阅读说明：本技术 一种智能旋转多功能电磁煎炉 (Rotatory multi-functional electromagnetism of intelligence is fried in shallow oil stove ) 是由 曹静明 于 2021-09-10 设计创作，主要内容包括：本发明公开了一种智能旋转多功能电磁煎炉。它包括整机框架、炉体台面、锅盖臂组件、煎锅、锅具旋转组件、锅具加热组件、加回油组件、加水组件和电控箱,炉体台面安装在整机框架的上端,锅盖臂组件置于炉体台面的上方,锅盖臂组件穿过炉体台面安装在整机框架上,锅具旋转组件安装在炉体台面的上端面上且置于锅盖臂组件的下方,煎锅置于锅具旋转组件上,锅具加热组件安装在炉体台面的下端面上且置于煎锅的下方,加回油组件分别与锅盖臂组件和锅具旋转组件连接,加水组件与锅盖臂组件连接,锅盖臂组件、锅具加热组件、加回油组件和加水组件均与电控箱电连接。本发明的有益效果是：安全可靠性高；使用效率高；满足不同的使用需求；适用范围广。(The invention discloses an intelligent rotary multifunctional electromagnetic frying oven. It includes the complete machine frame, the furnace body mesa, the pot cover arm subassembly, fry in shallow oil the pot, pan rotating assembly, pan heating element, add the oil return subassembly, add water subassembly and electric cabinet, the upper end at the complete machine frame is installed to the furnace body mesa, the top of furnace body mesa is arranged in to the pot cover arm subassembly, the pot cover arm subassembly passes the furnace body mesa and installs on the complete machine frame, pan rotating assembly installs on the up end of furnace body mesa and arranges the below of pot cover arm subassembly in, fry in shallow oil the pot arrange in on the pan rotating assembly, pan heating element installs on the lower terminal surface of furnace body mesa and arranges the below of frying in, it is connected with pot cover arm subassembly and pan rotating assembly respectively to add the oil return subassembly, it is connected with the pot cover arm subassembly to add the water subassembly, the pot cover arm subassembly, the pan heating element, add the oil return subassembly and add the water subassembly and all be connected with the electric cabinet electricity. The invention has the beneficial effects that: the safety and the reliability are high; the use efficiency is high; different use requirements are met; the application range is wide.)

1. An intelligent rotary multifunctional electromagnetic frying stove is characterized by comprising a complete machine frame (6), a stove body table-board (8), a pot cover arm component (1), a frying pot (2), a pot rotating component (3), a pot heating component (9), an oil adding and returning component (5), a water adding component (7) and an electric cabinet (4), wherein the oil adding and returning component (5), the water adding component (7) and the electric cabinet (4) are all arranged inside the complete machine frame (6), the stove body table-board (8) is arranged at the upper end of the complete machine frame (6), the pot cover arm component (1) is arranged above the stove body table-board (8), the pot cover arm component (1) penetrates through the stove body table-board (8) to be arranged on the complete machine frame (6), the pot rotating component (3) is arranged on the upper end face of the stove body table-board (8) and is arranged below the pot cover arm component (1), frying pan (2) arrange pan rotating assembly (3) in on, pan heating element (9) install on the lower terminal surface of furnace body mesa (8) and arrange the below of frying pan (2) in, add oil return subassembly (5) and be connected with pot cover arm subassembly (1) and pan rotating assembly (3) respectively, water adding subassembly (7) be connected with pot cover arm subassembly (1), pan heating element (9), add oil return subassembly (5) and water adding subassembly (7) all are connected with electric cabinet (4) electricity.

2. The intelligent rotary multifunctional electromagnetic frying oven as claimed in claim 1, wherein a through hole (17) is arranged in the middle of the oven body table top (8), a recovered oil pipe through hole (14), a motor mounting hole (13), a plurality of protective cover fixing stoppers (16) and a plurality of bearing positioning shafts (15) are arranged on the oven body table top (8) and at the outer edge of the through hole (17), the recovered oil pipe through hole (14) is connected with the oil adding and returning component (5), a main driving motor (69) is arranged in the motor mounting hole (13), the pan rotating component (3) is arranged on the bearing positioning shaft (15) and the protective cover fixing stoppers (16) and is connected with the main driving motor (69), the main driving motor (69) is electrically connected with the electric cabinet (4), the through hole (17) corresponds to the pan heating component (9), an arm driving protective cover (18) is arranged on one side of the oven body table top (8), an oil-water pipe through hole (19) is formed in the middle of the pot cover arm driving protective cover (18).

3. The intelligent rotary multifunctional electromagnetic frying oven as claimed in claim 2, wherein the pan cover arm assembly (1) comprises a pan cover arm body (22), a pan cover arm protecting cover (20), a pan cover rotating assembly (10) and a pan cover arm driving assembly (11), a handle (23) is arranged at the front end of the pan cover arm body (22), a rotating arm (32) is arranged at the rear end of the pan cover arm body (22), a pipe groove (21) is arranged in the middle of the pan cover arm body (22), the pan cover arm protecting cover (20) is arranged on the pan cover arm body (22), the pan cover rotating assembly (10) is arranged at the front end of the pan cover arm body (22) and communicated with the pipe groove (21), the pan cover arm driving assembly (11) is arranged on the whole oven frame (6) and arranged in the pan cover arm driving protecting cover (18) of the oven body table top (8), and the pan cover arm driving assembly (11) passes through the rear arm driving protecting cover (18) of the oven body table top (8) The pot cover rotating component (10) is connected with the rear end of the pot cover arm body (22) through a rotating arm (32), and the pot cover rotating component (10) is provided with a pot cover body (31).

4. The intelligent rotary multifunctional electromagnetic frying oven as claimed in claim 3, wherein the pan cover rotating assembly (10) comprises a rotary connecting piece (25), a rotary fixing core (26), a rotary bearing (28), a bearing limiting ring (27), a bearing inner ring positioning snap ring (46), a skeleton type oil seal (47) and a rotary housing (29), a positioning hole (40) for installing the rotary fixing core (26) is formed in the middle of the rotary connecting piece (25), a plurality of positioning columns (39) are uniformly distributed on the rotary connecting piece (25) and arranged at the outer edge of the positioning hole (40), the rotary connecting piece (25) is installed on the pan cover arm body (22) through the positioning columns (39), an oil inlet (41) and an water inlet (42) are formed in the upper end face of the rotary fixing core (26), and an oil inlet pipe (24) is installed on the oil inlet (41), inlet opening (42) on install inlet tube (34), inlet tube (24) pass behind pipe casing (21) on pot cover arm body (22) and behind the profit pipe via hole (19) on the pot cover arm drive protection casing (18) of furnace body mesa (8) in proper order with add oil return subassembly (5) intercommunication, inlet tube (34) pass behind profit pipe casing (21) on pot cover arm body (22) and the profit pipe via hole (19) on the pot cover arm drive protection casing (18) of furnace body mesa (8) in proper order and add water subassembly (7) intercommunication, install flute shape oil pipe (44) on the lower extreme side of rotatory fixed core (26), flute shape outlet pipe (45) and scrape strip mounting hole (130), flute shape oil pipe (44) and inlet opening (41) intercommunication, flute shape outlet pipe (45) and inlet opening (42) intercommunication, the centre of rotatory fixed core (26) is equipped with bearing step (129), the top of bearing step (129) is equipped with location step (43), the diameter of location step (43) is greater than the diameter of bearing step (129), the inner circle of swivel bearing (28) is installed on bearing step (129) and is contacted with location step (43), bearing inner circle location snap ring (46) are installed on the lower terminal surface of bearing step (129) and are contacted with swivel bearing (28), bearing spacing collar (27) arrange in on the outer lane up end of swivel bearing (28), swivel housing (29) cup joint the outside at bearing spacing collar (27), the bottom of swivel housing (29) is equipped with spacing turn-ups (48) towards swivel housing (29) inner wall, skeleton formula oil blanket (47) install in the inside of swivel housing (29) and contact with spacing turn-ups (48), swivel bearing (28) install in swivel housing (29) and arrange skeleton formula oil blanket (47) and bearing spacing collar (27) in Between, the centre of pot cover body (31) is equipped with fixed core hole (30), rotatory fixed core (26) arrange pot cover body (31) in through fixed core hole (30), pot cover body (31) be connected with rotatory shell (29), scrape and install on strip mounting hole (130) and scrape strip mounting panel (131), strip mounting panel (131) on install wiper (132), flute shape oil outlet pipe (44), flute shape outlet pipe (45) and wiper (132) all arrange the inside of pot cover body (31) in, wiper (132) contact with pot cover body (31).

5. The intelligent rotary multifunctional electromagnetic frying oven as claimed in claim 3, wherein the pan cover arm driving assembly (11) comprises a pan cover arm rotating support (37), a pan cover arm rotating shaft (36) and a pan cover arm rotary driving motor (56), the cross section of the pan cover arm rotating support (37) is in a shape of Chinese character 'ji', the pan cover arm rotating support (37) is mounted on the whole frame (6), the diameter of the middle section of the pan cover arm rotating shaft (36) is larger than the diameters of the two ends of the pan cover arm rotating shaft (36), the pan cover arm rotating shaft (36) is provided with a pan cover arm connecting shaft (49), a connecting shaft fixing member (50), a pan cover arm bearing seat (51) and a pan cover arm rotating bearing (89), the connecting shaft fixing member (50) is provided with two fixing members which are mounted on the middle section of the pan cover arm rotating shaft (36), one end of the pan cover arm connecting shaft (49) is connected with the connecting shaft (50), the other end of the cover arm connecting shaft piece (49) penetrates through a cover arm driving protective cover (18) of the furnace body table top (8) and then is connected with the rotating arm (32), two cover arm bearing seats (51) are arranged on the upper end face of the cover arm rotating support (37), the cover arm rotating bearing (89) is arranged in the cover arm bearing seats (51), two ends of a cover arm rotating shaft (36) are arranged on the cover arm rotating bearing (89), an upper limit switch contact piece (52) is arranged at one end of the cover arm rotating shaft (36), a rotating driving gear (35) and a lower limit switch contact piece are arranged at the other end of the cover arm rotating shaft (36), the lower limit switch contact piece is arranged between the rotating driving gear (35) and the cover arm bearing seats (51) close to the rotating driving gear (35), an upper limit switch support (38) is arranged on one side face of the cover arm rotating support (37), the upper limit switch support (38) on install pot cover upper limit switch (58), pot cover upper limit switch (58) corresponding with upper limit switch contact (52), limit switch support (53) down is installed on the another side of pot cover arm runing rest (37), lower limit switch support (53) on install pot cover lower limit switch (33), pot cover lower limit switch (33) corresponding with lower limit switch contact, pot cover arm rotation driving motor (56) install the inside at pot cover arm runing rest (37), reduction gear (55) are installed to the front end of pot cover arm rotation driving motor (56), pot cover arm rotation driving motor (56) install the inside at pot cover arm runing rest (37) through reduction gear (55), the outside of pot cover arm runing rest (37) is equipped with driving motor gear (54), drive motor gear (54) pass pot cover arm runing rest (37) and be connected with reduction gear (55), drive motor gear (54) mesh with rotation driving gear (35) mutually, electromagnetic brake (57) are installed to the rear end of pot cover arm runing driving motor (56).

6. The intelligent rotary multifunctional electromagnetic frying oven according to claim 2, wherein the pan rotating assembly (3) comprises a rotary supporting assembly (12) and a rotary protective cover (64), the rotary supporting assembly (12) is mounted on a bearing positioning shaft (15) and is connected with a main driving motor (69), the rotary supporting assembly (12) is arranged in the rotary protective cover (64), the rotary protective cover (64) is mounted on the oven body table-board (8) through a protective cover fixing block (16), a groove (63) is formed in the outer edge of the rotary protective cover (64), an oil recovery groove (62) is detachably mounted in the groove (63), the depth of the oil recovery groove (62) is gradually increased from one end to the other end, a filter screen groove (61) is detachably mounted in the oil recovery groove (62), and the filter screen groove (61) is matched with the oil recovery groove (62), be equipped with pot cover oil water collecting tank (60) on the up end of rotatory protection casing (64), the degree of depth of pot cover oil water collecting tank (60) is crescent from one end to the other end, one end that pot cover oil water collecting tank (60) degree of depth is the biggest is equipped with location turn-ups (59), the one end that oil recovery groove (62) degree of depth is the biggest docks with the one end that pot cover oil water collecting tank (60) degree of depth is the biggest, location turn-ups (59) arrange oil recovery groove (62) in, the one end bottom that oil recovery groove (62) degree of depth is the biggest is equipped with the oil-out, oil-out and recovery oil pipe via hole (14) on furnace body mesa (8) through going out oil pipe intercommunication.

7. The intelligent rotary multifunctional electromagnetic frying oven as claimed in claim 6, wherein, the rotary supporting component (12) comprises a rotary gear component (68), a pan supporting ring (65) and a plurality of U-groove bearings (67), the U-groove bearings (67) correspond to the bearing positioning shafts (15) one by one, the U-groove bearings (67) are arranged on the bearing positioning shafts (15), the outer ring of the U-groove bearing (67) is provided with a U-groove (70), the rotating gear component (68) is arranged in the U-groove (70) of the U-groove bearing (67), a main drive gear (66) is arranged on the main drive motor (69), the main drive gear (66) is meshed with a rotating gear assembly (68), the pan supporting ring (65) is arranged on the rotating gear component (68), and the frying pan (2) is arranged on the pan supporting ring (65) and corresponds to the through hole (17) on the furnace body table-board (8).

8. The intelligent rotary multifunctional electromagnetic frying oven as claimed in claim 7, wherein the rotary gear assembly (68) comprises a first gear member (71) and a second gear member (73), the structure of the first gear member (71) is the same as that of the second gear member (73), the first gear member (71) is annular, a first meshing gear (74) is arranged on the lower surface of the first gear member (71) and at the outer ring edge of the first gear member (71), the first meshing gear (74) on the first gear member (71) is fitted with the first meshing gear (74) on the second gear member (73), the main driving gear (66) is meshed with the first meshing gear (74), and the pan supporting ring (65) is mounted on the first gear member (71) or the second gear member (73).

9. The intelligent rotary multifunctional electromagnetic frying oven as claimed in claim 7, wherein the rotary gear assembly (68) comprises a rotary gear body (77), the rotary gear body (77) is annular, a second meshing gear (76) is arranged on the lower surface of the rotary gear body (77) and is arranged at the edge of the outer ring of the rotary gear body (77), the second meshing gear (76) on the rotary gear body (77) is meshed with the main driving gear (66), and the pan supporting ring (65) is mounted on the rotary gear body (77).

10. The intelligent rotary multifunctional electromagnetic frying oven as claimed in claim 2, wherein the pan heating assembly (9) comprises microcrystalline glass (78), an induction coil (80) and a coil skeleton substrate (82), the microcrystalline glass (78) is arranged in the through hole (17) of the oven body table top (8), a pan bottom temperature sensor (79) is arranged at the center of the microcrystalline glass (78), the pan bottom temperature sensor (79) is electrically connected with the electric cabinet (4), a plurality of magnetic core skeletons (81) are arranged on the upper end face of the coil skeleton substrate (82), a magnetic core is embedded in the magnetic core skeleton (81), the induction coil (80) is arranged on the magnetic core skeleton (81), the microcrystalline glass (78) is arranged right above the induction coil (80), the coil skeleton substrate (82) is arranged on the lower end face of the oven body table top (8), the coil frame base plate is characterized in that a plurality of coil heat dissipation fans (84) are arranged on the lower end face of the coil frame base plate (82), coil heat dissipation holes (83) corresponding to the coil heat dissipation fans (84) are formed in the coil frame base plate (82), the coil heat dissipation fans (84) are installed in the coil heat dissipation holes (83) and correspond to the induction coils (80), the induction coils (80) are electrically connected with electromagnetic induction heating cores (113), the electromagnetic induction heating cores (113) are installed at the bottom of the whole machine frame (6), and the electromagnetic induction heating cores (113) are electrically connected with the electric cabinet (4).

11. The intelligent rotary multifunctional electromagnetic frying oven as claimed in claim 2, wherein the oil adding and returning component (5) comprises a drawer-type oil returning filter box (86), an oil returning collector (87), an oil returning cooling component (88), an oil tank (99) and an oil filling pump (117), an oil discharging pipe (85) is installed on the lower end face of the oven body table-board (8) and is arranged at the position of the recovered oil pipe through hole (14), the oil returning collector (87) is installed on the whole machine frame (6), the drawer-type oil returning filter box (86) is arranged on the oil returning collector (87), the oil discharging pipe (85) is arranged right above the drawer-type oil returning filter box (86), the bottom plate of the drawer-type oil returning filter box (86) is a filter screen plate, a drawer handle (107) is arranged on the front plate of the drawer-type oil returning filter box (86), and the oil returning collector (87) is connected with the oil returning cooling component (88), the oil tank (99) is arranged at the bottom of the whole machine frame (6), an oil return opening (112) is formed in the front side of the upper end of the oil tank (99), the oil return cooling assembly (88) is communicated with the oil return opening (112), an oil pumping opening (111) is formed in the rear side of the upper end of the oil tank (99), the oil pumping opening (111) is connected with an oil filling pump (117), the oil filling pump (117) is connected with the pot cover arm assembly (1) after passing through an oil-water pipe through hole (19) in the pot cover arm driving protective cover (18), a weight sensor (98) is arranged at the bottom of the oil tank (99), a sensor installation bin (121) for placing the weight sensor (98) is formed in the bottom of the whole machine frame (6), the oil filling pump (117) and the weight sensor (98) are both electrically connected with the electric control box (4), an oil filling hole (72) is formed in the furnace body table board (8), oil hole lid stopper (75) are installed to removable on oil filler point (72), be equipped with oiling mouth (133) on the up end of oil tank (99), oil filler point (72) through oiling mouth (133) intercommunication on oiling pipe and oil tank (99).

12. The rotatory multi-functional electromagnetism of intelligence is fried in shallow oil stove, characterized by, oil return cooling module (88) include oil return cooling spiral pipe (110) and oil return cooling fan (108), the distribution shape of oil return cooling spiral pipe (110) is the coil pipe form, the one end of oil return cooling spiral pipe (110) is the oil return import, the other end of oil return cooling spiral pipe (110) is the oil return export, the oil return import arrange in oil return cooling spiral pipe (110) upper end one side, one of them side of oil return collector (87) and oil return cooling spiral pipe (110) the oil return import be connected, the oil return export arrange in the lower extreme of oil return cooling spiral pipe (110) and with oil return opening (112) intercommunication of oil tank (99), install fan fixed plate (109) on the up end of oil return cooling spiral pipe (110), fan fixed plate (109) on be equipped with cooling fan hole, oil return cooling fan (108) install on cooling fan hole, the outside of oil tank (99) is equipped with oil tank protection casing (100), oil tank protection casing (100) install on complete machine frame (6), the lower terminal surface of oil return cooling spiral pipe (110) is installed on oil tank protection casing (100), oil return cooling fan (108) be connected with electric cabinet (4) electricity.

13. The intelligent rotating multifunctional electromagnetic frying oven as claimed in claim 2, wherein the water adding assembly (7) is installed at the bottom of the whole machine frame (6), the water adding assembly (7) comprises a water adding pump (115), a water supply tank (114), a water inlet electromagnetic valve (118) and a water purifier (116), the water purifier (116) is connected with the water inlet electromagnetic valve (118), the water inlet electromagnetic valve (118) is connected with the water supply tank (114), the water supply tank (114) is connected with the water adding pump (115), the water adding pump (115) is connected with the pot cover arm assembly (1) after driving an oil-water pipe through hole (19) in the protective cover (18) through the pot cover arm, a liquid level meter is arranged on the water supply tank (114), a flow meter (119) is arranged on the water adding pump (115), and the water inlet electromagnetic valve (118), the water adding pump (115) are arranged on the pot cover arm assembly (1), The liquid level meter and the flow meter (119) are electrically connected with the electric cabinet (4).

14. The intelligent rotary multifunctional electromagnetic frying oven as claimed in claim 11, wherein a left side plate (90) is installed on the left side of the whole frame (6), a right side plate (101) is installed on the right side of the whole frame (6), a rear baffle (105) is installed on the rear side of the whole frame (6), a front baffle is installed on the front side of the whole frame (6), a cabinet fan hole (104), a wiring hole (103) and a water inlet hole (42) are formed in the rear baffle (105), a cabinet cooling fan (106) is installed in the cabinet fan hole (104), a wiring terminal (102) is installed in the wiring hole (103), the water inlet hole (42) is in butt joint with the water adding assembly (7), the front baffle comprises a front upper baffle (96) and a front moving door (95), the front moving door (95) is installed on the front side of the whole frame (6) and is placed below the front upper baffle (96), the multifunctional water dispenser is characterized in that a drawer opening (92), a screen opening (93) and a key opening (94) are formed in the front upper baffle (96), the drawer type oil return filter box (86) is installed in the drawer opening (92), a touch screen (91) is installed in the screen opening (93), a physical key control box (97) is installed in the key opening (94), the cabinet cooling fan (106), the wiring terminal (102), the touch screen (91) and the physical key control box (97) are all electrically connected with the electric cabinet (4), an air inlet (120) is formed in the bottom surface of the whole machine frame (6) and is arranged between the oil tank (99) and the water adding assembly (7), and a plurality of movable bottom feet (122) are installed at the bottom of the whole machine frame (6).

15. The intelligent rotary multifunctional electromagnetic frying oven as claimed in claim 2, wherein the electric control box (4) comprises a box body (127), a control circuit board (123), a cover arm motor driving circuit (124), a driving power supply (126) and a power supply (125) are arranged in the box body (127), the driving power supply (126) is connected with the cover arm motor driving circuit (124), the cover arm motor driving circuit (124) is connected with the cover arm assembly (1), the power supply (125) is connected with the control circuit board (123), the control circuit board (123) is respectively connected with the cooker rotating assembly (3), the cooker heating assembly (9), the oil adding and returning assembly (5), the water adding assembly (7) and the main driving motor (69), and a plurality of wire inlet and outlet holes (128) are formed in the box body (127).

Technical Field

The invention relates to the technical field of electromagnetic frying furnaces, in particular to an intelligent rotary multifunctional electromagnetic frying furnace.

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 prior electromagnetic frying oven is always fixed by a pan body when in use, so that the problem of uneven heating of food fried by the electromagnetic frying oven is caused; even if the pot body can rotate, the manual operation is needed, so that the time and labor are wasted, and the potential safety hazard is also caused. In addition, the existing electromagnetic frying oven still has edible oil splashing in the use process, or the edible oil can flow to the table board along with the pot cover even if attached to the pot cover in the frying process, so that the table board is attached to the edible oil, on one hand, the table board is dirty, on the other hand, the table board is not convenient to clean, and meanwhile, the edible oil is wasted to a certain extent, and meanwhile, certain potential safety hazards can also exist. In addition, when the existing electromagnetic frying oven is used, a certain amount of water needs to be added into the pan to ensure that food in the pan can be cooked, and the water adding is generally manually held, so that certain errors exist, and the existing electromagnetic frying oven is not suitable for being used by novice personnel, so that the application range is small.

Disclosure of Invention

The invention provides the intelligent rotary multifunctional electromagnetic frying oven which is safe, reliable and wide in application range in order to overcome the defects in the prior art.

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

an intelligent rotary multifunctional electromagnetic frying stove comprises a complete machine frame, a stove body table-board, a pot cover arm component, a frying pot, a pot rotating component, a pot heating component, an oil adding and returning component, a water adding component and an electric cabinet, wherein the oil adding and returning component, the water adding component and the electric cabinet are all arranged inside the complete machine frame, the stove body table-board is arranged at the upper end of the complete machine frame, the pot cover arm component is arranged above the stove body table-board, the pot cover arm component penetrates through the stove body table-board to be arranged on the complete machine frame, the pot rotating component is arranged on the upper end surface of the stove body table-board and below the pot cover arm component, the frying pot is arranged on the pot rotating component, the pot heating component is arranged on the lower end surface of the stove body table-board and below the frying pot, the oil adding and returning component is respectively connected with the pot cover arm component and the pot rotating component, the water adding component is connected with the pot cover arm component, the pot cover arm component, the pot heating component, the oil adding and returning component and the water adding component are all electrically connected with the electric cabinet.

When the electric control box is used, the electric control box controls the opening and closing of the pot cover arm component, and the opening and closing of the pot cover arm component drives the opening and closing of the pot cover, so that the opening and closing of the pot cover and the frying pan are realized, the pot cover does not need to be manually operated, and the safety and reliability are greatly improved; the design of the pan rotating assembly can drive the frying pan on the pan rotating assembly to automatically rotate, so that the heating uniformity of food in the frying pan can be ensured, and the use efficiency of the frying pan can be improved; the pan heating assembly is arranged at the bottom of the frying pan to heat the frying pan, so that the temperature change of the frying pan can be detected in real time to perform adaptive temperature adjustment on the frying pan, and different use requirements are met; an oil return component is designed, so that on one hand, oil required by corresponding food can be automatically added into the frying pan, and on the other hand, oil and water attached to the pan cover and oil carried by the food in the frying process can be collected for filtering, recycling and secondary utilization; the water adding assembly is designed, so that the water required by the corresponding food can be automatically added into the frying pan to meet the cooking requirement of the food, and the application range of the whole equipment is greatly improved.

As preferred, the centre of furnace body mesa is equipped with the through-hole, the furnace body mesa on and the outward flange department of arranging the through-hole in be equipped with recovery oil pipe via hole, motor mounting hole, a plurality of protection casing fixed stop and a plurality of bearing location axle, recovery oil pipe via hole with add the oil return subassembly and be connected, the motor mounting hole in install and mainly drive the motor, pan rotating assembly install on bearing location axle and protection casing fixed stop and with mainly drive the motor and be connected, mainly drive motor and electric cabinet electricity and be connected, the through-hole corresponding with pan heating element, be equipped with pot cover arm drive protection casing on a side of furnace body mesa, the centre of pot cover arm drive protection casing is equipped with the oil water pipe via hole. The main drive motor can drive the rotation of the cookware rotating component, so that the frying pan can be rotated without manual operation, and the safety and reliability of the whole equipment are improved; the design of the cover arm driving protective cover can better protect the cover arm assembly, so that the cover arm assembly is not exposed outside and the service life is not reduced.

As preferred, the pot cover arm subassembly include pot cover arm body, pot cover arm protection casing, pot cover rotating assembly and pot cover arm drive assembly, the front end of pot cover arm body is equipped with the handle, the rear end of pot cover arm body is equipped with the rotor arm, the centre of pot cover arm body is equipped with the tube seat, pot cover arm protection casing install on pot cover arm body, pot cover rotating assembly install the front end of pot cover arm body and communicate with the tube seat, pot cover arm drive assembly installs on complete machine frame and arranges in the pot cover arm drive protection casing of furnace body mesa in, pot cover arm drive assembly passes behind the pot cover arm drive protection casing of furnace body mesa and is connected with the rear end of pot cover arm body through the rotor arm, pot cover rotating assembly on install the pot cover body. Through the design of the handle, when the pot cover arm driving assembly fails, manual control can be performed; the design of the rotating arm can facilitate the connection of the pot cover arm body and the pot cover arm driving component; the design of tube seat has made things convenient for the installation of advancing oil pipe and inlet tube.

Preferably, the pot cover rotating assembly comprises a rotating connecting piece, a rotating fixing core, a rotating bearing, a bearing limiting ring, a bearing inner ring positioning clamping ring, a framework type oil seal and a rotating shell, a positioning hole for installing the rotating fixing core is arranged in the middle of the rotating connecting piece, a plurality of positioning columns are uniformly distributed on the rotating connecting piece and arranged at the outer edge of the positioning hole, the rotating connecting piece is installed on the pot cover arm body through the positioning columns, an oil inlet hole and a water inlet hole are formed in the upper end face of the rotating fixing core, an oil inlet pipe is installed on the oil inlet hole, a water inlet pipe is installed on the water inlet hole, the oil inlet pipe sequentially penetrates through a pipe groove in the pot cover arm body and an oil pipe through hole in a pot cover arm driving protective cover of the furnace body table top and then is communicated with the oil return assembly, the water inlet pipe sequentially penetrates through a pipe groove in the pot cover arm body and an oil pipe through hole in the pot cover arm driving protective cover of the furnace body and then is communicated with the water adding assembly, the oil-water separator is characterized in that a flute-shaped oil outlet pipe, a flute-shaped water outlet pipe and a scraper mounting hole are mounted on the side surface of the lower end of the rotary fixed core, the flute-shaped oil outlet pipe is communicated with an oil inlet hole, the flute-shaped water outlet pipe is communicated with an water inlet hole, a bearing step is arranged in the middle of the rotary fixed core, a positioning step is arranged above the bearing step, the diameter of the positioning step is larger than that of the bearing step, an inner ring of the rotary bearing is mounted on the bearing step and is in contact with the positioning step, a positioning snap ring of the inner ring of the bearing is mounted on the lower end surface of the bearing step and is in contact with the rotary bearing, a bearing limit ring is arranged on the upper end surface of an outer ring of the rotary bearing, the rotary housing is sleeved on the outer side of the bearing limit ring, a limit flange facing the inner wall of the rotary housing is arranged at the bottom of the rotary housing, and a framework type oil seal is mounted inside of the rotary housing and is in contact with the limit flange, the utility model discloses a pot cover, including pot cover body, swivel bearing, pot cover mounting plate, fixed core hole, rotatory fixed core, fixed core hole, pot cover mounting plate, flute shape oil outlet pipe, flute shape outlet pipe and wiper, the inside of pot cover body is all arranged in to swivel bearing install in swivel housing and arrange in between skeleton formula oil blanket and the bearing spacing collar, the centre of pot cover body is equipped with fixed core hole, rotatory fixed core arrange the pot cover body in through fixed core hole, the pot cover body be connected with swivel housing, the wiper mounting plate on install the wiper mounting plate, the wiper mounting plate on install the wiper, flute shape oil outlet pipe, flute shape outlet pipe and wiper all arrange the inside of pot cover body in, wiper and pot cover body contact. Wherein: the skeleton type oil seal can be a fluorine rubber skeleton oil seal, has the characteristics of acid and alkali resistance, corrosion resistance, high temperature resistance, oil immersion resistance and the like, and can meet the use requirement of the equipment; the flute-shaped water outlet pipe and the flute-shaped oil outlet pipe are identical in structure and are in the shape of a circular pipe, and a plurality of small holes are formed in the flute-shaped water outlet pipe, so that the shape of the flute-shaped water outlet pipe is as same as that of a flute. The rotary fixing core is fixedly arranged on the pot cover arm body through a rotary connecting piece, a rotary bearing is arranged in a bearing step of the rotary fixing core, an inner ring of the rotary bearing is fixed with the rotary fixing core, an outer ring of the rotary bearing is limited between a bearing limiting ring and a framework type oil seal and is connected with a rotary shell, and the rotary shell is connected with the pot cover body, so that the pot cover body can freely rotate on the rotary fixing core; the water inlet pipe and the oil inlet pipe respectively add the required water quantity and oil quantity into the frying pan through the flute-shaped water outlet pipe and the flute-shaped oil outlet pipe; in addition, the rotary bearing is positioned in the bearing step through the bearing inner ring positioning clamping ring, and the lower end face of the rotary bearing is provided with the skeleton type oil seal to seal the lower end face of the rotary bearing in the rotary shell, so that oil and water splashed in the frying pan are prevented from being placed in the rotary shell to influence the use of the rotary bearing; and the design of wiper is used for scraping the profit on getting the pot cover body, and rotatory pot cover body just can directly fall into the frying pan with the profit when the pot cover body is not opened in, rotatory pot cover body can be retrieved the reuse on falling into pan rotating assembly with the profit when the pot cover body is opened.

Preferably, the pot cover arm driving assembly comprises a pot cover arm rotating support, a pot cover arm rotating shaft and a pot cover arm rotating driving motor, the cross section of the pot cover arm rotating support is in a shape like a Chinese character ji, the pot cover arm rotating support is arranged on the whole machine frame, the diameter of the middle section of the pot cover arm rotating shaft is larger than the diameters of the two ends of the pot cover arm rotating shaft, the pot cover arm rotating shaft is provided with a pot cover arm connecting shaft piece, a connecting shaft fixing piece, a pot cover arm bearing seat and a pot cover arm rotating bearing, the connecting shaft fixing piece is provided with two middle sections which are arranged on the pot cover arm rotating shaft, one end of the pot cover arm connecting shaft piece is connected with the connecting shaft fixing piece, the other end of the pot cover arm connecting shaft piece penetrates through the pot cover arm driving protective cover of the furnace body table top and then is connected with the rotating arm, the pot cover arm bearing seat is provided with two parts which are arranged on the upper end surface of the pot cover arm rotating support, the pot cover arm rotating bearing install in pot cover arm bearing, the both ends of pot cover arm rotation axis are installed on pot cover arm rotating bearing, limit switch contact is installed to the one end of pot cover arm rotation axis, install rotary drive gear and limit switch contact down on the other end of pot cover arm rotation axis, limit switch contact down arrange in rotary drive gear and be close to between rotary drive gear's the pot cover arm bearing, install limit switch support on a side of pot cover arm rotating support, the last limit switch of installing the pot cover on the limit switch support, the pot cover on limit switch and limit switch contact correspond, install limit switch support down on the another side of pot cover arm rotating support, limit switch under the pot cover on the limit switch support install the pot cover down, the pot cover under limit switch and limit switch contact correspond, pot cover arm rotation driving motor install the inside at pot cover arm runing rest, the reduction gear is installed to pot cover arm rotation driving motor's front end, pot cover arm rotation driving motor pass through the reduction gear and install the inside at pot cover arm runing rest, the outside of pot cover arm runing rest is equipped with the driving motor gear, the driving motor gear pass pot cover arm runing rest and retarder connection, driving motor gear and rotation driving gear mesh mutually, electromagnetic brake is installed to pot cover arm rotation driving motor's rear end. An upper limit switch contact piece and a lower limit switch contact piece are respectively designed at two ends of the rotating shaft of the pot cover arm and are matched with the upper limit switch and the lower limit switch of the pot cover on the rotating bracket of the pot cover arm to realize the opening and closing of the pot cover body, so that manual operation is not needed, and the working efficiency is greatly improved; the reducer is designed on the pot cover arm rotation driving motor to ensure the safety and reliability of the rotation of the pot cover arm, and the electromagnetic brake is designed to prevent the pot cover arm from being locked by the electromagnetic brake when the pot cover arm rotation driving motor does not work, and the handle on the pot cover arm body is matched to be converted into manual operation, so that the safety and reliability of the whole device are greatly improved.

Preferably, the cookware rotating assembly comprises a rotating support assembly and a rotating protective cover, the rotating support assembly is arranged on a bearing positioning shaft and is connected with a main drive motor, the rotating support assembly is arranged in the rotating protective cover, the rotating protective cover is arranged on a furnace body table board through a protective cover fixing stop block, a groove is arranged at the outer edge of the rotating protective cover, an oil recovery groove is detachably arranged in the groove, the depth of the oil recovery groove is gradually increased from one end to the other end, a filter screen groove is detachably arranged in the oil recovery groove and is matched with the oil recovery groove, a pot cover oil-water collecting groove is arranged on the upper end face of the rotating protective cover, the depth of the pot cover oil-water collecting groove is gradually increased from one end to the other end, and a positioning flange is arranged at the end with the largest depth of the pot cover oil-water collecting groove, the oil recovery tank is characterized in that one end with the largest depth of the oil recovery tank is in butt joint with one end with the largest depth of the oil-water collecting tank of the pot cover, the positioning flanging is arranged in the oil recovery tank, an oil outlet is formed in the bottom of the end with the largest depth of the oil recovery tank, and the oil outlet is communicated with a recovery oil pipe through hole in the table board of the furnace body through an oil outlet pipe. The rotary protective cover can protect the rotary supporting component; the oil recovery tank is designed on the food processing device and is used for recovering and reusing residual oil in food; the pot cover oil-water collecting tank has the following functions: when the pot cover body is in an open state, attached oil and water on the pot cover body is under the action of gravity and falls into the pot cover oil and water collecting tank, and the structural design of the pot cover oil and water collecting tank enables the oil and water to automatically flow into the oil recovery tank, and the oil and water enters the oil return component after being filtered once through the filter screen groove in the oil recovery tank.

Preferably, the rotation support assembly include the slewing gear subassembly, the pot props circle and a plurality of U groove bearing, U groove bearing and bearing location axle one-to-one, the U groove bearing install epaxially at the bearing location, the outer lane of U groove bearing is equipped with U type groove, the U type inslot of U groove bearing is arranged in to the rotatory gear subassembly, the main motor of driving on install the main gear that drives, main gear and the meshing of rotatory gear subassembly mutually of driving, the pot prop the circle arrange in on the up end of slewing gear subassembly, the frying pan arrange in on the pot prop the circle and corresponding with the through-hole on the furnace body mesa. Through the design of U groove pivot, the position of slewing gear subassembly can be injectd through U groove on the one hand, and on the other hand can make slewing gear subassembly receive the effect of U groove bearing and rotate, drives the pot and props the circle and rotate and realize the autogiration of frying in shallow oil pot.

Preferably, the rotary gear assembly comprises a first gear piece and a second gear piece, the structure of the first gear piece is the same as that of the second gear piece, the first gear piece is annular, a first meshing gear is arranged on the lower surface of the first gear piece and at the edge of the outer ring of the first gear piece, the first meshing gear on the first gear piece is attached to the first meshing gear on the second gear piece, the main driving gear is meshed with the first meshing gear, and the pan supporting ring is arranged on the first gear piece or the second gear piece. The rotary gear assembly is designed into two identical structures to be spliced, so that the production cost can be greatly reduced.

As another preferred, the rotary gear assembly includes a rotary gear body, the rotary gear body is annular, a second meshing gear is arranged on the lower surface of the rotary gear body and at the edge of the outer ring of the rotary gear body, the second meshing gear on the rotary gear body is meshed with the main drive gear, and the pan support ring is mounted on the rotary gear body. The design makes whole rotatory gear assembly be one whole like this, and it can improve the firm degree of whole rotatory gear assembly greatly.

Preferably, the pot heating component comprises microcrystalline glass, an induction coil and a coil framework substrate, the microcrystalline glass is arranged in a through hole of a table top of the furnace body, a pot bottom temperature sensor is arranged at the center of the microcrystalline glass and is electrically connected with the electric cabinet, a plurality of magnetic core frameworks are arranged on the upper end face of the coil framework substrate, magnetic cores are embedded in the magnetic core frameworks, the induction coil is installed on the magnetic core frameworks, the microcrystalline glass is arranged right above the induction coil, the coil framework substrate is installed on the lower end face of the table top of the furnace body, a plurality of coil cooling fans are arranged on the lower end face of the coil framework substrate, coil cooling holes corresponding to the coil cooling fans are arranged on the coil framework substrate, the coil cooling fans are installed in the coil cooling holes and correspond to the induction coil, the induction coil is electrically connected with an electromagnetic induction heating machine core, the electromagnetic induction heating machine core is arranged at the bottom of the whole machine frame, and the electromagnetic induction heating machine core is electrically connected with the electric cabinet. The coil framework substrate can facilitate the installation of the whole cooker heating assembly on the furnace body table-board, and the design of the magnetic core framework facilitates the installation and the positioning of the induction coil; meanwhile, the design of the coil cooling fan can better cool the induction coil; the structural design ensures that the induction coil can better heat the frying pan through the microcrystalline glass and detect the temperature of the frying pan in real time through the pan bottom temperature sensor; on the other hand can be better protect induction coil with the life who has improved whole pan heating element.

Preferably, the oil adding and returning component comprises a drawer-type oil returning filter box, an oil returning collector, an oil returning cooling component, an oil tank and an oil filling pump, wherein a lower oil pipe is arranged on the lower end surface of the table board of the furnace body and is arranged at the position of the through hole of the oil recovering pipe, the oil returning collector is arranged on the frame of the whole machine, the drawer-type oil returning filter box is arranged on the oil returning collector, the lower oil pipe is arranged right above the drawer-type oil returning filter box, the bottom plate of the drawer-type oil returning filter box is a filter screen plate, a drawer handle is arranged on the front plate of the drawer-type oil returning filter box, the oil returning collector is connected with the oil returning cooling component, the oil tank is arranged at the bottom of the frame of the whole machine, an oil return opening is arranged on the front side of the upper end of the oil tank, the oil returning cooling component is communicated with the oil return opening, an oil pumping opening is arranged on the rear side of the upper end of the oil tank, and the oil pumping opening is connected with the oil filling pump, the oiling pump pass through behind the oily water pipe via hole on the pot cover arm drive protection casing and be connected with the pot cover arm subassembly, the bottom of oil tank is equipped with weighing transducer, the bottom of complete machine frame is equipped with the sensor installation storehouse that is used for placing weighing transducer, oiling pump and weighing transducer all be connected with the electric cabinet electricity, the furnace body mesa on be equipped with the oil filler point, the oil filler point on detachable install the oilhole lid stopper, be equipped with the oiling mouth on the up end of oil tank, the oiling mouth intercommunication on oiling hole through oiling pipe and the oil tank. The oil water after primary filtration enters the drawer type oil return filter box, secondary filtration operation is carried out, and then the oil water falls into the oil return collector, and the oil return cooling assembly is designed to effectively cool the oil water so as to ensure that the oil water flowing into the oil tank is low in temperature; the purpose of designing the weight sensor at the bottom of the oil tank is as follows: on one hand, the oil quantity in the oil tank can be detected in real time, and when the oil storage quantity in the oil tank is less than a set offline value, the oil is alarmed and prompted to be added, so that the normal operation of the whole equipment is prevented from being influenced due to insufficient oil quantity; on the other hand detects the weight change when the single refuels through weighing transducer, subtracts heavy control fuel charge according to the fuel charge that sets for at the filling oil in-process, ensures that the fuel charge is accurate to can effectual limited fuel charge pump single refueling's volume, with the fuel charge demand that satisfies different food. In addition, a filling oil hole is formed in the right front corner of the furnace body table top corresponding to the proper position of the upper portion of the oil tank, a cover plug is matched with the filling oil hole, the cover plug is used for covering the oil hole when oil is not filled normally, the oil hole is opened when oil is filled, and oil is filled into the oil filling hole in the furnace body table top through the oil filling pipe, so that the situation that the use of the whole equipment is influenced due to insufficient oil in the oil tank is prevented.

As preferred, oil return cooling unit include oil return cooling spiral pipe and oil return cooling fan, oil return cooling spiral pipe's distribution shape is the coil pipe form, oil return cooling spiral pipe's one end is the oil return import, oil return cooling spiral pipe's the other end is the oil return export, oil return import arrange oil return cooling spiral pipe's upper end one side in, one of them side of oil return collector and oil return cooling spiral pipe's oil return access connection, the oil return export arrange oil return cooling spiral pipe's lower extreme in and communicate with the oil return mouth of oil tank, install the fan fixed plate on the up end of oil return cooling spiral pipe, the fan fixed plate on be equipped with cooling fan hole, oil return cooling fan install on cooling fan hole, the outside of oil tank is equipped with the oil tank protection casing, the oil tank protection casing install on complete machine frame, the lower end face of the oil return cooling spiral pipe is installed on the oil tank protective cover, and the oil return cooling fan is electrically connected with the electric cabinet. Through the shape design of oil return cooling spiral pipe and above it design fan fixed plate arrange the oil tank protective cover in simultaneously below for whole oil return cooling spiral pipe is the equal confined tubulose in both ends about one, consequently when oil return cooling fan during operation, wind will flow out in the spiral crack of oil return cooling spiral pipe, thereby make wind energy enough to blow the heat dissipation operation to whole oil return cooling spiral pipe, improved the cooling effect greatly.

As preferred, the subassembly of adding water install in the bottom of complete machine frame, the subassembly of adding water include water pump, water supply tank, water inlet solenoid valve and water purifier, water purifier and water inlet solenoid valve be connected, water inlet solenoid valve be connected with water supply tank, water supply tank be connected with water pump, water pump pass through behind the oily water pipe via hole on the pot cover arm drive protection casing and be connected with the pot cover arm subassembly, water supply tank on be equipped with the level gauge, water pump on be equipped with the flowmeter, water inlet solenoid valve, water pump, level gauge and flowmeter all be connected with the electric cabinet electricity. The water purifier can purify an externally accessed water source through the design of the water purifier so as to meet the high standard requirement of edible water; the water inlet electromagnetic valve works in cooperation with a liquid level meter in the water supply tank, when the water level in the water supply tank is lower than a warning value, the water inlet electromagnetic valve works to enable water to enter the water supply tank through the water purifier for storage, and the water inlet electromagnetic valve stops working after the water level reaches a preset water level; when water needs to be added, water in the water supply tank is pumped out by the water adding pump and added into the frying pan, and the water adding amount is detected by the flowmeter so as to meet the water adding amount requirements of different foods.

Preferably, the left side of the complete machine frame is provided with a left side plate, the right side of the complete machine frame is provided with a right side plate, the rear side of the complete machine frame is provided with a rear baffle, the front side of the complete machine frame is provided with a front baffle, the rear baffle is provided with a cabinet fan hole, a wiring hole and a water inlet hole, the cabinet fan hole is internally provided with a cabinet cooling fan, the wiring hole is internally provided with a wiring terminal, the water inlet hole is in butt joint with a water adding assembly, the front baffle comprises a front upper baffle and a front moving door, the front moving door is arranged at the front side of the complete machine frame and is arranged below the front upper baffle, the front upper baffle is provided with a drawer opening, a screen opening and a key opening, the drawer type oil return filter box is arranged in the drawer opening, the screen opening is internally provided with a touch screen, and the key opening is internally provided with a physical key control box, the cabinet cooling fan, the wiring terminal, the touch screen and the physical key control box are all electrically connected with the electric cabinet, an air inlet is formed in the bottom surface of the whole machine frame and is arranged between the oil tank and the water adding assembly, and a plurality of movable bottom feet are installed at the bottom of the whole machine frame. Through the design of the cabinet cooling fan and the air inlet, the cooling operation can be carried out on the interior of the whole machine frame; through the design of the front sliding door, the later maintenance of the interior of the whole machine frame is facilitated; the design of relevant parameters of the whole equipment can be carried out through the design of the touch screen; through the design of the physical key operation box, an operator can directly perform direct key operation of fixed action through the physical key operation box, so that the operation efficiency is improved; due to the design of the drawer opening, the drawer-type oil return filter box can be conveniently taken and placed, so that the drawer-type oil return filter box can be conveniently cleaned; and the design of the bottom feet facilitates the movement of the whole equipment.

As preferred, the electric cabinet include the box, the box in be equipped with control circuit board, pot cover arm motor-drive circuit, drive power supply and power supply, drive power supply be connected with pot cover arm motor-drive circuit, pot cover arm motor-drive circuit be connected with the pot cover arm subassembly, power supply be connected with control circuit board, control circuit board respectively with pan rotating assembly, pan heating element, add the oil return subassembly, add the water subassembly and mainly drive the motor and be connected, the box on be equipped with a plurality of business turn over wire holes. Through the design of the driving power supply and the cover arm motor driving circuit, the cover arm assembly can be driven and operated independently, the power supply and the control circuit board are used for operating other assemblies, and the power supply and the control circuit board are separated to prevent interference between the power supply and the control circuit board from influencing the operation of the whole equipment.

The invention has the beneficial effects that: the pot cover does not need to be manually operated, so that the safety and the reliability are greatly improved; the frying pan can ensure the heating uniformity of food in the frying pan by automatically rotating, and the use efficiency of the frying pan is improved; the temperature change of the frying pan is detected in real time to carry out adaptive temperature adjustment on the frying pan so as to meet different use requirements; the oil quantity and the water quantity required by corresponding food can be automatically added into the frying pan, and the oil and water are recycled, so that the application range of the whole equipment is greatly improved.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic diagram of the explosion structure of the whole machine of the present invention;

FIG. 3 is a schematic structural view of a furnace body table;

figure 4 is a schematic structural view of a lid arm assembly;

fig. 5 is a schematic structural view of a lid rotating assembly;

figure 6 is a schematic view of the lid arm drive assembly;

FIG. 7 is a schematic structural view of a pot rotating assembly;

FIG. 8 is a schematic structural view of the rotary support assembly;

FIG. 9 is a schematic view of one configuration of a rotating gear assembly;

FIG. 10 is another structural schematic of the rotary gear assembly;

FIG. 11 is a schematic structural view of a pot heating assembly;

FIG. 12 is an exploded view of the frame of the machine;

FIG. 13 is a schematic structural view of an oil adding and returning assembly;

FIG. 14 is a schematic view of the internal structure of the whole frame;

FIG. 15 is a schematic structural view of an electric cabinet;

figure 16 is a schematic structural view of the inside of the pot lid body.

In the figure: 1. a pot cover arm component, 2, a frying pot, 3, a pot rotating component, 4, an electric cabinet, 5, an oil adding and returning component, 6, a whole machine frame, 7, a water adding component, 8, a furnace body table top, 9, a pot heating component, 10, a pot cover rotating component, 11, a pot cover arm driving component, 12, a rotating support component, 13, a motor mounting hole, 14, an oil recovery pipe through hole, 15, a bearing positioning shaft, 16, a protective cover fixing stop block, 17, a through hole, 18, a pot cover arm driving protective cover, 19, an oil water pipe through hole, 20, a pot cover arm protective cover, 21, a pipe groove, 22, a pot cover arm body, 23, a handle, 24, an oil inlet pipe, 25, a rotating connecting piece, 26, a rotating fixing core, 27, a bearing limiting ring, 28, a rotating bearing, 29, a rotating shell, 30, a fixing core hole, 31. a cooker cover body, 32 rotating arms, 33 a cooker cover lower limit switch, 34 a water inlet pipe, 35 a rotary driving gear, 36 a cooker cover arm rotating shaft, 37 a cooker cover arm rotating bracket, 38 an upper limit switch bracket, 39 a positioning column, 40 a positioning hole, 41 an oil inlet hole, 42 a water inlet hole, 43 a positioning step, 44 a flute-shaped oil outlet pipe, 45 a flute-shaped water outlet pipe, 46 a bearing inner ring positioning snap ring, 47 a skeleton type oil seal, 48 a limit flanging, 49 a cooker cover arm connecting shaft member, 50 a connecting shaft fixing member, 51 a cooker cover arm bearing seat, 52 an upper limit switch contact piece, 53 a lower limit switch bracket, 54 a driving motor gear, 55 a speed reducer, 56 a cooker cover arm rotary driving motor, 57 an electromagnetic brake, 58 a cooker cover upper limit switch, 59. a positioning flange, 60 parts of a pot cover oil-water collecting tank, 61 parts of a filter screen groove, 62 parts of an oil recovery groove, 63 parts of a groove, 64 parts of a rotary protective cover, 65 parts of a pot supporting ring, 66 parts of a main driving gear, 67 parts of a U-groove bearing, 68 parts of a rotary gear assembly, 69 parts of a main driving motor, 70 parts of a U-groove, 71 parts of a first gear member, 72 parts of an oil filling hole, 73 parts of a second gear member, 74 parts of a first meshing gear, 75 parts of an oil hole cover plug, 76 parts of a second meshing gear, 77 parts of a rotary gear body, 78 parts of microcrystalline glass, 79 parts of a pot bottom temperature sensor, 80 parts of an induction coil, 81 parts of a magnetic core framework, 82 parts of a coil framework base plate, 83 parts of a coil, a heat dissipation hole 84 parts of a coil heat dissipation fan, 85 parts of a lower oil pipe, 86 parts of a drawer type oil return filter box, 87 parts of a collector, 88 parts of an oil return cooling assembly, 89. a cover arm rotating bearing, 90, a left side plate, 91, a touch screen, 92, a drawer opening, 93, a screen opening, 94, a key opening, 95, a front moving door, 96, a front upper baffle, 97, a physical key control box, 98, a weight sensor, 99, an oil tank, 100, an oil tank protective cover, 101, a right side plate, 102, a wiring terminal, 103, a wiring hole, 104, a cabinet fan hole, 105, a rear baffle, 106, a cabinet radiating fan, 107, a drawer handle, 108, an oil return cooling fan, 109, a fan fixing plate, 110, an oil return cooling spiral pipe, 111, an oil pumping opening, 112, an oil return opening, 113, an electromagnetic induction heating machine core, 114, a water supply tank, 115, a water feeding pump, 116, a water purifier, 117, an oil feeding pump, 118, a water inlet electromagnetic valve, 119, a flow meter, 120, an air inlet, 121. the sensor mounting bin, 122, the foot, 123, the control circuit board, 124, the cover arm motor driving circuit, 125, the power supply, 126, the driving power supply, 127, the box body, 128, the wire inlet and outlet holes, 129, the bearing step, 130, the scraping strip mounting hole, 131, the scraping strip mounting plate, 132, the wiper, 133 and the oil filling opening.

Detailed Description

The invention is further described with reference to the following figures and detailed description.

In the embodiment shown in fig. 1 and 2, an intelligent rotary multifunctional electromagnetic frying pan comprises a complete machine frame 6, a furnace body table-board 8, a pan cover arm assembly 1, a frying pan 2, a pan rotating assembly 3, a pan heating assembly 9, an oil adding and returning assembly 5, a water adding assembly 7 and an electric control box 4, wherein the oil adding and returning assembly 5, the water adding assembly 7 and the electric control box 4 are all arranged inside the complete machine frame 6, the furnace body table-board 8 is arranged at the upper end of the complete machine frame 6, the pan cover arm assembly 1 is arranged above the furnace body table-board 8, the pan cover arm assembly 1 passes through the furnace body table-board 8 and is arranged on the complete machine frame 6, the pan rotating assembly 3 is arranged on the upper end face of the furnace body table-board 8 and is arranged below the pan cover arm assembly 1, the frying pan 2 is arranged on the pan rotating assembly 3, the pan heating assembly 9 is arranged on the lower end face of the furnace body table-board 8 and is arranged below the frying pan 2, the oil adding and returning assembly 5 is respectively connected with the pan cover arm assembly 1 and the pan rotating assembly 3, the water adding component 7 is connected with the pot cover arm component 1, and the pot cover arm component 1, the pot heating component 9, the oil returning component 5 and the water adding component 7 are all electrically connected with the electric cabinet 4.

As shown in fig. 3, a through hole 17 is formed in the middle of the furnace body table-board 8, a recovered oil pipe via hole 14, a motor mounting hole 13, a plurality of shield fixing stoppers 16 and a plurality of bearing positioning shafts 15 are formed in the outer edge of the furnace body table-board 8 and arranged in the through hole 17, the recovered oil pipe via hole 14 is connected with the oil adding and returning component 5, a main driving motor 69 is installed in the motor mounting hole 13, the pan rotating component 3 is installed on the bearing positioning shafts 15 and the shield fixing stoppers 16 and connected with the main driving motor 69, the main driving motor 69 is electrically connected with the electric control box 4, the through hole 17 corresponds to the pan heating component 9, a pan cover arm driving shield 18 is arranged on one side edge of the furnace body table-board 8, and an oil-water pipe via hole 19 is formed in the middle of the pan cover arm driving shield 18.

As shown in fig. 4, the pot cover arm assembly 1 includes a pot cover arm body 22, a pot cover arm protection cover 20, a pot cover rotating assembly 10 and a pot cover arm driving assembly 11, a handle 23 is disposed at the front end of the pot cover arm body 22, a rotating arm 32 is disposed at the rear end of the pot cover arm body 22, a pipe groove 21 is disposed in the middle of the pot cover arm body 22, the pot cover arm protection cover 20 is installed on the pot cover arm body 22, the pot cover rotating assembly 10 is installed at the front end of the pot cover arm body 22 and communicated with the pipe groove 21, the pot cover arm driving assembly 11 is installed on the whole machine frame 6 and is arranged in the pot cover arm driving protection cover 18 of the furnace body table-top 8, the pot cover arm driving assembly 11 penetrates through the pot cover arm driving protection cover 18 of the furnace body table-top 8 and then is connected with the rear end of the pot cover arm body 22 through the rotating arm 32, and a pot cover body 31 is installed on the pot cover rotating assembly 10.

As shown in fig. 5 and 16, the lid rotating assembly 10 includes a rotating connector 25, a rotating fixing core 26, a rotating bearing 28, a bearing limiting ring 27, a bearing inner ring positioning snap ring 46, a skeleton-type oil seal 47 and a rotating housing 29, a positioning hole 40 for mounting the rotating fixing core 26 is provided in the middle of the rotating connector 25, a plurality of positioning posts 39 are uniformly distributed on the rotating connector 25 and disposed at the outer edge of the positioning hole 40, the rotating connector 25 is mounted on the lid arm body 22 through the positioning posts 39, an oil inlet 41 and an oil inlet 42 are provided on the upper end surface of the rotating fixing core 26, an oil inlet 24 is mounted on the oil inlet 41, an oil inlet pipe 34 is mounted on the oil inlet 42, the oil inlet 24 sequentially passes through the pipe grooves 21 on the lid arm body 22 and the oil pipe through hole 19 on the lid arm driving protective cover 18 of the furnace body platform 8 and then communicates with the oil return component 5, the oil inlet pipe 34 sequentially passes through the pipe grooves 21 on the lid arm body 22 and the arm driving protective cover 18 of the furnace body 8 The oil water pipe on the cover 18 is communicated with the water adding component 7 after passing through the hole 19, the flute-shaped oil outlet pipe 44, the flute-shaped water outlet pipe 45 and the scraping strip mounting hole 130 are arranged on the side surface of the lower end of the rotary fixing core 26, the flute-shaped oil outlet pipe 44 is communicated with the oil inlet hole 41, the flute-shaped water outlet pipe 45 is communicated with the water inlet hole 42, the bearing step 129 is arranged in the middle of the rotary fixing core 26, the positioning step 43 is arranged above the bearing step 129, the diameter of the positioning step 43 is larger than that of the bearing step 129, the inner ring of the rotary bearing 28 is arranged on the bearing step 129 and is contacted with the positioning step 43, the bearing inner ring positioning snap ring 46 is arranged on the lower end surface of the bearing step 129 and is contacted with the rotary bearing 28, the bearing limit ring 27 is arranged on the upper end surface of the outer ring of the rotary bearing 28, the rotary shell 29 is sleeved on the outer side of the bearing limit ring 27, the bottom of the rotary shell 29 is provided with the limit flanging 48 facing the inner wall of the rotary shell 29, framework oil seal 47 is installed in the inside of swivel housing 29 and is contacted with spacing turn-ups 48, swivel bearing 28 is installed in swivel housing 29 and is arranged in between framework oil seal 47 and bearing spacing collar 27, the centre of pot cover body 31 is equipped with fixed core hole 30, rotatory fixed core 26 is arranged in pot cover body 31 through fixed core hole 30, pot cover body 31 is connected with swivel housing 29, install on the scraping strip mounting hole 130 and scrape strip mounting panel 131, install wiper 132 on scraping strip mounting panel 131, flute shape oil outlet pipe 44, the inside of pot cover body 31 is all arranged in to flute shape outlet pipe 45 and wiper 132, wiper 132 contacts with pot cover body 31.

As shown in fig. 6, the lid arm driving assembly 11 includes a lid arm rotating support 37, a lid arm rotating shaft 36 and a lid arm rotating driving motor 56, the lid arm rotating support 37 has a cross-sectional shape of a few, the lid arm rotating support 37 is mounted on the whole frame 6, the diameter of the middle section of the lid arm rotating shaft 36 is larger than the diameter of the two ends of the lid arm rotating shaft 36, the lid arm rotating shaft 36 is provided with a lid arm connecting shaft 49, a connecting shaft fixing member 50, a lid arm bearing seat 51 and a lid arm rotating bearing 89, the connecting shaft fixing member 50 has two and is mounted on the middle section of the lid arm rotating shaft 36, one end of the lid arm connecting shaft 49 is connected with the connecting shaft fixing member 50, the other end of the lid arm connecting shaft 49 passes through the lid arm driving protective cover 18 of the furnace body table 8 and then is connected with the rotating arm 32, the lid arm bearing seat 51 has two and is mounted on the upper end face of the lid arm rotating support 37, a pot cover arm rotating bearing 89 is arranged in the pot cover arm bearing seat 51, two ends of the pot cover arm rotating shaft 36 are arranged on the pot cover arm rotating bearing 89, one end of the pot cover arm rotating shaft 36 is provided with an upper limit switch contact piece 52, the other end of the pot cover arm rotating shaft 36 is provided with a rotating drive gear 35 and a lower limit switch contact piece, the lower limit switch contact piece is arranged between the rotating drive gear 35 and the pot cover arm bearing seat 51 close to the rotating drive gear 35, one side surface of the pot cover arm rotating bracket 37 is provided with an upper limit switch bracket 38, the upper limit switch bracket 38 is provided with a pot cover upper limit switch 58, the pot cover upper limit switch 58 corresponds to the upper limit switch contact piece 52, the other side surface of the pot cover arm rotating bracket 37 is provided with a lower limit switch bracket 53, the lower limit switch bracket 53 is provided with a pot cover lower limit switch 33, the pot cover lower limit switch 33 corresponds to the lower limit switch contact piece, the pot cover arm rotation driving motor 56 is installed in the pot cover arm rotating support 37, the speed reducer 55 is installed at the front end of the pot cover arm rotation driving motor 56, the pot cover arm rotation driving motor 56 is installed in the pot cover arm rotating support 37 through the speed reducer 55, the driving motor gear 54 is arranged on the outer side of the pot cover arm rotating support 37, the driving motor gear 54 penetrates through the pot cover arm rotating support 37 and is connected with the speed reducer 55, the driving motor gear 54 is meshed with the rotation driving gear 35, and the electromagnetic brake 57 is installed at the rear end of the pot cover arm rotation driving motor 56.

As shown in fig. 7, the cookware rotating assembly 3 comprises a rotating support assembly 12 and a rotating protective cover 64, the rotating support assembly 12 is mounted on the bearing positioning shaft 15 and connected with a main driving motor 69, the rotating support assembly 12 is disposed in the rotating protective cover 64, the rotating protective cover 64 is mounted on the furnace body table-board 8 through a protective cover fixing stop 16, a groove 63 is disposed at the outer edge of the rotating protective cover 64, an oil recovery tank 62 is detachably mounted in the groove 63, the depth of the oil recovery tank 62 is gradually increased from one end to the other end, a filter screen tank 61 is detachably mounted in the oil recovery tank 62, the filter screen tank 61 is matched with the oil recovery tank 62, a pot cover oil-water collecting tank 60 is disposed on the upper end face of the rotating protective cover 64, the depth of the pot cover oil-water collecting tank 60 is gradually increased from one end to the other end, and a positioning flange 59 is disposed at the end with the largest depth of the pot cover oil-water collecting tank 60, the end with the largest depth of the oil recovery groove 62 is butted with the end with the largest depth of the pot cover oil-water collecting groove 60, the positioning flanging 59 is arranged in the oil recovery groove 62, the bottom of the end with the largest depth of the oil recovery groove 62 is provided with an oil outlet, and the oil outlet is communicated with the recovery oil pipe through hole 14 on the furnace body table surface 8 through an oil outlet pipe.

As shown in fig. 8, the rotary supporting component 12 includes a rotary gear component 68, a pan supporting ring 65 and a plurality of U-groove bearings 67, the U-groove bearings 67 are in one-to-one correspondence with the bearing positioning shafts 15, the U-groove bearings 67 are mounted on the bearing positioning shafts 15, U-grooves 70 are provided on outer rings of the U-groove bearings 67, the rotary gear component 68 is disposed in the U-grooves 70 of the U-groove bearings 67, a main driving gear 66 is mounted on a main driving motor 69, the main driving gear 66 is meshed with the rotary gear component 68, the pan supporting ring 65 is disposed on an upper end surface of the rotary gear component 68, and the frying pan 2 is disposed on the pan supporting ring 65 and corresponds to the through hole 17 on the furnace body table 8.

As shown in fig. 9, the rotating gear assembly 68 includes a first gear member 71 and a second gear member 73, the structure of the first gear member 71 is the same as that of the second gear member 73, the first gear member 71 is annular, a first engaging gear 74 is disposed on the lower surface of the first gear member 71 and at the outer ring edge of the first gear member 71, the first engaging gear 74 on the first gear member 71 is fitted with the first engaging gear 74 on the second gear member 73, the main driving gear 66 is engaged with the first engaging gear 74, and the pan supporting ring 65 is mounted on the first gear member 71 or on the second gear member 73.

As shown in fig. 10, the rotation gear assembly 68 of the present apparatus has another embodiment, specifically: the rotating gear assembly 68 includes a rotating gear body 77, the rotating gear body 77 is annular, a second meshing gear 76 is disposed on the lower surface of the rotating gear body 77 and at the edge of the outer ring of the rotating gear body 77, the second meshing gear 76 on the rotating gear body 77 meshes with the main drive gear 66, and the pan support ring 65 is disposed on the rotating gear body 77.

As shown in fig. 11, the pot heating assembly 9 includes a microcrystalline glass 78, an induction coil 80 and a coil skeleton substrate 82, the microcrystalline glass 78 is disposed in the through hole 17 of the furnace body table 8, a pot bottom temperature sensor 79 is disposed at the center of the microcrystalline glass 78, the pot bottom temperature sensor 79 is electrically connected to the electric cabinet 4, a plurality of magnetic core skeletons 81 distributed according to the heating firepower (power density) requirement are disposed on the upper end surface of the coil skeleton substrate 82, a magnetic core is embedded in the magnetic core skeletons 81, the magnetic core is reasonably arranged in the magnetic core skeletons 81 according to the firepower distribution requirement, the induction coil 80 is mounted on the magnetic core skeletons 81, the microcrystalline glass 78 is disposed right above the induction coil 80, the coil skeleton substrate 82 is mounted on the lower end surface of the furnace body table 8, a plurality of coil heat dissipation fans 84 are disposed on the lower end surface of the coil skeleton substrate 82, and coils 83 corresponding to the coil heat dissipation fans 84 are disposed on the coil skeleton substrate 82, the coil heat radiation fan 84 is arranged in the coil heat radiation hole 83 and corresponds to the induction coil 80, the induction coil 80 is electrically connected with an electromagnetic induction heating core 113, the electromagnetic induction heating core 113 is arranged at the bottom of the whole machine frame 6, and the electromagnetic induction heating core 113 is electrically connected with the electric cabinet 4.

As shown in fig. 12 and 13, the oil adding and returning component 5 includes a drawer-type oil returning filter box 86, an oil returning collector 87, an oil returning cooling component 88, an oil tank 99 and an oil filling pump 117, a lower oil pipe 85 is installed on the lower end surface of the furnace body table 8 and at the position where the recovered oil pipe through hole 14 is located, the oil returning collector 87 is installed on the whole machine frame 6, the drawer-type oil returning filter box 86 is installed on the oil returning collector 87, the lower oil pipe 85 is located right above the drawer-type oil returning filter box 86, the bottom plate of the drawer-type oil returning filter box 86 is a filter screen plate, a drawer handle 107 is arranged on the front plate of the drawer-type oil returning filter box 86, the oil returning collector 87 is connected with the oil returning cooling component 88, the oil tank 99 is installed at the bottom of the whole machine frame 6, an oil return opening 112 is arranged on the front side of the upper end of the oil tank 99, the oil returning cooling component 88 is communicated with the oil return opening 112, an oil pumping 111 is arranged on the rear side of the upper end of the oil tank 99, the oil pumping opening 111 is connected with the oil filling pump 117, the oil filling pump 117 is connected with the pot cover arm assembly 1 after passing through the oil and water pipe through hole 19 on the pot cover arm driving protective cover 18, the bottom of the oil tank 99 is provided with the weight sensor 98, the bottom of the whole machine frame 6 is provided with the sensor installation bin 121 for placing the weight sensor 98, the oil filling pump 117 and the weight sensor 98 are both electrically connected with the electric cabinet 4, the oil filling hole 72 is formed in the furnace body table top 8, the oil hole cover plug 75 is detachably installed on the oil filling hole 72, the oil filling port 133 is formed in the upper end face of the oil tank 99, and the oil filling hole 72 is communicated with the oil filling port 133 on the oil tank 99 through the oil filling pipe.

As shown in fig. 13, the oil-return cooling assembly 88 includes an oil-return cooling spiral pipe 110 and an oil-return cooling fan 108, the oil-return cooling spiral pipe 110 is in a coil shape, one end of the oil-return cooling spiral pipe 110 is an oil-return inlet, the other end of the oil-return cooling spiral pipe 110 is an oil-return outlet, the oil-return inlet is disposed on one side of the upper end of the oil-return cooling spiral pipe 110, one side of the oil-return collector 87 is connected to the oil-return inlet of the oil-return cooling spiral pipe 110, the oil-return outlet is disposed at the lower end of the oil-return cooling spiral pipe 110 and is communicated with an oil-return opening 112 of the oil tank 99, a fan fixing plate 109 is mounted on the upper end surface of the oil-return cooling spiral pipe 110, a cooling fan hole is disposed on the fan hole, an oil tank protective cover 100 is disposed on the outer side of the oil tank 99, the oil tank protective cover 100 is mounted on the whole machine frame 6, the lower end surface of the oil-return cooling spiral pipe 110 is mounted on the oil tank protective cover 100, the return-oil cooling fan 108 is electrically connected to the electric cabinet 4.

As shown in fig. 14, the water adding assembly 7 is installed at the bottom of the whole machine frame 6, the water adding assembly 7 includes a water adding pump 115, a water supply tank 114, a water inlet electromagnetic valve 118 and a water purifier 116, the water purifier 116 is connected with the water inlet electromagnetic valve 118, the water inlet electromagnetic valve 118 is connected with the water supply tank 114, the water supply tank 114 is connected with the water adding pump 115, the water adding pump 115 is connected with the pot cover arm assembly 1 after passing through an oil-water pipe through hole 19 on the pot cover arm driving protective cover 18, a liquid level meter is arranged on the water supply tank 114, a flow meter 119 is arranged on the water adding pump 115, and the water inlet electromagnetic valve 118, the water adding pump 115, the liquid level meter and the flow meter 119 are all electrically connected with the electric cabinet 4.

As shown in fig. 12, a left side plate 90 is installed on the left side of the complete machine frame 6, a right side plate 101 is installed on the right side of the complete machine frame 6, a rear baffle 105 is installed on the rear side of the complete machine frame 6, a front baffle is installed on the front side of the complete machine frame 6, a cabinet fan hole 104, a wiring hole 103 and a water inlet hole 42 are arranged on the rear baffle 105, a cabinet cooling fan 106 is installed in the cabinet fan hole 104, a wiring terminal 102 is installed in the wiring hole 103, the water inlet hole 42 is butted with the water adding assembly 7, the front baffle comprises a front upper baffle 96 and a front moving door 95, the front moving door 95 is installed on the front side of the complete machine frame 6 and is arranged below the front upper baffle 96, a drawer opening 92, a screen opening 93 and a key opening 94 are arranged on the front upper baffle 96, the drawer type oil return filter box 86 is installed in the drawer opening 92, a touch screen 91 is installed in the screen opening 93, a physical key control box 97 is installed in the key opening 94, the cabinet cooling fan 106, The wiring terminal 102, the touch screen 91 and the physical key control box 97 are all electrically connected with the electric cabinet 4, an air inlet 120 is arranged on the bottom surface of the whole machine frame 6 and between the oil tank 99 and the water adding assembly 7, and a plurality of movable bottom feet 122 are arranged at the bottom of the whole machine frame 6.

As shown in fig. 15, the electric cabinet 4 includes a cabinet 127, a control circuit board 123, a lid arm motor driving circuit 124, a driving power supply 126 and a power supply 125 are disposed in the cabinet 127, the driving power supply 126 is connected to the lid arm motor driving circuit 124, the lid arm motor driving circuit 124 is connected to the lid arm assembly 1, the power supply 125 is connected to the control circuit board 123, the control circuit board 123 is connected to the pot rotating assembly 3, the pot heating assembly 9, the oil adding and returning assembly 5, the water adding assembly 7 and the main driving motor 69, and a plurality of wire inlet and outlet holes 128 are disposed on the cabinet 127.

When the device is used, firstly, an external water source is connected with the water purifier 116, and after the device is connected with an external power source through the wiring terminal 102, parameters of oil adding amount and water adding amount are designed on the touch screen 91 according to food to be fried, wherein the oil adding amount is realized by the change of the weight sensor 98 during single oil adding of the oil adding pump 117, and the water adding amount is realized by the change of the flow meter 119 during single water adding of the water adding pump 115; secondly, the cover arm rotating drive motor 56 works to enable the cover arm rotating shaft 36 to rotate, the cover arm body 22 is driven to rotate, the cover body 31 is in an open state due to the matching of the upper limit switch contact piece 52 and the cover upper limit switch 58, food to be fried is placed in the frying pan 2, the cover arm rotating drive motor 56 works again, and the cover body 31 is in a closed state due to the matching of the lower limit switch contact piece and the cover lower limit switch 33; then, the oil pump 117 is operated so that the oil in the oil tank 99 is pumped out through the oil inlet pipe 24 to supply the oil to the rotary stationary core 26 through the pipe groove 21 and is ejected from the flute oil outlet pipe 44 to flow into the frying pan 2; the water pump 115 works to pump the water in the water supply tank 114 out through the water inlet pipe 34 to supply water to the rotary fixed core 26 through the pipe groove 21 and to spray out from the flute-shaped water outlet pipe 45 to flow into the frying pan 2; meanwhile, the main driving motor 69 works to drive the rotary supporting component 12 to rotate under the limitation of the U-groove bearing 67, and the pan supporting ring 65 is arranged on the rotary supporting component 12 and also rotates to drive the frying pan 2 to rotate; in addition, the electromagnetic induction heating machine core 113 works, so that the induction coil 80 works and heats the frying pan 2 through the microcrystalline glass 78, and real-time temperature detection and temperature adjustment are carried out on the frying pan 2 through the pan bottom temperature sensor 79 so as to meet the frying requirement; finally, when the frying is finished, the pot cover arm rotating shaft 36 is rotated by the work of the pot cover arm rotating driving motor 56, the pot cover arm body 22 is driven to rotate, the pot cover body 31 is in an open state by the cooperation of the upper limit switch contact piece 52 and the pot cover upper limit switch 58, oil and water attached to the pot cover body 31 can flow downwards into the pot cover oil and water collecting tank 60 under the action of gravity, meanwhile, an operator can also actively rotate the pot cover body 31, the pot cover body 31 rotates by taking the rotating fixing core 26 as a center through the rotating bearing 28, and the wiper 132 is in contact with the inner side of the pot cover body 31, so that the wiper 132 can directly wipe the oil and water on the pot cover body 31, the oil and water flows into the pot cover oil and water collecting tank 60, and the oil and water flows into the oil and water collecting tank 62 by the structural design of the pot cover oil and water collecting tank 60; meanwhile, when the fried food is taken, the residual oil on the food is placed in the oil recovery tank 62, the oil and water in the oil recovery tank 62 are subjected to primary filtration through the filter screen tank 61 and then subjected to secondary filtration through the structural design of the oil recovery tank 62, the oil and water flow into the drawer type recovery filter box through the lower oil pipe 85, the recovered oil and water are placed in the oil return collector 87, and after the oil and water in the oil return collector are cooled through the design of the oil return cooling spiral pipe 110, the oil and water enter the oil tank 99 for recovery and reuse. It should be noted that the water occupies only a small part of the cooking device during the collection process, and the water only serves to cook the food; mainly recovered is oil used in frying, and when oil and water are collected in the oil tank 99, the oil and the water are separated, namely the oil is placed above the water, so that the water is deposited on the bottom of the oil tank 99 even if the water is collected into the oil tank 99, and the oil tank 99 is cleaned one day in the actual use process, so that a large amount of water cannot be accumulated. Meanwhile, with the use of the device, the oil mass in the oil tank 99 is always in a consumption state, the oil mass in the oil tank 99 is monitored in real time through the weight sensor 98, the oil hole cover plug 75 is opened until the oil mass is lower than a set lower limit, the oil is filled into the oil tank 99 through the oil filling hole 72, the oil filling is stopped until the oil mass in the oil tank 99 reaches the set upper limit, the oil hole cover plug 75 is installed on the oil filling hole 72, and the whole oil filling action is completed.