetic frying oven structure is characterized by comprising a cooker component, a wire coil component, a motor component and an electromagnetic heating motor core component, the motor component is arranged on the electromagnetic heating engine core component, the cooker component is rotationally connected with the motor component, the wire coil component is fixedly connected with the motor component and is arranged in the cooker component, the pot component comprises a pot body (1), a waterproof rotary pot supporting ring (3), a pot supporting ring bracket (8) and a rotating component, the rotating component is arranged below the pot supporting ring bracket (8) and is connected with the motor component, the waterproof rotary pot supporting ring (3) is arranged above the pot supporting ring bracket (8), pan body (1) arrange waterproof rotation in and prop on pot circle (3), the drum subassembly arrange in the inside of propping pot circle support (8) and arrange the below of pan body (1) in.

2. The automatic electromagnetic frying oven structure according to claim 1, wherein a pan rim flange (22) is arranged at the outer edge of the waterproof rotary pan supporting ring (3), a plurality of uniformly distributed heat dissipation holes I (23) are formed in the pan rim flange (22), a plurality of uniformly distributed pan leveling screws (2) are arranged on the upper end face of the waterproof rotary pan supporting ring (3), a pan flange (20) is arranged on the pan body (1), a pan hole (21) is formed in the waterproof rotary pan supporting ring (3), the pan body (1) is arranged in the pan hole (21) of the waterproof rotary pan supporting ring (3), and the pan rim (20) of the pan body (1) is arranged on the pan leveling screws (2) of the waterproof rotary pan supporting ring (3).

3. An automatic electromagnetic frying oven structure according to claim 1 or 2, characterized in that the pot supporting ring support (8) comprises a support tray (25) and a plurality of rotating supports (24), the rotating assembly is arranged in the middle of the bottom surface of the support tray (25), one end of each rotating support (24) is uniformly arranged on the outer edge of the support tray (25), and the other end of each rotating support (24) is arranged on the lower end surface of the waterproof rotating pot supporting ring (3).

4. An automatic electromagnetic frying oven structure according to claim 3, wherein the rotating assembly comprises a driven gear (10) and a rotary bearing (9), a first bearing groove (26) is formed in the middle of the upper end surface of the driven gear (10), a second bearing groove is formed in the middle of the lower end surface of the support tray (25), the rotary bearing (9) is arranged in the first bearing groove (26) and the second bearing groove, the thickness of the rotary bearing (9) is greater than or equal to the sum of the depth of the first bearing groove (26) and the depth of the second bearing groove, and the driven gear (10) is connected with a motor assembly.

5. The automatic electromagnetic frying oven structure of claim 4, wherein the wire coil assembly comprises a microcrystalline glass (4), a glass fixing ring (5), a coil panel (6) and a coil support frame (7), a glass groove (27) is arranged on the upper end face of the glass fixing ring (5), the microcrystalline glass (4) is arranged in the glass groove (27), the coil panel (6) is arranged below the glass fixing ring (5), the glass fixing ring (5) and the coil panel (6) are both arranged on the coil support frame (7), the coil supporting frame (7) comprises a coil tray (33) and a plurality of coil supports (32), the coil tray (33) is arranged on the motor component, one end of the coil bracket (32) is uniformly arranged on the outer edge of the bracket tray (25), the other end of the coil support (32) is arranged on the lower end face of the glass fixing ring (5).

6. An automatic electromagnetic frying oven structure according to claim 5, wherein a coil flange (28) is provided at the outer edge of the glass fixing ring (5), a plurality of second heat dissipating holes (29) are uniformly distributed on the coil flange (28), a central coil (31) and a plurality of lateral coils (30) are provided on the coil panel (6), the central coil (31) is disposed at the center of the coil panel (6), the lateral coils (30) are disposed at the outer side of the central coil (31) and are connected in series with the central coil (31), and the width of the lateral coils (30) is gradually increased from the side near the center of the coil panel (6) to the side near the outer edge of the coil panel (6).

7. An automatic electromagnetic frying oven structure according to claim 5, characterized in that the motor assembly comprises a rotary central shaft (15), a motor bracket and a driving motor (13), the upper end of the rotary central shaft (15) is provided with a coil tray circular step (36) and a pan ring tray circular step (37), the coil tray circular step (36) is arranged above the pan ring tray circular step (37), the diameter of the coil tray circular step (36) is smaller than that of the pan ring tray circular step (37), the diameter of the pan ring tray circular step (37) is smaller than that of the rotary central shaft (15), the middle of the coil tray (33) is provided with a tray hole (34), the coil tray (33) is arranged on the coil tray circular step (36) through the tray hole (34) and is in interference fit with the coil tray circular step (36), the rotary bearing (9) is arranged on the pan ring tray circular step (37) and passes through the pan ring tray circular step (37) The utility model discloses a pot circle step, the cooperation of sufficient, motor support install in the outside of rotatory axis (15) and place the below of pot circle tray circle step (37) in, driving motor (13) install on motor support, driving motor (13) on be equipped with motor shaft (47), motor shaft (47) on be equipped with driving gear (11), driving gear (11) and driven gear (10) mesh mutually, the lower extreme of rotatory axis (15) is equipped with PMKD (14), PMKD (14) install on electromagnetic heating core subassembly.

8. The automatic electromagnetic frying oven structure according to claim 7, wherein a bracket ring groove (40) is arranged at the outer side of the rotary central shaft (15) and below the pot ring tray circular step (37), a fixed tangent plane (39) is arranged in the bracket ring groove (40), the motor bracket comprises a bracket I (12) and a bracket II (16), one end of the bracket I (12) is provided with a circular arc groove I (45), the bracket I (12) is arranged in the bracket ring groove (40) through the circular arc groove I (45), the other end of the bracket I (12) is provided with a shaft groove (46), the driving motor (13) is arranged at the other end of the bracket I (12), the motor shaft (47) is arranged at the position of the shaft groove (46), one end of the bracket II (16) is provided with a circular arc groove II (38), a convex block (41) matched with the fixed tangent plane (39) is arranged in the circular arc groove II (38), the second support (16) is arranged in the second support ring groove (40) through a second arc-shaped groove (38), and the first support (12) is fixedly connected with the second support (16).

9. The automatic electromagnetic frying oven structure as claimed in claim 7, wherein a step hole (44) is formed in the fixed bottom plate (14), a step head (43) matched with the step hole (44) is arranged at the lower end of the rotating center shaft (15), the rotating center shaft (15) is mounted on the fixed bottom plate (14) through the matching of the step head (43) and the step hole (44), a wire passing cavity is formed in the rotating center shaft (15), a first coil wire passing hole (35) is formed in the upper end of the rotating center shaft (15), the first coil wire passing hole (35) is communicated with the wire passing cavity, a second coil wire passing hole (42) is formed in the side face of the lower end of the rotating center shaft (15), and the second coil wire passing hole (42) is communicated with the wire passing cavity.

10. The automatic electromagnetic frying oven structure according to claim 1, wherein the electromagnetic heating mechanism assembly comprises an electromagnetic oven shell (19), an electromagnetic oven core (18) and a motor driving power supply (17), the electromagnetic oven shell (19) is provided with a pot hole (21) for placing the pot body (1), the electromagnetic oven core (18), the motor driving power supply (17) and the motor assembly are all installed inside the electromagnetic oven shell (19), the motor driving power supply (17) is electrically connected with the motor assembly, and the motor assembly and the coil assembly are both electrically connected with the electromagnetic oven core (18).

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