CN110786723B

CN110786723B - Integrative automatic cooking machine of dish cutting dish

Info

Publication number: CN110786723B
Application number: CN201911203718.XA
Authority: CN
Inventors: 崔世梅
Original assignee: Yiwu Yixin Technology Co ltd
Current assignee: Yiwu Yixin Technology Co.,Ltd.
Priority date: 2019-11-29
Filing date: 2019-11-29
Publication date: 2021-03-23
Anticipated expiration: 2039-11-29
Also published as: CN110786723A

Abstract

The invention discloses an automatic vegetable-cutting and frying integrated cooker which comprises a cooker body, an inner container rotationally connected in the cooker body, a motor positioned in the cooker body and used for driving the inner container to rotate, and an electromagnetic heater capable of heating the inner container. The pot cover component is detachably arranged on the pot body; the pot cover assembly comprises a cover body and a rotating ring which is rotatably connected in the cover body and driven by the inner container. The pot cover assembly is detachably connected with a cutting assembly driven by a rotating ring and used for cutting food materials, or the pot cover assembly is detachably connected with a stirring shovel assembly. The stirring shovel component comprises a stirring shovel which is driven by a rotating ring and used for stirring food materials in the inner container. The multifunctional stirring device can realize multiple functions, and the inner container does not have any structure for stirring, so that the inner container is convenient to clean.

Description

Integrative automatic cooking machine of dish cutting dish

Technical Field

The invention belongs to the technical field of kitchen supplies, and particularly relates to an automatic cooking machine integrating vegetable cutting and cooking.

Background

Chinese patent document No. CN208625320U discloses an automatic vegetable-cutting and frying machine and a stirring mechanism thereof, wherein the stirring mechanism includes a connecting seat and a sheet-shaped stirring blade arranged on the side portion of the connecting seat, the connecting seat is provided with a second threaded hole for mounting the stirring mechanism, the stirring mechanism is connected with a threaded connection portion in the middle of the bottom side of the inner cavity of the pot body through the second threaded hole, and a preset distance is arranged between the outer end of the stirring mechanism and the side wall of the pot body. Compared with the prior art, the stirring mechanism is arranged at the bottom of the pot body of the inner pot component of the automatic food material stirring and frying machine, and the stirring mechanism is detachably connected with the pot body; food materials can be prevented from accumulating at the bottom of the pan, so that all food materials can be stir-fried along with the rotation of the pan body and under the action of the stirring mechanism, the food materials are fully stirred, and the stirring efficiency is improved; the preset distance can prevent food materials from remaining on two sides of the stirring mechanism, and uniform stirring is ensured.

In the above-mentioned patent, rabbling mechanism installs at the internal bottom of pot for must have fine leakproofness between the rabbling mechanism and the pot body, simultaneously because dirt such as oil stain is remained easily in the gap department between the rabbling mechanism and the pot body, it is inconvenient to wash.

Chinese patent No. CN204931395U discloses a cooking machine with an improved structure for connecting a pan body and a frame. The patent discloses a device for driving a pot body inner container to rotate and an installation and working principle of an electromagnetic heating wire frame for heating the pot body inner container.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: aiming at the defects existing in the prior art, the automatic vegetable-cutting and frying integrated cooker which has rich functions and is easy to clean and provided with the stirring device separated from the cooker body is provided.

In order to realize the purpose of the invention, the following technical scheme is adopted for realizing the purpose: the automatic vegetable-cutting and frying integrated cooker comprises a cooker body, an inner container which is rotatably connected in the cooker body, a motor which is positioned in the cooker body and drives the inner container to rotate, and an electromagnetic heater which can heat the inner container.

The pot cover component is detachably arranged on the pot body; the pot cover assembly comprises a cover body and a rotating ring which is rotatably connected in the cover body and driven by the inner container.

The pot cover assembly is detachably connected with a cutting assembly driven by a rotating ring and used for cutting food materials, or the pot cover assembly is detachably connected with a stirring shovel assembly.

The stirring shovel component comprises a stirring shovel which is driven by a rotating ring and used for stirring food materials in the inner container.

As an optimization scheme: the cutting assembly comprises a cutting shell, a cutter barrel which is used for cutting food materials and is rotatably connected into the cutting shell, and a speed change gear box which is fixedly connected to the outer side of the cutting shell and driven by a rotating ring to rotate the cutter barrel.

And a food material feeding pipe for feeding food materials is formed on the side wall of the cutting shell.

As an optimization scheme: the upper end of the inner container is uniformly and fixedly connected with a plurality of driving iron blocks along the circumferential direction; the lower end of the rotating ring is fixedly connected with a plurality of adsorption magnets which are tightly attracted with the driving iron blocks so as to drive the rotating ring to rotate.

As an optimization scheme: and the cover body is provided with a switch assembly for driving the cutting assembly and the stirring shovel assembly to work.

The switch assembly comprises an axis connected with the rotating ring in a transmission mode and a transmission face gear vertical to the axis of the rotating ring, a linkage sleeve which is connected with the transmission face gear in an axial sliding mode and can drive the cutting assembly and the stirring shovel assembly to work in a circumferential synchronous rotating mode, and a sliding button which is connected with the upper end of the cover body in a sliding mode and can drive the linkage sleeve to move axially.

When the sliding button moves to the limit position far away from the center of the cover body, the linkage sleeve cannot drive the cutting assembly and the stirring shovel assembly to work.

When the sliding button moves to the limit position close to the center of the cover body, the linkage sleeve can drive the cutting assembly and the stirring shovel assembly to work.

As an optimization scheme: stirring shovel subassembly rotates including stirring casing to be connected stirring face gear that can be connected with the swivel becket transmission in the stirring casing rotates to be connected in the stirring casing with the stirring drive division that stirring face gear transmission is connected, and detachable connects the stirring drive division lower extreme is used for stirring the interior edible material of inner bag stirring shovel.

The rotation direction of the stirring shovel is opposite to that of the inner container.

As an optimization scheme: the outer side of the pot body is rotatably connected with a pot body bracket which can enable the pot body to generate an inclination angle.

As an optimization scheme: the stirring shovel component further comprises a stirring insertion part which is connected in the stirring shell in a sliding mode and can be fixedly inserted into the cover body in an insertion mode, and a driven pressing part which is connected to the stirring shell in a longitudinal sliding mode and drives the stirring insertion part to move.

The stirring insertion part comprises a stirring insertion rod which can be inserted into the cover body, a guide driving head which is formed at one end, close to the center of the stirring shell, of the stirring insertion rod, and a reset spring which drives the stirring insertion part to reset.

The upper end of the guide driving head is a guide driving wall which is obliquely arranged and is abutted against the lower end of the driven pressing part.

When the driven pressing part moves towards the inner part of the stirring shell, the driven pressing part pushes the guide driving wall, so that the guide driving head moves towards the outer side of the stirring shell, and the stirring insertion rod is inserted and fixed with the cover body.

When the driven pressing part moves towards the outside of the stirring shell, the guide driving head moves towards the inner side of the stirring shell under the action of the return spring, and then the stirring insertion rod is separated from the cover body.

As an optimization scheme: the cover body is detachably connected with a handle assembly.

The handle assembly comprises a handle shell, a handle positioning frame, an eccentric wheel and a handle, wherein the handle positioning frame is connected in the handle shell in a sliding mode and used for fixing the handle assembly and the cover body relatively, the eccentric wheel drives the handle positioning frame to move, and the handle is rotatably connected to the upper end of the handle shell and drives the eccentric wheel to rotate.

When the stirring shovel assembly and the handle assembly are installed on the cover body, the handle can drive the driven pressing portion to move downwards.

The handle housing is made of a transparent material.

Compared with the prior art, the invention has the beneficial effects that: when a user uses the food cutting device to cut food, the cutting assembly is installed in the assembly installation groove, the sliding button is moved, the linkage sleeve and the gear box input shaft are connected in an inserting mode, the control panel controls the motor to work, the inner container is made to rotate, the rotating ring rotates through transmission of magnetic force, the rotating ring passes through the transmission end face gear, the linkage sleeve and the reduction gear box, the knife cylinder is driven to rotate, the user puts required food into the food material throwing pipe, the knife cylinder cuts the food material, and the cut food material falls into the inner container.

When the cutting is required to be suspended, the sliding button is moved, so that the sliding button is located at the limit position far away from the center of the cover body, the linkage sleeve is separated from the input shaft of the gear box, and the cutter barrel stops rotating.

The food material can be cut into a shape desired by the user by replacing the slicing knife cylinder or the shredding knife cylinder.

When the user needs to cook the food material, install stirring shovel subassembly and handle subassembly respectively on the lid to rotate the handle, make the handle rotate to the driven upper end of pressing the splenium, and then fix stirring shovel subassembly and handle subassembly respectively on the lid, will stir shovel subassembly and handle subassembly relatively fixed simultaneously, make stirring shovel subassembly, handle subassembly and lid form a whole.

And a suitable stirring shovel is arranged on the stirring shovel connecting head, so that the user can stir the food materials.

And then the control panel controls the motor and the electromagnetic heater to work to cook the food.

The user can control the motor and the electromagnetic heater to perform corresponding actions through corresponding buttons on the control panel so as to complete the operation.

According to the invention, the stirring shovel is arranged on the stirring shovel component, so that no tool for stirring is fixed in the liner, and the liner is convenient for a user to clean.

According to the food material cutting device, the stirring shovel assembly is mounted on the cover body, so that food materials are stirred, or the cutting assembly is mounted on the cover body, so that the effect of cutting the food materials is achieved, different requirements of users are met, meanwhile, power sources of the stirring shovel assembly and the cutting assembly are motors in the pot body, extra power sources are not needed, and the cost is saved.

According to the stirring shovel component, the handle component is fixed on the cover body by rotating the handle, the stirring shovel component can be fixed on the cover body, and the handle component and the stirring shovel component can be relatively fixed, so that the stirring shovel component, the handle component and the cover body are more firmly fixed.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic exploded view of the present invention.

Fig. 3 is a partially exploded view of the present invention.

Figure 4 is an exploded view of the lid assembly of the present invention.

Fig. 5 is a schematic cross-sectional view of the upper cover of the present invention.

Fig. 6 is an exploded view of the switch assembly of the present invention.

Fig. 7 is a schematic view of the structure of the rotating ring of the present invention.

FIG. 8 is a schematic structural view of the stirring upper shell of the present invention.

FIG. 9 is a schematic view of an exploded configuration of the stirring assembly of the present invention.

Fig. 10 and 11 are schematic exploded views of the cutting assembly of the present invention.

Fig. 12 is an exploded view of the handle assembly of the present invention.

Fig. 13 is a schematic view of the structure of the handle of the present invention.

FIG. 14 is a schematic view of the structure of the filament cutter cartridge of the present invention.

FIG. 15 is a schematic structural view of the pot body of the present invention.

FIG. 16 is a schematic structural view of the pan body of the present invention.

FIG. 17 is a schematic structural view of the flat stirring shovel of the present invention.

FIG. 18 is a schematic view of the construction of the inclined stirring shovel of the present invention.

Fig. 19 is a schematic view of the cooking apparatus of the present invention.

Fig. 20 is a schematic view of the structure of the food material cutting device according to the present invention.

1. A pan body; 11. a control panel; 12. a bracket rotating groove; 121. a bracket limiting bulge; 13. a pot body bracket; 131. a pan body connecting part; 1311. a limiting groove; 14. a cover body positioning portion;

21. a motor; 22. an electromagnetic heater; 23. an inner container; 231. driving the iron block;

3. a lid assembly; 31. a lower cover body; 30. steel balls; 311. a rotating ring positioning seat; 3111. a ball groove; 32. a rotating ring; 321. rotating the ring positioning ring; 322. adsorbing a magnet; 323. an inner gear of the rotating ring;

33. a central positioning frame; 331. a positioning frame connecting column; 332. a gear mounting plate; 333. a first mounting port; 334. a second mounting opening;

34. an upper cover body; 341. an assembly mounting groove; 3411. positioning holes of the stirring shovel component; 3412. punching a first linkage sleeve; 342. a handle assembly mounting slot; 3421. a handle housing positioning table; 3422. a handle assembly locating hole; 343. a slide button mounting port;

35. a slide button; 351. a sliding part; 352. a connecting frame; 353. the linkage sleeve is clamped with the connecting ring;

36. a drive face gear; 361. a transmission face gear connecting shaft; 37. a linkage sleeve; 371. the linkage sleeve drives the slot; 372. driving the perforation;

4. a stirring shovel assembly; 41. a driven pressing part; 411. a pressing part chute; 412. a handle jack; 413. a dome portion; 42. stirring the upper shell; 421. a second linkage sleeve is perforated; 422. a pressing part insertion hole; 423. pressing the chuck; 424. punching the stirring insertion rod; 425. a handle assembly receptacle;

43. a stirring insertion part; 431. a guide driving head; 432. stirring the insertion rod; 433. a return spring; 44. stirring the face gear; 451. a first drive gear; 452. a second transmission gear; 46. a stirring shovel driving part; 461. a stirring driving gear; 462. a stirring shovel connector; 47. stirring the lower bottom plate; 471. a mixing bayonet rod guide rail; 472. stirring the end face gear positioning seat; 473. a driving part positioning hole; 48. a plane stirring shovel; 49. inclining the stirring shovel;

5. a handle assembly; 51. a handle; 511. a handle spindle; 5111. an eccentric wheel drive shaft; 512. a handle drive shaft; 5121. a pressing part positioning rod; 513. a handle connecting portion;

52. a handle upper housing; 53. an eccentric wheel; 54. a handle positioning frame; 541. a cover body positioning rod; 542. a positioning frame driving groove; 543. a positioning frame guide groove; 544. a stirring positioning rod; 55. an eccentric wheel drive ring; 551 positioning frame connecting plate; 5511. a positioning frame drive head; 56. a handle lower case; 561. punching a hole by the positioning rod; 562. a positioning frame guide rail;

6. a cutting assembly; 61. cutting the shell; 611. a food material feeding pipe; 612. a housing locating ring; 62. a slicing knife cylinder; 621. a knife cylinder driving groove; 63. a change speed gear box; 631. a gearbox output shaft; 632. a second housing positioning ring; 633. a gearbox input shaft; 64. a shredding knife cylinder.

Detailed Description

Example 1

Referring to fig. 1 to 20, the automatic vegetable-cutting and cooking integrated cooker of the present embodiment includes a cooker body 1, an inner container 23 rotatably connected in the cooker body, a motor 21 located in the cooker body and driving the inner container to rotate, and an electromagnetic heater 22 located at the periphery of the inner container and capable of heating the inner container.

The pot cover component 3 is detachably arranged on the pot body; the pot cover assembly comprises a cover body and a rotating ring 32 which is rotatably connected in the cover body and driven by the inner container.

The pot cover assembly is detachably connected with a cutting assembly 6 driven by a rotating ring and used for cutting food materials, or the pot cover assembly is detachably connected with a stirring shovel assembly 4.

The cover body comprises a lower cover body 31 which can be detachably connected with the pot body and an upper cover body 34 which is fixedly connected with the upper end of the lower cover body; and an assembly mounting groove 341 for placing a cutting assembly or a stirring shovel assembly is formed at the upper end of the upper cover body.

A rotating ring positioning ring 321 is formed on the periphery of the upper end of the rotating ring; a rotating ring positioning seat 311 which is opposite to the rotating ring positioning ring is formed at the upper end of the lower cover body; a plurality of ball grooves 3111 are uniformly formed in the upper end of the rotating ring positioning seat along the circumferential direction; a steel ball 30 is rotatably arranged in each ball groove; the lower end of the rotating ring locating ring is abutted against each steel ball.

When the rotating ring rotates, each steel ball rotates simultaneously, and friction between the rotating ring and the rotating ring positioning seat is reduced.

A quadrangular cover body positioning part 14 which can be inserted with the lower cover body is formed on the periphery of the upper end of the pot body; when the cover body is placed on the pot body, the lower cover body is matched with the positioning part of the cover body, so that the cover body cannot rotate.

The cutting assembly comprises a cutting shell 61, a knife cylinder which is rotatably connected in the cutting shell and used for cutting food materials, and a speed change gear box 63 which is fixedly connected outside the cutting shell and driven by a rotating ring to further drive the knife cylinder to rotate.

A food material feeding pipe 611 for feeding food material is formed at the side wall of the cutting case.

The upper end of the inner container is uniformly and fixedly connected with a plurality of driving iron blocks 231 along the circumferential direction; the lower end of the rotating ring is fixedly connected with a plurality of adsorption magnets 322 which are tightly attracted with the driving iron blocks and further drive the rotating ring to rotate.

And the cover body is provided with a switch assembly for driving the cutting assembly and the stirring shovel assembly to work.

The switch assembly comprises an axis connected with the rotating ring in a transmission mode and a transmission face gear 36 vertical to the axis of the rotating ring, a linkage sleeve 37 connected with the transmission face gear in an axial sliding mode and capable of driving the cutting assembly and the stirring shovel assembly to work in a circumferential synchronous rotating mode, and a sliding button 35 connected with the upper end of the cover in a sliding mode and capable of driving the linkage sleeve to move axially.

A rotating ring internal gear 323 in meshed transmission connection with the transmission face gear is formed on the inner periphery of the rotating ring; a central positioning frame 33 is fixedly connected to the inner periphery of the rotating ring at the inner top of the upper cover body; the lower end face of the central positioning frame is flush with the lower end face of the rotating ring, and the upper end face of the central positioning frame is lower than the inner gear of the rotating ring.

And a positioning frame connecting column 331 fixedly connected with the inner top of the upper cover body is formed at the upper end of the central positioning frame.

A gear mounting plate 332 in rotary connection with the transmission end face gear is formed at the upper end of the central positioning frame; and a transmission end face gear connecting shaft 361 with a non-circular section penetrating through the gear mounting plate is formed at one end of the transmission end face gear, which is far away from the rotating ring.

And a driving through hole 372 which penetrates through the linkage sleeve and is in sliding connection with the transmission end face gear connecting shaft is formed in the linkage sleeve along the axis direction.

A sliding button mounting hole 343 for the sliding button to move is formed at the upper end of the upper cover body; the slide button includes along the joint cover axial slip joint slide part 351 in the slide button installing port, with the joint cover joint ring 353 that the joint cover rotated the joint to and connect the link 352 of slide part and joint cover joint ring.

The circumferential angle corresponding to the clamping ring of the linkage sleeve is larger than 180 degrees and smaller than 360 degrees; linkage cover outer wall shaping have with linkage cover joint ring rotates the linkage cover drive groove 371 of joint for when the slip button removes, the slip button drives the linkage cover along linkage cover axial synchronous motion, and the slip button removes the in-process, and the linkage cover all pegs graft with transmission face gear connecting axle, makes transmission face gear can drive the linkage cover and rotate.

A first linkage sleeve through hole 3412 for the linkage sleeve to pass through is formed in the side wall of the component mounting groove close to the linkage sleeve.

When the sliding button moves to the limit position far away from the center of the cover body, the linkage sleeve is completely positioned inside the cover body, and the linkage sleeve cannot drive the cutting assembly and the stirring shovel assembly to work.

When the sliding button moves to the limit position close to the center of the cover body, the linkage sleeve part is positioned in the assembly mounting groove, and the linkage sleeve can drive the cutting assembly and the stirring shovel assembly to work.

One side of the speed change gear box, which is far away from the knife cylinder, is rotatably connected with a gear box input shaft 633 which can be spliced with the linkage sleeve.

The knife cylinder includes a slicing knife cylinder 62 for cutting the food material into slices, and a shredding knife cylinder 64 for cutting the food material into filaments.

One side of the speed change gear box close to the knife cylinder is rotationally connected with a gear box output shaft 631; a cutter cylinder driving groove 621 detachably connected with an output shaft of the gear box is formed at one end of the cutter cylinder, which is close to the speed change gear box; the knife cylinder driving groove is connected with the output shaft of the gear box in an interference connection mode.

The gear output shaft and the gear input shaft are connected together through a plurality of gears in a transmission mode, and then the rotating speed of the knife cylinder reaches a required set value.

A first mounting opening 333 is formed in the central positioning frame at a position corresponding to the component mounting groove; the lower end of the component mounting groove is abutted to the central positioning frame, so that the component mounting groove and the first mounting opening form a space for mounting a stirring shovel component or a cutting component.

The first mounting opening extends towards the center of the assembly mounting groove to form a positioning inner convex ring for placing a stirring shovel assembly or a cutting assembly.

A shell positioning ring 612 which can abut against the positioning inner convex ring is formed on the side wall of the cutting shell; and a second outer shell positioning ring 632 which can abut against the positioning inner convex ring is formed on the outer wall of the reduction gear box.

When the shell locating ring abuts against the locating inner convex ring, the cutting assembly is located at the limit position of the inner side of the cover body, the axis of the gear input shaft coincides with the axis of the linkage sleeve at the moment, the sliding button is moved, the linkage sleeve and the gear input shaft are mutually inserted, and the inner container can drive the cutter barrel to rotate.

Stirring shovel subassembly is including stirring the casing, rotates to be connected stirring face gear 44 that can be connected with the swivel becket transmission in the stirring casing rotates to be connected in the stirring casing with stirring driving part 46 that the transmission of stirring face gear is connected, and detachable connects the stirring driving part lower extreme is used for stirring the interior edible material of inner bag stirring shovel.

The stirring shell comprises an upper stirring shell 42 and a lower stirring bottom plate 47 fixedly connected to the lower end of the upper stirring shell.

And a second linkage sleeve through hole 421 for the linkage sleeve to pass through is formed at one end of the stirring upper shell, which is close to the linkage sleeve.

When the stirring shovel component is installed in the component installation groove and the sliding button moves to the limit position close to the center of the cover body, the stirring end face gear is connected with the linkage sleeve in an inserting mode, so that the linkage sleeve can drive the stirring end face gear to rotate.

The upper end of the stirring lower base plate is provided with a stirring end face gear positioning seat 472 which is rotationally connected with the stirring end face gear.

The upper end of the stirring lower bottom plate is rotatably connected with a first transmission gear 451 in meshing transmission connection with the stirring end face gear; the upper end of the stirring lower bottom plate is rotatably connected with a second transmission gear 452 which drives the stirring shovel driving part to rotate; the first transmission gear and the second transmission gear are in meshing transmission connection through a plurality of gears or in transmission connection through a transmission belt.

The upper part of the driving part of the stirring shovel is provided with a stirring driving gear 461 in meshing transmission connection with the second transmission gear; the lower part of the driving part of the stirring shovel is a stirring shovel connector 462 which extends to the lower part of the stirring lower bottom plate and can be connected with the stirring shovel.

The stirring lower bottom plate is provided with a driving part positioning hole 473 for the stirring shovel connector to pass through; and a driving part sealing table connected with the driving part positioning hole in a sealing and rotating manner is formed between the stirring driving gear and the stirring shovel connector.

The outer side of the pan body is rotatably connected with a pan body bracket 13 which can enable the pan body to generate an inclination angle.

A bracket rotating groove 12 is formed in the middle of the two sides of the pot body; one side of the pot body bracket close to the pot body is formed with a pot body connecting part 131 which is rotatably inserted with the bracket rotating groove.

The inner wall of the support rotating groove is uniformly and fixedly connected with support limiting bulges 121 along the circumferential direction; the support limiting bulge is made of rubber materials; a limit groove 1311 matched with the limit protrusion of the bracket is formed on the outer wall of the pot body connecting part along the circumferential direction; under the condition of no external force action, the support limiting bulge is positioned in the limiting groove, so that the pot body cannot rotate relative to the pot body support; when a user manually rotates the pot body, the limiting protrusion of the bracket and the limiting groove move relatively, and the included angle between the pot body and the horizontal plane is further changed.

Each stirring shovel comprises a stirring positioning part detachably connected with the stirring shovel connector and a stirring part formed at the lower end of the stirring positioning part; stirring location portion links together through interference fit's mode detachably between and the stirring shovel connector.

The stirring blade can be specifically divided into a plane stirring blade 48 and an inclined stirring blade 49.

The stirring part of the inclined stirring shovel is in an Jiong shape and comprises a horizontal rod which is horizontally arranged and close to the stirring positioning part, and first stirring rods which are vertically arranged and formed at two ends of the horizontal rod; each first stirring rod is close to the inner wall of the inner container.

When pot body slope sets up, will incline the stirring shovel and install on stirring shovel drive division, along with the rotation of inner bag, edible material in the inner bag will gather in the handing-over department of the inner wall of inner bag and interior bottom, near the inside minimum of inner bag, will slide the button and remove to the extreme position that is close to the lid center this moment, and inner bag drive slope stirring shovel rotates for first puddler can disperse the edible material of gathering together, in order to realize eating the upset of material, makes edible material be heated evenly.

The stirring part of the planar stirring shovel comprises a vertically arranged vertical rod formed at the lower end of the positioning part of the stirring shovel and a horizontally arranged second stirring rod formed at the lower end of the vertical rod; the second stirring rod is close to the inner bottom of the inner container.

When the axis of the pot body is vertically arranged, the plane stirring shovel is arranged on the driving part of the stirring shovel, and at the moment, the food material is flatly spread at the inner bottom of the inner container.

When the axis of the pot body is vertically arranged and the sliding button moves to the limit position close to the center of the cover body, the inner container drives the plane stirring shovel to rotate, and the rotating direction of the inner container is opposite to that of the plane stirring shovel, so that the stirring speed of the food material is the sum of the rotating speed of the inner container and the rotating speed of the plane stirring shovel, and the stirring speed at the moment is the first stirring speed.

When the axis of the pot body is vertically arranged and the sliding button moves to the limit position far away from the center of the cover body, the inner container cannot drive the plane stirring shovel to rotate, the inner container rotates at the moment, the plane stirring shovel does not rotate, the stirring speed of the food material is the inner container rotating speed, and the stirring speed at the moment is the second stirring speed.

When the inner container rotates at the same rotating speed, the first stirring speed is higher than the second stirring speed; through the position of control slide button, whether control plane stirring shovel rotates, and then changes the stirring speed to the required different stirring speed of different types of edible material article or the required different stirring speed of different types of edible material article in different time of adaptation same type.

When the stirring lower bottom plate is abutted against the positioning inner convex ring, the stirring shovel component moves to the limit position in the component mounting groove, and at the moment, the axis of the linkage sleeve coincides with that of the stirring end face gear.

The stirring shovel component also comprises a stirring insertion part 43 which is connected in the stirring shell in a sliding manner and can be fixedly inserted into the cover body, and a driven pressing part 41 which is connected on the stirring shell in a longitudinal sliding manner and drives the stirring insertion part to move.

At least one stirring insertion part is arranged in the stirring shovel component.

A pressing part insertion hole 422 for the driven pressing part to pass through is formed at the upper end of the stirring upper shell; a pressing part clamping head 423 is formed at the top in the stirring upper shell and positioned on the periphery of the pressing part insertion hole; the pressing part outer wall lower part molding has with press the splenium spout 411 of splenium dop longitudinal sliding joint for the driven splenium can carry out longitudinal movement pressing the splenium spout within range, can not break away from the stirring and go up the casing.

The stirring insertion part comprises a stirring insertion rod 432 capable of being inserted into the cover body, a guide driving head 431 formed at one end, close to the center of the stirring shell, of the stirring insertion rod, and a reset spring 433 driving the stirring insertion part to reset.

The upper end of the stirring lower bottom plate is provided with a stirring insertion rod guide rail 471 which is in sliding insertion connection with the stirring insertion rod; the reset spring is arranged between the guide rail of the stirring insertion rod and the guide driving head.

And a stirring insertion rod through hole 424 for the stirring insertion rod to pass through is formed in the side wall of the stirring upper shell.

A stirring shovel component positioning hole 3411 capable of being spliced with the stirring splicing rod is formed in the side wall of the component mounting groove.

Under the stirring subassembly initial condition, no exogenic action presses the portion on driven, and inside reset spring drive stirring peg graft pole was located the stirring upper housing, and driven pressing portion was located the top extreme position.

When the driven portion of pressing removes to stirring casing inside, the driven portion of pressing promotes the direction drive wall for the direction drive head removes to the stirring casing outside, and stirring peg graft pole is pegged graft each other with stirring shovel subassembly locating hole, and then makes stirring peg graft pole and lid peg graft fixedly.

A handle assembly 5 is detachably connected to the cover body.

The handle assembly includes a handle housing, a handle positioning bracket 54 slidably coupled within the handle housing for relatively securing the handle assembly to the cover, an eccentric 53 for driving the handle positioning bracket to move, and a handle 51 rotatably coupled to an upper end of the handle housing for driving the eccentric to rotate.

When the stirring shovel assembly and the handle assembly are arranged on the cover body, the handle can drive the driven pressing part to move downwards;

the handle shell is made of transparent materials, so that a user can observe the condition inside the inner container conveniently.

A handle assembly mounting groove 342 for mounting a handle assembly is formed at the upper end of the upper cover body; a second mounting opening 334 corresponding to the mounting groove of the handle assembly is formed on the central positioning frame.

A handle shell positioning table 3421 is formed on the inner wall of the handle component mounting groove; when the lower end surface of the handle shell is abutted against the upper end surface of the handle positioning table, the handle assembly is positioned at the limit position of the inner side of the cover body.

The handle housing includes an upper handle housing 52 and a lower handle housing 56 fixedly attached to a lower end of the upper handle housing.

Positioning frame guide grooves 543 are formed in two sides of the lower end of the handle positioning frame; and a positioning frame guide rail 562 which is respectively connected with the positioning frame guide groove in a sliding manner is formed at the bottom in the lower handle shell, so that the handle positioning frame can only move along the positioning frame guide rail.

A cover body positioning rod 541 capable of being fixedly inserted with the upper cover body and a stirring positioning rod 544 capable of being fixedly inserted with the stirring upper shell body are formed at one end, away from the handle, of the handle positioning frame.

A handle assembly positioning hole 3422 capable of being inserted into the cover body positioning rod is formed in the side wall of the handle assembly mounting groove; and a handle assembly insertion hole 425 capable of being inserted into the stirring positioning rod is formed in one end, close to the handle assembly, of the stirring upper shell.

And a positioning rod through hole 561 for the cover body positioning rod and the stirring positioning rod to penetrate is formed in the side wall of the lower shell of the handle.

An eccentric wheel driving ring 55 is rotatably connected to the periphery of the eccentric wheel; a positioning frame connecting plate 551 which is parallel to the handle positioning frame is formed on the outer wall of the eccentric wheel driving ring; a positioning frame driving groove 542 is formed in the handle positioning frame; a positioning frame driving head 5511 clamped with the positioning frame driving groove is formed on the positioning frame connecting plate; the locating rack driving head can slide along the locating rack driving groove.

When the eccentric wheel rotates, the eccentric wheel drives the eccentric wheel driving ring to move, so that the handle positioning frame moves along the positioning frame guide rail.

The handle includes the handle pivot 511 of rotation connection in casing upper end on the handle, the shaping is in handle connecting portion 513 that the edge handle pivot radius direction of handle pivot upper end set up to and the shaping is located the handle drive axle 512 of keeping away from handle pivot one side at handle connecting portion lower extreme.

An eccentric wheel driving shaft 5111 fixedly connected with the eccentric wheel is formed at the lower end of the handle rotating shaft.

The driven pressing portion has an arc-shaped dome portion 413 formed at an upper end thereof.

When the handle is rotated, the handle driving shaft can be rotated to the upper end of the follower pressing portion 41, and the handle driving shaft is brought into contact with the dome portion, thereby causing the follower pressing portion to move downward.

The lower end of the handle driving shaft is formed with a pressing part positioning rod 5121, and the upper end of the dome part is formed with a handle insertion hole 412 capable of being inserted with the pressing part positioning rod.

Under the initial state of the handle assembly, the cover body positioning rod and the stirring positioning rod are positioned inside the handle shell.

The handle assembly and the stirring shovel assembly are placed on the cover body, and the handle is rotated, so that the handle driving shaft rotates towards the direction of the driven pressing part.

When the handle drive shaft is about to contact with the driven pressing part, the cover body positioning rod and the stirring positioning rod are inserted into the cover body and the stirring upper shell, so that the handle drive shaft can not move towards the outer side of the cover body due to the reaction force generated by the driven pressing part in the process of pushing the driven pressing part to move towards the inner side of the stirring upper shell.

When the handle rotates to the handle drive shaft and is located directly over the driven portion of pressing, press the splenium locating lever to insert in the handle jack for the handle can not continue to rotate, and the eccentric wheel drives the handle locating rack and removes to the lid locating lever and inserts in the handle locating lever, stirs in the locating lever inserts in the handle subassembly jack, stirs simultaneously in the shovel subassembly stirring grafting portion inserts in the stirring shovel subassembly locating lever, and then makes stirring shovel subassembly, handle subassembly fix on the lid.

When needs take off stirring shovel subassembly or handle subassembly, promote the calotte portion downwards for pressing the splenium locating lever and the separation of handle jack, and rotating the handle, making the handle rotate to initial condition, stirring shovel subassembly also resumes to initial condition under reset spring's effect, and then will stir shovel subassembly or handle subassembly and take off.

The outer wall of the pot body is provided with a control panel 11, and the motor and the electromagnetic heater are electrically connected with the control panel.

When a user uses the food cutting device to cut food, the cutting assembly is installed in the assembly installation groove, the sliding button is moved, the linkage sleeve and the gear box input shaft are connected in an inserting mode, the control panel controls the motor to work, the inner container is made to rotate, the rotating ring rotates through transmission of magnetic force, the rotating ring passes through the transmission end face gear, the linkage sleeve and the reduction gear box, the knife cylinder is driven to rotate, the user puts required food into the food material throwing pipe, the knife cylinder cuts the food material, and the cut food material falls into the inner container.

The principle and the specific circuit structure of the control panel control motor and the electromagnetic heater are all easy to realize in the prior art, and are not described in detail herein.

Claims

1. An automatic vegetable-cutting and frying integrated cooker comprises a cooker body, an inner container rotationally connected in the cooker body, a motor positioned in the cooker body and used for driving the inner container to rotate, and an electromagnetic heater capable of heating the inner container; the method is characterized in that:

the pot cover component is detachably arranged on the pot body; the pot cover assembly comprises a cover body and a rotating ring which is rotatably connected in the cover body and driven by the inner container;

the pot cover assembly is detachably connected with a cutting assembly driven by a rotating ring and used for cutting food materials, or the pot cover assembly is detachably connected with a stirring shovel assembly;

the stirring shovel component comprises a stirring shovel which is driven by a rotating ring and used for stirring food materials in the liner;

a switch assembly for driving the cutting assembly and the stirring shovel assembly to work is arranged on the cover body;

the switch assembly comprises a transmission end face gear, a linkage sleeve and a sliding button, wherein the transmission end face gear is in transmission connection with the rotating ring, the axis of the transmission end face gear is perpendicular to the axis of the rotating ring, the linkage sleeve is axially and slidably connected with the transmission end face gear, can drive the cutting assembly and the stirring shovel assembly to work synchronously in the circumferential direction, and is slidably connected to the upper end of the cover body;

when the sliding button moves to the limit position far away from the center of the cover body, the linkage sleeve cannot drive the cutting assembly and the stirring shovel assembly to work;

2. The vegetable-cutting and cooking integrated automatic cooker as claimed in claim 1, characterized in that: the cutting assembly comprises a cutting shell, a knife cylinder which is rotatably connected in the cutting shell and is used for cutting food materials, and a speed change gear box which is fixedly connected to the outer side of the cutting shell and is driven by a rotating ring to drive the knife cylinder to rotate;

3. The vegetable-cutting and cooking integrated automatic cooker as claimed in claim 1, characterized in that: the upper end of the inner container is uniformly and fixedly connected with a plurality of driving iron blocks along the circumferential direction; the lower end of the rotating ring is fixedly connected with a plurality of adsorption magnets which are tightly attracted with the driving iron blocks so as to drive the rotating ring to rotate.

4. The vegetable-cutting and cooking integrated automatic cooker as claimed in claim 1, characterized in that: the stirring shovel component comprises a stirring shell, a stirring end face gear which is rotatably connected in the stirring shell and can be in transmission connection with the rotating ring, a stirring driving part which is rotatably connected in the stirring shell and is in transmission connection with the stirring end face gear, and a stirring shovel which is detachably connected to the lower end of the stirring driving part and is used for stirring food materials in the inner container;

5. The vegetable-cutting and cooking integrated automatic cooker as claimed in claim 4, characterized in that: the stirring shovel component comprises a stirring insertion part which is connected in the stirring shell in a sliding manner and can be fixedly inserted into the cover body, and a driven pressing part which is connected to the stirring shell in a longitudinal sliding manner and drives the stirring insertion part to move;

the stirring insertion part comprises a stirring insertion rod which can be inserted into the cover body, a guide driving head which is formed at one end of the stirring insertion rod close to the center of the stirring shell, and a reset spring which drives the stirring insertion part to reset;

the upper end of the guide driving head is provided with a guide driving wall which is obliquely arranged and is abutted against the lower end of the driven pressing part;

when the driven pressing part moves towards the inner part of the stirring shell, the driven pressing part pushes the guide driving wall, so that the guide driving head moves towards the outer side of the stirring shell, and the stirring insertion rod is inserted and fixed with the cover body;

6. The vegetable-cutting and cooking integrated automatic cooker as claimed in claim 5, characterized in that: the cover body is detachably connected with a handle assembly;

the handle assembly comprises a handle shell, a handle positioning frame, an eccentric wheel and a handle, wherein the handle positioning frame is connected in the handle shell in a sliding mode and used for fixing the handle assembly and the cover body relatively;

the handle housing is made of a transparent material.

7. The vegetable-cutting and cooking integrated automatic cooker as claimed in claim 1, characterized in that: the outer side of the pot body is rotatably connected with a pot body bracket which can enable the pot body to generate an inclination angle.