CN204232843U - Fully automatic cooking machine - Google Patents

Abstract

The utility model discloses a kind of fully automatic cooking machine, comprising: pot body, interior pot, heater, the pot cover being used to open or close interior pot, the assembly that stir-fries, weigh pot assembly and control device in the hand, interior pot is located in pot body.The assembly that stir-fries is located on pot body or pot cover, and extending at least partially in interior pot of the assembly that stir-fries stir-fries with the food materials in internal pot.Weigh a pot assembly in the hand to be located on pot body, weigh pot assembly in the hand and coordinate to drive interior pot in pot body, weigh pot in the hand with the outer surface of interior pot and move.Control device and heater, stir-fry assembly with weigh a pot assembly in the hand and be connected.According to fully automatic cooking machine of the present utility model, can avoid being heated inequality due to the food materials in interior pot, dish can be made within as far as possible short time by oil be heated evenly, make the oil smoke in interior pot can not be dispersed in air in a large number in cooking process, be conducive to health.

Description

Fully automatic cooking machine

Technical field

The utility model relates to appliance field, especially relates to a kind of fully automatic cooking machine.

Background technology

Existing cooking machine needs when cooking manually to stir-fry, if to cause dish to heat uneven in the meeting not in place that stir-fries, as not yet done in dish, burn, the phenomenon such as nutrition leak, thus affect dish taste and quality.Existing cooking machine utilizes the bottom of a pan METAL HEATING PROCESS, not only wastes a large amount of electric energy, and firing rate is slow, and dish heating is uneven.In addition, have a large amount of oil smoke and spread in kitchen space during existing cooking machine cooking, a large amount of oil smoke of long-term suction can affect health.

Utility model content

The utility model is intended to solve one of technical problem in correlation technique at least to a certain extent.For this reason, the utility model proposes a kind of fully automatic cooking machine, the food materials in interior pot can be avoided to be heated inequality, and the oil smoke in interior pot can not be dispersed in air in a large number in cooking process.

According to fully automatic cooking machine of the present utility model, comprising: pot body; Interior pot, described interior pot is located in described pot body; For the heater heated the food materials in described interior pot; Be used to open or close the pot cover of described interior pot; Stir-fry assembly, described in the assembly that stir-fries be located on described pot body or described pot cover, described in stir-fry the extending at least partially in described interior pot to stir-fry to the food materials in described interior pot of assembly; Weigh a pot assembly in the hand, described in weigh a pot assembly in the hand and be located on described pot body, described in weigh pot assembly in the hand and coordinate to drive described interior pot to weigh pot in the hand in described pot body with the outer surface of described interior pot and move; Control device, described control device and described heater, described in stir-fry assembly with described weigh in the hand pot assembly be connected for control described heater, described in stir-fry assembly and described duty of weighing pot assembly in the hand.

According to fully automatic cooking machine of the present utility model, by being provided with the assembly that stir-fries, the assembly that stir-fries can stir-fry by the food materials internally in pot, thus can avoid due to the food materials in interior pot be heated inequality and cause dish not yet done, burn, the phenomenon such as nutrition leak, mouthfeel and the quality of dish can be ensured.Weighing a pot assembly in the hand by being provided with simultaneously, weighing pot assembly in the hand and can control interior pot in pot body, weigh a pot cooking action in the hand, dish can be made by oil be heated evenly within short time as far as possible, thus mouthfeel and the quality of dish can be ensured further.Again owing to being provided with pot cover, boil in process at food materials, pot cover can be covered to form the cooking space of sealing in interior pot on interior pot, thus make the oil smoke in interior pot can not be dispersed in air in a large number in cooking process, be conducive to health.

In embodiments more of the present utility model, described in the assembly that stir-fries comprise: the first drive motors, described first drive motors is located on described pot cover, and described first drive motors is connected with described control device; Rotating shaft, described rotating shaft is connected with described first drive motors and drives the axial rotation around described rotating shaft by described first drive motors, and the lower end of described rotating shaft is stretched in described interior pot; With the part that stir-fries, described in the part that stir-fries be located at the lower end of described rotating shaft, described in stir-fry part and described rotating shaft coaxial rotation to stir-fry to the food materials in described interior pot.

In further embodiment of the present utility model, the described assembly that stir-fries also comprises power transmission shaft and the first decelerator, described first decelerator is connected with described first drive motors, described first decelerator is connected with described power transmission shaft by the first driving shaft, and described rotating shaft is removably connected with described power transmission shaft.

Particularly, the outer peripheral face of described first driving shaft is provided with along the radially outward outstanding of described first driving shaft and along the axially extended projection of described first driving shaft, the upper end of described power transmission shaft is set on described first driving shaft, the internal face of described power transmission shaft is provided with the groove corresponding with described raised position, and described projection is plugged in described groove.

In specific embodiment of the utility model, the lower end of described power transmission shaft is provided with the first Access Division, and the upper end of described rotating shaft is provided with the second Access Division, and described first Access Division is removably connected with described second Access Division.

More specifically, the open at its lower end of described power transmission shaft forms installation cavity, described first Access Division is formed as the inserting groove of the both sides being located at described power transmission shaft, the upper end of described rotating shaft is plugged in described installation cavity, described second Access Division is formed as the clip-connecting rod of the both sides being located at described rotating shaft, and described clip-connecting rod is removably plugged in described inserting groove.

In further embodiment of the present utility model, described in the assembly that stir-fries also comprise elastic component, described elastic component is located between described power transmission shaft and described rotating shaft and the two ends of described elastic component and only supports the roof of described installation cavity and the roof of described rotating shaft respectively.

According to embodiments more of the present utility model, described heater is the first solenoid, is provided with the second solenoid in described pot cover, described second solenoid and described first drive motors dedicated radio link.

Alternatively, described pot cover is connected with described pot body pivotly by connecting axle.

According to embodiments more of the present utility model, fully automatic cooking machine also comprises liner, described liner be connected with described pot cover and and limit a room between described pot cover, described first drive motors be located at described between indoor, described rotating shaft extend in described interior pot.

Further, fully automatic cooking machine also comprises: seal, described seal be located between described liner and described pot cover with seal described between room.

According to embodiments more of the present utility model, described in weigh a pot assembly in the hand and comprise: the second drive motors, described second drive motors is located on described pot body, and described second drive motors is connected with described control device; Eccentric wheel, described eccentric wheel is connected with eccentric rotary with described second drive motors; Fixed axis, the two ends of described fixed axis are separately fixed on described eccentric wheel and described interior pot.

Further, described in weigh a pot assembly in the hand and also comprise limit assembly, described limit assembly is connected with described eccentric wheel to limit described eccentric rotational angle.

Particularly, described limit assembly comprises: the first locating part, described first locating part and described second drive motors geo-stationary; Second locating part, one end of described second locating part is located on described eccentric wheel rotationally, and described in when described eccentric wheel rotates, the second locating part and described first locating part are slidably matched.

According to other embodiments of the present utility model, described in weigh a pot assembly in the hand and comprise: pedestal, described pedestal is located on described pot body; Second drive motors, described second drive motors is located on described pedestal, and described second drive motors is connected with described control device; First, described first to be connected with described second drive motors and to rotate to be driven by described second drive motors; Second, one end of described second is connected with described first, and described second is fixed on described interior pot; 3rd, described 3rd is connected with the other end of described second, and described 3rd rotatably or is movably located on described pedestal.

Alternatively, described pedestal, described first, described second and described 3rd formation crank and rocker mechanism.

Alternatively, described pedestal, described first, described second and described 3rd formation slider-crank mechanism.

In embodiments more of the present utility model, described heater is heater coil, and described heater coil is located on the internal perisporium of described pot body, and described heater coil is connected with described control device.

According to embodiments more of the present utility model, described control device comprises: man-machine interaction unit, described man-machine interaction unit is located on the periphery wall of described pot body, described man-machine interaction unit and described heater, described in the assembly that stir-fries be connected with a described pot assembly of weighing in the hand, described man-machine interaction unit is provided with operating key.

According to embodiments more of the present utility model, the periphery wall of described interior pot is provided with mobile post, and the internal perisporium of described pot body is provided with shifting chute, and described mobile post is located in described shifting chute movably.

Accompanying drawing explanation

Fig. 1 is the decomposing schematic representation of the fully automatic cooking machine according to the utility model embodiment;

Fig. 2 is the decomposing schematic representation of another angle of the fully automatic cooking machine shown in Fig. 1;

Fig. 3 be according to the fully automatic cooking machine of the utility model embodiment assembling schematic diagram, wherein, pot is in and weighs a pot state in the hand;

The assembling schematic diagram that Fig. 4 is another angle of the fully automatic cooking machine shown in Fig. 3, wherein, pot is in and weighs a pot state in the hand;

Fig. 5 is the assembling schematic diagram of the fully automatic cooking machine according to the utility model embodiment, wherein between pot cover and pot body without annexation;

Fig. 6 is the assembling schematic diagram of the fully automatic cooking machine according to another embodiment of the utility model, and wherein pot cover is located on pot body rotationally;

Fig. 7 is the decomposing schematic representation of the assembly that stir-fries according to the utility model embodiment;

Fig. 8 is the decomposing schematic representation of another angle of the assembly that stir-fries shown in Fig. 7;

Fig. 9 is the schematic diagram of the assembly that stir-fries according to the utility model embodiment, and the part that wherein stir-fries is formed as column;

Figure 10 is the schematic diagram of the assembly that stir-fries according to another embodiment of the utility model, and the part that wherein stir-fries is formed as the arcuate shape bent;

Figure 11 be according to the utility model embodiment weigh pot assembly and interior pot in the hand coordinate schematic diagram, wherein, contiguous second limit upturned position of pot is arranged;

Figure 12 for shown in Figure 11 weigh another angle of pot assembly and interior pot in the hand coordinate schematic diagram;

Figure 13 is the profile in A-A direction in Figure 12;

Figure 14 be according to the utility model embodiment weigh pot assembly and interior pot in the hand coordinate schematic diagram, wherein, pot is positioned at the first limit upturned position;

Figure 15 for shown in Figure 14 weigh another angle of pot assembly and interior pot in the hand coordinate schematic diagram;

Figure 16 is the profile in B-B direction in Figure 15;

Figure 17 be according to another embodiment of the utility model weigh pot assembly and interior pot in the hand coordinate schematic diagram;

Figure 18 for shown in Figure 17 weigh another angle of pot assembly and interior pot in the hand coordinate schematic diagram;

Figure 19 is the profile weighed in the hand when pot assembly and interior pot coordinate shown in Figure 17, and wherein first is formed as shaft-like;

Figure 20 is the profile weighed in the hand when pot assembly and interior pot coordinate according to another embodiment of the utility model, and wherein first is formed as colyliform;

Figure 21 is the control procedure schematic diagram of the fully automatic cooking machine according to the utility model embodiment.

Reference numeral:

Fully automatic cooking machine 100,

Pot body 1, main handle 10, secondary handle 11, cannelure 12,

Interior pot 2, mobile post 20,

Heater 3,

Pot cover 4, liner 5, connecting axle 50, locating dowel 51,

Stir-fry assembly 6, first drive motors 60, first driving shaft 601, protruding 602, rotating shaft 61, clip-connecting rod 611, the part 62 that stir-fries, power transmission shaft 63, installation cavity 630, inserting groove 631, first cell body 6311, second cell body 6312, the 3rd cell body 6313, elastic component 64, first decelerator 65, bearing 66,

Weigh in the hand pot assembly 7, second drive motors 70, eccentric wheel 71, fixed axis 72, limit assembly 73, first locating part 730, second locating part 731, chute 7311,7313, first 74, second the 75, the 3rd 76, first end 7312, second end, pedestal 77, base plate 770, first side plate 771, second side plate 772, second decelerator 78, fixed support 79, connection bracket 750,

Control device 8, man-machine interaction unit 81, governor circuit device 82.

Detailed description of the invention

Be described below in detail embodiment of the present utility model, the example of described embodiment is shown in the drawings.Be exemplary below by the embodiment be described with reference to the drawings, be intended to for explaining the utility model, and can not be interpreted as restriction of the present utility model.

In description of the present utility model, it will be appreciated that, term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", " on ", D score, " front ", " afterwards ", " left side ", " right side ", " vertically ", " level ", " top ", " end " " interior ", " outward ", " clockwise ", " counterclockwise ", " axis ", " radial direction ", orientation or the position relationship of the instruction such as " circumference " are based on orientation shown in the drawings or position relationship, only the utility model and simplified characterization for convenience of description, instead of indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.

In addition, term " first ", " second " only for describing object, and can not be interpreted as instruction or hint relative importance or imply the quantity indicating indicated technical characteristic.Thus, be limited with " first ", the feature of " second " can express or impliedly comprise at least one this feature.In description of the present utility model, the implication of " multiple " is at least two, such as two, three etc., unless otherwise expressly limited specifically.

In the utility model, unless otherwise clearly defined and limited, the term such as term " installation ", " being connected ", " connection ", " fixing " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or integral; Can be mechanical connection, also can be electrical connection or each other can communication; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals or the interaction relationship of two elements, unless otherwise clear and definite restriction.For the ordinary skill in the art, the concrete meaning of above-mentioned term in the utility model can be understood as the case may be.

Describe the fully automatic cooking machine 100 according to the utility model embodiment in detail below with reference to Fig. 1-Figure 21, this fully automatic cooking machine 100 is for boiling into dish by the food materials in interior pot 2.

As shown in figs 1 to 6, according to the fully automatic cooking machine 100 of the utility model embodiment, comprising: pot body 1, interior pot 2, heater 3, pot cover 4, the assembly 6 that stir-fries, weigh pot assembly 7 and control device 8 in the hand.In concrete example of the present utility model, the side of pot body 1 is provided with main handle 10, and opposite side is provided with secondary handle 11.

Wherein, interior pot 2 is for holding food materials, and interior pot 2 is located in pot body 1.The heater 3 heated is carried out for the food materials in internal pot 2.Pot cover 4 is used to open or close interior pot 2.Particularly, heater 3 can be connected on pot body 1, pot cover 4 or interior pot 2, as long as heater 3 can carry out heating by the food materials internally in pot 2.

The assembly 6 that stir-fries is located on pot body 1 or pot cover 4, and extending at least partially in interior pot 2 of the assembly 6 that stir-fries stir-fries with the food materials in internal pot 2.Weigh pot assembly 7 in the hand to be located on pot body 1, weigh pot assembly 7 in the hand and coordinate to drive interior pot 2 in pot body 1, weigh pot in the hand with the outer surface of interior pot 2 and move, thus a pot action can be weighed in the hand due to interior pot 2, food materials can be made to try one's best in the short time by oil and be heated evenly.

Control device 8 and heater 3, stir-fry assembly 6 with weigh that pot assembly 7 is connected for controlling heater 3, stir-fry assembly 6 and weigh the duty of pot assembly 7 in the hand in the hand.That is, control device 8 is connected with heater 3 and may be used for controlling opening or closing of heater 3, control device 8 is connected with the assembly 6 that stir-fries and may be used for controlling stir-frying the opening or closing of assembly 6, control device 8 with weigh pot assembly 7 in the hand and be connected and may be used for controlling to weigh opening or closing of pot assembly 7 in the hand.

Need to be described, control device 8 can also control heating intensity and the heat time of heater 3, with timed unit 8 can also control to stir-fry assembly 6 the dynamics that stir-fries and weigh pot assembly 7 in the hand weigh a pot dynamics in the hand, with the different demands of satisfied different dish.

Be understandable that, the processing method of multiple menu can be preset in control device 8, control device 8 by controlling heater 3, stir-fry assembly 6 and weigh the different operating state of pot assembly 7 in the hand, to process different dish.

Wherein heater 3, stir-fry assembly 6 and to weigh in the hand between pot assembly 7 can be interlock, it is appreciated of course that, heater 3, stir-fry assembly 6 and to weigh in the hand between pot assembly 7 can also be work alone, such as the opening and closing of heater 3 are by stir-frying assembly 6 and weigh the impact of opening and closing of pot assembly 7 in the hand, and control device 8 can control that heater 3 is opened, stir-fry assembly 6 and weigh pot assembly 7 in the hand and close.

When using fully automatic cooking machine 100 dish-cooking, food materials are put in interior pot 2, control device 8 is opened heat with the food materials in internal pot 2 for being controlled heater 3, control device 8 assembly 6 that can also control to stir-fry is opened and is carried out stir-frying to avoid food heating uneven with the food materials in internal pot 2, and control device 8 can also control to weigh in the hand pot assembly 7 and open to drive interior pot 2 movable and weigh a pot cooking action in the hand in pot body 1.Food materials in internal pot 2 carry out in the process boiled, and pot cover 4 can be covered on interior pot 2, thus form the cooking space of sealing in interior pot 2.

According to the fully automatic cooking machine 100 of the utility model embodiment, by being provided with the assembly 6 that stir-fries, the assembly 6 that stir-fries can stir-fry by the food materials internally in pot 2, thus can avoid due to the food materials in interior pot 2 be heated inequality and cause dish not yet done, burn, the phenomenon such as nutrition leak, mouthfeel and the quality of dish can be ensured.Weighing pot assembly 7 in the hand by being provided with simultaneously, weighing pot assembly 7 in the hand and can control interior pot 2 in pot body 1, weigh a pot cooking action in the hand, dish can be made by oil be heated evenly within short time as far as possible, thus mouthfeel and the quality of dish can be ensured further.Again owing to being provided with pot cover 4, boil in process at food materials, pot cover 4 can be covered to form the cooking space of sealing in interior pot 2 on interior pot 2, thus make the oil smoke in interior pot 2 can not be dispersed in air in a large number in cooking process, be conducive to health.

In the example of Fig. 3-Fig. 5, pot cover 4 can be independently parts, does not have annexation before pot cover 4 and pot body 1.In the example of fig. 6, pot cover 4 is connected with pot body 1 pivotly by connecting axle 50.It is appreciated of course that the assembling mode of pot cover 4 is not limited thereto, such as pot cover 4 can be removably be located on pot body 1 to be used to open or close interior pot 2.

In specific embodiments more of the present utility model, the periphery wall of interior pot 2 is provided with mobile post 20, and the internal perisporium of pot body 1 is provided with shifting chute, and mobile post 20 is located in shifting chute movably.Thus by the mating reaction of mobile post 20 and shifting chute, the effect supporting interior pot 2 can be realized.

According to concrete examples more of the present utility model, heater 3 is heater coil, and heater coil is located on the internal perisporium of pot body 1, and that is, heater coil is looped around on the outer wall of interior pot 2.Heater coil is connected with control device 8.Thus make the structure of fully automatic cooking machine 100 simple.More specifically, as depicted in figs. 1 and 2, control device 8 comprises governor circuit device 82, governor circuit device 82 is connected with heater coil, the elements such as bridge heap are provided with in governor circuit device 82, governor circuit device 82 passes into alternating current in heater coil, just an alternating magnetic field is produced around heater coil, the magnetic line of force major part of alternating magnetic field is by interior pot 2, a large amount of eddy current is produced in the bottom of a pan of interior pot 2, thus the heat produced needed for culinary art, thus, fully automatic cooking machine 100 of the present utility model can use as electromagnetic oven.

In concrete example of the present utility model, as depicted in figs. 1 and 2, governor circuit device 82 is formed as annular, and the bottom of the periphery wall of pot body 1 is provided with cannelure 12, and governor circuit device 82 is located in cannelure 12.

It is appreciated of course that when heater 3 is heater coil, heater coil can also be the heating element heaters such as heater strip, control device 8 controls heater strip heating.

As shown in Fig. 1, Fig. 3 and Fig. 5, according to embodiments more of the present utility model, control device 8 comprises: man-machine interaction unit 81, wherein, man-machine interaction unit 81 is located on the periphery wall of pot body 1, man-machine interaction unit 81 and heater 3, stir-fry assembly 6 with weigh pot assembly 7 in the hand and be connected, man-machine interaction unit 81 is provided with operating key.That is, heater 3, the assembly 6 that stir-fries, weigh pot assembly 7 in the hand and be connected with man-machine interaction unit 81 communication, man-machine interaction unit 81 is provided with operating key, and user can control heater 3 by the operating key triggered on man-machine interaction unit 81, stir-fry assembly 6 and weigh the work of pot assembly 7 in the hand.Particularly, multiple menu can be prestored in man-machine interaction unit 81, the built-in different menu of man-machine interaction unit 81 by the corresponding Single-chip Controlling electric power duration and degree of heating, heat time, or according to the specific demand of different crowds, can also increase and decrease electric firepower and heat time voluntarily.Thus the hommization degree of fully automatic cooking machine 100 can be improved.

The assembly 6 that stir-fries according to the utility model embodiment is described in detail below with reference to Fig. 1, Fig. 2, Fig. 7-Figure 10.

According to the assembly 6 that stir-fries of the utility model embodiment, comprising: the first drive motors 60, rotating shaft 61 and the part 62 that stir-fries, wherein, the first drive motors 60 is located on pot cover 4, and the first drive motors 60 is connected with control device 8.Rotating shaft 61 is connected with the first drive motors 60 and is driven the axial rotation of around the shaft 61 by the first drive motors 60, and the lower end of rotating shaft 61 is stretched in interior pot 2.The part 62 that stir-fries is located at the lower end of rotating shaft 61, and the part 62 that stir-fries stir-fries with the food materials in internal pot 2 with rotating shaft 61 coaxial rotation.That is, the upper end of rotating shaft 61 is connected with the first drive motors 60, and the lower end of rotating shaft 61 is provided with the part 62 that stir-fries, and the first drive motors 60 drive shaft 61 is rotated, and drives the part 62 that stir-fries to rotate, thus plays the effect of the food materials that stir-fry.Thus, this assembly 6 structure that stir-fries is simple, easy to assembly, and security is high.Wherein, the part 62 that stir-fries can be arranged on the periphery wall of rotating shaft 61, or the part 62 that stir-fries also can partly be located in rotating shaft 62.

Further, the assembly 6 that stir-fries also comprises power transmission shaft 63 and the first decelerator 65, first decelerator 65 is connected with the first drive motors 60, first decelerator 65 is connected with power transmission shaft 63 by the first driving shaft 601, that is, the input of the first decelerator 65 is connected with the first drive motors 60, and the output of the first decelerator 65 is connected with power transmission shaft 63.Wherein it should be noted that, first driving shaft 601 can be a part i.e. first driving shaft 601 of the first decelerator 65 self is the output of the first decelerator 65, and the first driving shaft 601 can also be connected to the connecting rod between the output of the first decelerator 65 and power transmission shaft 63.

Rotating shaft 61 is removably connected with power transmission shaft 63.Thus be removably connected with power transmission shaft 63 due to rotating shaft 61, the part 62 that stir-fries in rotating shaft 61 can need to be designed to various structures according to difference culinary art, and changed by rotating shaft 61 and removably connecting of power transmission shaft 63, thus the assembly 6 that makes to stir-fry can meet different culinary art requirement, and rotating shaft 61 can disassemble from power transmission shaft 63, stir-fry part 62 after being used to complete, so that disassembly, cleaning, can be user-friendly to.

Simultaneously by being provided with the first decelerator 65, the speed that stir-fries of the part 62 that stir-fries can be reduced, ensureing that food materials can fully be heated.The first decelerator 65 of suitable gearratio wherein can be selected according to the output speed of the first drive motors 60 and the required speed of stir-frying.

Wherein, the difference of the food materials that the shape stir-frying part 62 can be cooked required for fully automatic cooking machine 100 carry out reasonable adjusting, alternatively, as shown in Figure 9, according to an embodiment of the present utility model, the part 62 that stir-fries is formed as in-line column structure, the part 62 that stir-fries be located at rotating shaft 61 side and with the axes normal of rotating shaft 61.Further, the part 62 that stir-fries comprises two, and two parts 62 that stir-fry are located at the both sides of rotating shaft 61 respectively and coaxially arrange.

That is, as shown in Figure 9, rotating shaft 61 is formed as the column structure extended along the vertical direction, and the part 62 that stir-fries is formed as the column structure extended perpendicular to the axis direction of rotating shaft 61, two parts 62 that stir-fry are located at the both sides of rotating shaft 61 respectively, and two parts 62 that stir-fry are in rods arranged in horizontal line.Thus, this part 62 structure that stir-fries is simple, is ensureing, under the prerequisite that structure is attractive in appearance, to ensure that the effect that stir-fries to food materials.

As shown in Figure 10, in other detailed description of the invention of the present utility model, the part 62 that stir-fries is formed as strip laminated structure, and the part 62 that stir-fries is located at the side of rotating shaft 61 and the angle stir-fried between part 62 place plane and the axis of rotating shaft 61 is greater than or less than 90 °.In other words, the part 62 that stir-fries is not column structure, but be formed as not with the laminated structure of plane-parallel, the part 62 that stir-fries of laminated structure has larger area, when stir-frying, has larger contact area with food materials, thus can improve the effect that stir-fries.

Further, when the part 62 that stir-fries is formed as strip laminated structure, the part 62 that stir-fries is two, and two parts 62 that stir-fry are located at the relative both sides of rotating shaft 61 respectively.Preferably, each part 62 that stir-fries is formed as the arc lamellar body of bending along clockwise direction respectively.

In the example of Figure 10, the both sides of rotating shaft 61 are respectively equipped with the part 62 that stir-fries, and two parts 62 that stir-fry, along rotating shaft 61 Central Symmetry, can improve the contact area of stir-fry part 62 and food materials thus further.The part 62 that stir-fries is arranged to the arcuate structure of bending along clockwise direction, the part 62 that stir-fries of this structure is corresponding with the shape of interior pot 2, can not touch on the basis of interior pot 2 in guarantee rotation process, further can improve stir-fry part 62 and the contact area of food materials, improve the effect that stir-fries.

Be understandable that, can also be formed as fan-shaped according to the part 62 that stir-fries of the utility model embodiment or other may be used for the structure that stir-fries to food materials, be not described in detail here.

As shown in Figure 7 and Figure 8, in embodiments more of the present utility model, the outer peripheral face of the first driving shaft 601 is provided with along the radially outward outstanding of the first driving shaft 601 and along axially extended protruding 602 of the first driving shaft 601, the upper end of power transmission shaft 63 is set on the first driving shaft 601, the internal face of power transmission shaft 63 is provided with the groove corresponding with protruding 602 positions, and protruding 602 are plugged in groove.

Particularly, first driving shaft 601 is formed as column structure, protruding 602 are located in the outside wall surface of the first driving shaft 601, protruding 602 are formed as the axially extended cuboid along the first driving shaft 601 substantially, power transmission shaft 63 is provided with the groove corresponding with protruding 602 structures, protruding 602 are plugged in this groove, can play anti-skidding effect, thus the power that the first drive motors 60 is produced can flow to power transmission shaft 63 expeditiously.

Wherein, the demountable structure that the dismounting connected mode between rotating shaft 61 and power transmission shaft 63 can adopt those skilled in the art to commonly use, such as, according to an embodiment of the present utility model, the lower end of power transmission shaft 63 is removably connected by screw with the upper end of rotating shaft 61.Particularly, the lower end of power transmission shaft 63 can be set on the upper end of rotating shaft 61, and both are connected nested with one anotherly, and then by screw or be bolted to together.

In other detailed description of the invention of the present utility model, the lower end of power transmission shaft 63 is provided with the first Access Division, and the upper end of rotating shaft 61 is provided with the second Access Division, and the first Access Division is removably connected with the second Access Division.Particularly, the open at its lower end of power transmission shaft 63 forms installation cavity 630, first Access Division is formed as the inserting groove 631 of the both sides being located at power transmission shaft 63, the upper end of rotating shaft 61 is plugged in installation cavity 630, second Access Division is formed as the clip-connecting rod 611 of the both sides being located at rotating shaft 61, and clip-connecting rod 611 is removably plugged in inserting groove 631.

Further, as shown in Figure 7 and Figure 8, each inserting groove 631 comprises respectively: the first cell body 6311, second cell body 6312 and the 3rd cell body 6313.Particularly, the first cell body 6311 extends along the axis of power transmission shaft 63, the open at its lower end of the first cell body 6311.One end of second cell body 6312 and the upper end conducting of the first cell body 6311, the second cell body 6312 extends along the circumference of power transmission shaft 63.The upper end of the 3rd cell body 6313 and the other end conducting of the second cell body 6312, the 3rd cell body 6313 along power transmission shaft 63 axially to downward-extension, the 3rd cell body 6313 is less than the length of the first cell body 6311 along the length of the axis of power transmission shaft 63.

In other words, each inserting groove 631 is formed as U-shaped structure substantially, inserting groove 631 comprises two legs, i.e. the first cell body 6311 and the 3rd cell body 6313, the length of one of them leg is greater than the length of another leg, namely the length of the first cell body 6311 is greater than the length of the 3rd cell body 6313, the open at its lower end of the first cell body 6311, and clip-connecting rod 611 can insert in inserting groove 631 from the lower end of the first cell body 6311.

Particularly, when assembling, first the upper end of rotating shaft 61 is aimed at the installation cavity 630 of power transmission shaft 63 lower end, then the clip-connecting rod 611 in rotating shaft 61 is aimed at the lower ending opening of the first cell body 6311, then rotating shaft 61 promoted in installation cavity 630, clip-connecting rod 611 is along the upwards movable upper end to the first cell body 6311 always, lower end of the first cell body 6311.Then rotating shaft 61, make clip-connecting rod 611 movable along one end of the second cell body 6312 to the other end, when clip-connecting rod 611 moves to the other end of the second cell body 6312, pull rotating shaft 61 downwards, clip-connecting rod 611 is made to enter the 3rd cell body 6313, the both sides of clip-connecting rod 611 are by the sidewall backstop of the 3rd cell body 6313, and power transmission shaft 63 just can drive rotating shaft 61 to rotate together when rotating, and realize coordinating of rotating shaft 61 and power transmission shaft 63.

During dismounting, can complete the dismounting of rotating shaft 61 and power transmission shaft 63 according to the step that above-mentioned assembling mode is contrary, rotating shaft 61 and the power transmission shaft 63 of this structure assemble mode simply, and transmission is effective.

Preferably, as shown in Figure 7 and Figure 8, the assembly 6 that stir-fries also comprises elastic component 64, and elastic component 64 is located between power transmission shaft 63 and the rotating shaft 61 and two ends of elastic component 64 and only supports the roof of installation cavity 630 and the roof of rotating shaft 61 respectively.Thus, by arranging elastic component 64, when rotating shaft 61 is assembled with power transmission shaft 63, when clip-connecting rod 611 being moved to the other end of the second cell body 6312, only need unclamp rotating shaft 61, rotating shaft 61 and the assembling of power transmission shaft 63 can be completed, further simplify the assembling mode of rotating shaft 61 and power transmission shaft 63, simultaneously under the effect of elastic component 64, clip-connecting rod 611 can be avoided to drop in inserting groove 631.

According to an embodiment of the present utility model, the 3rd cell body 6313 and the first cell body 6311 be arranged in parallel.Further, rounding off between the 3rd cell body 6313 and the first cell body 6311.Thus, this rotating shaft 61 is more reasonable with the fit structure of power transmission shaft 63, and assembling process is more convenient, and clip-connecting rod 611 is little with the wearing and tearing of inserting groove 631, extends the service life of rotating shaft 61 and power transmission shaft 63.

As depicted in figs. 1 and 2, according to embodiments more of the present utility model, fully automatic cooking machine 100 also comprises liner 5, liner 5 be connected with pot cover 4 and and limit a room between pot cover 4, it is indoor between first drive motors 60 is located at, rotating shaft 61 extend in interior pot 2, can be wherein that rotating shaft 61 is stretched in interior pot 2 through liner 5, can also be that the first driving shaft 601 is connected with the rotating shaft 61 being positioned at pot 2 through liner 5.Thus indoor between the first drive motors 60 is located at, can separate with interior pot 2, reduce oil smoke to the pollution of the first drive motors 60 and interference, ensure the normal use of the first drive motors 60, improve safety in utilization.Simultaneously by being provided with liner 5, the assembly 6 that stir-fries, without the need to being directly installed on pot cover 4, simplifying the structure of pot cover 4, avoids the impact of the outward appearance on pot cover 4, and is convenient to the assembling of assembly 6 on pot cover 4 that stir-fry.

In the example of fig. 1, the upper surface of liner 5 is provided with locating dowel 51, and the first driving shaft 601 is connected with rotating shaft 61 through locating dowel 51, wherein in order to reduce the wearing and tearing to the first driving shaft 601, is provided with bearing 66 between the first driving shaft 601 and locating dowel 51.

Further, fully automatic cooking machine 100 also comprises seal (scheming not shown), and seal is located between liner 5 and pot cover 4 with room between sealing.Wherein seal can be sealing ring also can be rubber cushion.Thus, by establishing seal between liner 5 and pot cover 4, the sealing of a room can be improved further, thus ensure that the first drive motors 60 is in an indoor safety in utilization, avoids steam or oil smoke in cooking process enter a room and produce harmful effect to the first drive motors 60 further.

In embodiments more of the present utility model, as shown in Figure 6, pot cover 4 is connected with pot body 1 pivotly by connecting axle 50, and the first drive motors 60 is connected with control device 8 by wire.

That is, pot cover 4 and pot body 1 are two structures be connected, pot cover 4 is pivotably mounted on pot body 1, and the first drive motors 60 on pot cover 4 is connected by wire with control device 8, wire can be installed in connecting axle 50, the fully automatic cooking machine 100 of this structure, under the prerequisite ensureing connection stability, can ensure the overall aesthetics of fully automatic cooking machine 100.

In other specific embodiments of the present utility model, heater 3 is the first solenoid, is provided with the second solenoid in pot cover 4, the second solenoid and the first drive motors 60 dedicated radio link.

Particularly, the second solenoid is provided with in pot cover 4, first solenoid forms electromagnetic field in heating process, second solenoid can respond to this electromagnetic field, thus the wireless energy transfer that can realize pot cover 4 and carrier communication, and then realize the supply of the energy of the first drive motors 60 and the control to motor.Thus, the structure of this fully automatic cooking machine 100 is simple.

Below with reference to Figure 11-Figure 16, pot assembly 7 of weighing in the hand according to the utility model first specific embodiment is described in detail.

As shown in Figure 11-Figure 16, in this embodiment, weigh pot assembly 7 in the hand and comprise: the second drive motors 70, eccentric wheel 71 and fixed axis 72, wherein, the second drive motors 70 is located on pot body 1, and the second drive motors 70 is connected with control device 8.Eccentric wheel 71 is connected with the second drive motors 70 with eccentric rotary.The two ends of fixed axis 72 are separately fixed on eccentric wheel 71 and interior pot 2.

Particularly, when the second drive motors 70 works, the second drive motors 70 is with movable eccentric wheel 71 eccentric rotary, when eccentric wheel 71 rotates, drives fixed axis 72 to rotate, thus realizes driving interior pot 2 movable with the object realizing weighing in the hand pot in pot body 1.

Weigh pot assembly 7 in the hand according to the utility model embodiment, by being provided with eccentric wheel 71, eccentric wheel 71 is connected to drive interior pot 2 movable in pot body 1 with interior pot 2 by fixed axis 72, thus realizes the object of weighing pot in the hand, and this structure of weighing pot assembly 7 in the hand is simple.

In this embodiment, mobile post 20 is one and is oppositely arranged with fixed axis 72, and that is, mobile post 20 and fixed axis 72 being radially symmetrical arranged along interior pot 2, mobile post 20 is located in shifting chute rotationally.

Further, weigh pot assembly 7 in the hand and also comprise limit assembly 73, the rotational angle that limit assembly 73 is connected to limit eccentric wheel 71 with eccentric wheel 71.Thus by limiting the rotational angle of eccentric wheel 71, the object of weighing pot angle in the hand limiting interior pot 2 can be realized, when fully automatic cooking machine 100 is small machines, interior pot 2 to weigh pot angle in the hand less, in that case, weigh a pot angle in the hand by what be provided with that limit assembly 73 limits interior pot 2, the Miniaturization Design demand of fully automatic cooking machine 100 can be met.

Particularly, limit assembly 73 comprises: the first locating part 730 and the second locating part 731, wherein, and the first locating part 730 and the second drive motors 70 geo-stationary.That is, first locating part 730 is motionless relative to the second drive motors 70, wherein the first locating part 730 can be fixed on the second drive motors 70, first locating part 730 can also be a part for the second drive motors 70, certainly it will also be appreciated that, can also be do not connect contact between first locating part 730 and the second drive motors 70, the first locating part 730 can be fixed on pot body 1.

One end of second locating part 731 is located on eccentric wheel 71 rotationally, and when eccentric wheel 71 rotates, the second locating part 731 and the first locating part 730 are slidably matched.Because relative second drive motors 70 of the first locating part 730 is geo-stationary, second locating part 731 and the first locating part 730 are slidably matched, define the rotational angle of the second locating part 731, thus further define the rotational angle of eccentric wheel 71, so define interior pot 2 weigh a pot angle in the hand.Can also play a supporting role to eccentric wheel 71 simultaneously, enhance the stability that eccentric wheel 71 moves.

In preferred exemplary more of the present utility model, as shown in Figure 11-Figure 16, first locating part 730 is slide block, second locating part 731 has the chute 7311 of closed line style, when slide block coordinates with the first end 7312 of chute 7311, interior pot 2 is in the first limit upturned position, and when slide block coordinates with the second end 7313 of chute 7311, interior pot 2 is in the second limit upturned position.The chute 7311 of the second locating part 731 is bar shaped, and slide block is positioned at chute 7311, and the outer peripheral face of slide block contacts with chute 7311, and slide block is biased relative to the motor shaft of the second drive motors 70 in the projection of vertical direction.As shown in Figure 13 and Figure 16, when motor rotates forward, interior pot 2 is turned to the second extreme position from the first extreme position, and the relative chute 7311 of slide block slides, and slide block slides into the second end 7313 from the first end 7312 of chute 7311; During motor reversal, interior pot 2 is turned to the first extreme position from the second extreme position, and slide block slides into first end 7312 from the second end 7313 of chute 7311, and the pivotal connection of the second locating part 731 and eccentric wheel 71 is near the second end 7313 of chute 7311.Adopt said structure, further enhancing the stability that eccentric wheel 71 moves, and fluent motion, without hindrance.One with ordinary skill in the art would appreciate that in other examples, the second locating part 731 is slide blocks, and the first locating part 730 is the moving blocks with chute 7311, and slide block is located in chute 7311.

As shown in figures 12-16, be enclosed within outside one end of second locating part 731 on fixed axis 72, weigh pot assembly 7 in the hand and also comprise fixed support 79, fixed support 79 is fixed on fixed axis 72, the wheel face of eccentric wheel 71 and fixed support 79 are formed spacing to the second locating part 731, prevent the second locating part 731 along the axially-movable of fixed axis 72.Thus the second locating part 731 directly exerts a force to the fixed axis 72 be fixed on eccentric wheel 71, fast, directly can limit the motion of interior pot 2.

Further, weigh pot assembly 7 in the hand and also comprise the second decelerator 78, be connected by the second decelerator 78 between fixed axis 72 and the motor shaft of the second drive motors 70, the input of the second decelerator 78 is connected with the motor shaft of the second drive motors 70, second decelerator 78 is connected with fixed axis 72 by the second driving shaft, thus by being provided with the second decelerator 78, effectively can reducing and weighing a pot speed in the hand, make the time of contact of food materials and interior pot 2 more sufficient, be convenient to stir-fry.Wherein according to the output speed of the second drive motors 70 and required can weigh the second decelerator 78 that pot speed selects to have appropriate ratios in the hand.

Wherein it should be noted that, the output of the second driving shaft can be a part i.e. second driving shaft of the second decelerator 78 self be the second decelerator 78, the second driving shaft can also be connected to the connecting rod between the output of the second decelerator 78 and fixed axis 72.Describe in detail below with reference to Figure 17-Figure 20 and weigh pot assembly 7 in the hand according to the utility model second specific embodiment.

In this embodiment, as shown in Figure 17-Figure 20, weigh pot assembly 7 in the hand to comprise: pedestal 77, second drive motors 70, first 74, second 75 and the 3rd 76, wherein, pedestal 77 is fixed on pot body 1, second drive motors 70 is located on pedestal 77, and the second drive motors 70 is connected with control device 8.

Be connected to drive rotation by the second drive motors 70 with the second drive motors 70 for first 74.Wherein can be formed as first 74 shaft-like (as in figs. 17-19), first 74 can also be formed as colyliform (as shown in figure 20).

One end of second 75 is connected with first 74, and second 75 is fixed on interior pot 2.When being formed as colyliform for first 74, the pivot center that the tie point of second 75 and first 74 departs from first 74 is arranged.

Be connected with the other end of second 75 for 3rd 76, the 3rd 76 rotatably or is movably located on pedestal 77.

When the second drive motors 70 drives first 74 to rotate, first 74 drives second 75 and rotates, and because the two ends of second 75 are connected with the 3rd 76 with first 74 respectively, thus second 75 can be implemented in certain scope rotation.In driving when rotating for second 75, pot 2 overturns, thus realizes the object of weighing pot in the hand.Thus make according to the structure of weighing pot assembly 7 in the hand of the utility model embodiment simple.

In concrete examples more of the present utility model, pedestal 77, first 74, second 75 and the 3rd 76 forms crank and rocker mechanism, and first 74 is crank, and second 75 is connecting rod, and the 3rd 76 is rocking bar.More specifically, the length that the length < that the length < of first 74 is the 3rd 76 is second 75, the middle part of interior pot 2 and second 75 is fixed.Adopt said structure, the connection between first 74, second the 75, the 3rd 76, for being rotationally connected, connecting closely between each part, there will not be the phenomenon that gets loose during transmission.

In other concrete examples of the present utility model, pedestal 77, first 74, second 75 and the 3rd 76 forms slider-crank mechanism, and first 74 is crank, and second 75 is connecting rod, 3rd 76 is slide block, and pedestal 77 is provided with the sliding tray slided for the 3rd 76.One end of second 75 is connected with first 74 pivotable, and the other end of second 75 is connected with the 3rd 76 pivotables, and the 3rd 76 is slided in the sliding tray of pedestal 77.Adopt said structure, utilize the quickreturn characteristics of slide block, the upset efficiency of interior pot 2 can be improved.

In some concrete examples more of the present utility model, second 75 is slide bar, and the 3rd 76 is switch block, and second 75 is connected with first 74 pivotable, and the 3rd 76 is connected with pedestal 77 pivotable, and the 3rd 76 has the groove slided for second 75.Particularly, interior pot 2 be connected with slide bar and tie point between the pivotal connection and sliding part of slide bar, adopt said structure, the two ends of second 75 are respectively revolute pair and moving sets, avoid and occur catching phenomenon, make pot body 1 rotary movement smooth.

In a preferred exemplary, as illustrated in figures 19 and 20, interior pot 2 is pan, and the bottom of interior pot 2 is connected by connection bracket 750 with second 75, second 75 when being connecting rod, and the line of two pivotal connection of second 75 is perpendicular to the center of interior pot 2.Adopt said structure to be fixed in the bottom of interior pot 2 and second 75, second 75 to define interior pot 2 and lifts, and makes the overall stress equalization of interior pot 2, and then reaches the uniform object that stir-fries.One of ordinary skill in the art will appreciate that, second 75 can also be connected with the sidewall of interior pot 2.

In a preferred embodiment, the scope of the maximum rotation angle of second 75 is 20 ~ 30 degree, and namely, the maximum of the flip angle A of pot 2 is 20 ~ 30 degree.Adopt above-mentioned flip angle, avoid the spilling of dish.Particularly, can by arranging to the length of first 74, second the 75, the 3rd 76 and relative position the angle of rotation regulating interior pot 2.

In this embodiment, further, weigh pot assembly 7 in the hand and also comprise the second decelerator 78, be connected by the second decelerator 78 between first 74 and the motor shaft of the second drive motors 70, the input of the second decelerator 78 is connected with the motor shaft of the second drive motors 70, and the second decelerator 78 is connected with first 74 by the second driving shaft, thus by being provided with the second decelerator 78, effectively can reduce and weigh a pot speed in the hand, make the time of contact of food materials and interior pot 2 more sufficient, be convenient to stir-fry.Wherein according to the output speed of the second drive motors 70 and required can weigh the second decelerator 78 that pot speed selects to have appropriate ratios in the hand.

Wherein it should be noted that, the output of the second driving shaft can be a part i.e. second driving shaft of the second decelerator 78 self be the second decelerator 78, the second driving shaft can also be connected to the connecting rod between the output of the second decelerator 78 and first 74.

In the example shown in Figure 17 and Figure 18, pedestal 77 comprises base plate 770, first side plate 771 and the second side plate 772, first side plate 771 and the second side plate 772 are connected with base plate 770 and are oppositely arranged, second drive motors 70 and the second decelerator 78 are positioned at outside the first side plate 771, first 74, second 75 and the 3rd 76 is positioned at inside the first side plate 771, second driving shaft is connected with first 74 through the first side plate 771, to rotate for the 3rd 76 or movement coordinates with the first side plate 771.

Be understandable that, weigh pot assembly 7 in the hand and be not limited to above-mentioned several embodiment, such as weigh pot assembly 7 in the hand and can also comprise rod member, the second drive motors 70 and limit assembly 73, one end of rod member is connected with the second drive motors 70, the fixing interior pot 2 of the other end of rod member, limit assembly 73 limits the rotational angle of rod member.In brief, weigh pot assembly 7 in the hand and can be formed as any structure, as long as ensure that weighing pot assembly 7 in the hand can control interior pot 2 and weigh a pot action in the hand.

As shown in figure 21, fully automatic cooking machine 100 also comprise the pivot angle A for detecting interior pot 2 swing angle detection device, for detecting the temperature-detecting device of the temperature of interior pot 2, control device 8 also comprises high-frequency drive power supply, and heater 3 is connected with high-frequency drive power supply.Motor 1 in Figure 21 represents that the motor 2 in the first drive motors 60, Figure 21 in the utility model represents the second drive motors 70 in the utility model.

The man-machine interaction unit 81 of control device 8 sends fire control instruction to control the action of high-frequency drive power supply to high-frequency drive power supply, heating current signal transmission is returned control device 8 by high-frequency drive power supply, and control device 8 can export suitable fire control instruction according to the adjustment of heating current signal.High-frequency drive power supply works receiving fire control instruction time control refrigerating/heating apparatus 3, and the food materials that heater 3 works in the internal pot 2 of heating current that produces boil.

In the process that heater 3 works, the temperature of pot 2 in temperature-detecting device detects, and interior pot temperature signal transmission is returned control device 8, in control device 8 can judge according to interior pot temperature signal, whether the temperature of pot 2 meets the requirements, and can also export suitable fire control instruction with timed unit 8 according to interior pot temperature signal adjustment.

Control device 8 works by controlling motor 1, to drive the assembly 6 that stir-fries to work, thus is stirred by the food materials in interior pot 2.Control device 8 can also work by controlling motor 2, weighs pot assembly 7 in the hand work to drive, thus realizes the object of weighing pot in the hand, shaking pot.

In the process of weighing pot assembly 7 work in the hand, the pivot angle of pot 2 in swing angle detection device detects, and sending interior pot pivot angle detection signal to control device 8, in control device 8 can judge according to interior pot pivot angle detection signal, whether the pendulum angle of pot 2 meets the requirements or judges whether weigh pot assembly 7 in the hand normally works.

In the utility model, unless otherwise clearly defined and limited, fisrt feature second feature " on " or D score can be that the first and second features directly contact, or the first and second features are by intermediary mediate contact.And, fisrt feature second feature " on ", " top " and " above " but fisrt feature directly over second feature or oblique upper, or only represent that fisrt feature level height is higher than second feature.Fisrt feature second feature " under ", " below " and " below " can be fisrt feature immediately below second feature or tiltedly below, or only represent that fisrt feature level height is less than second feature.

In the description of this description, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " example ", " concrete example " or " some examples " etc. means to describe in conjunction with this embodiment or example are contained at least one embodiment of the present utility model or example.In this manual, to the schematic representation of above-mentioned term not must for be identical embodiment or example.And the specific features of description, structure, material or feature can combine in one or more embodiment in office or example in an appropriate manner.In addition, when not conflicting, the feature of the different embodiment described in this description or example and different embodiment or example can carry out combining and combining by those skilled in the art.

Although illustrate and described embodiment of the present utility model above, be understandable that, above-described embodiment is exemplary, can not be interpreted as restriction of the present utility model, those of ordinary skill in the art can change above-described embodiment, revises, replace and modification in scope of the present utility model.

Claims (20)

1. a fully automatic cooking machine, is characterized in that, comprising:

Pot body;

Interior pot, described interior pot is located in described pot body;

For the heater heated the food materials in described interior pot;

Be used to open or close the pot cover of described interior pot;

Stir-fry assembly, described in the assembly that stir-fries be located on described pot body or described pot cover, described in stir-fry the extending at least partially in described interior pot to stir-fry to the food materials in described interior pot of assembly;

Weigh a pot assembly in the hand, described in weigh a pot assembly in the hand and be located on described pot body, described in weigh pot assembly in the hand and coordinate to drive described interior pot to weigh pot in the hand in described pot body with the outer surface of described interior pot and move;

Control device, described control device and described heater, described in stir-fry assembly with described weigh in the hand pot assembly be connected for control described heater, described in stir-fry assembly and described duty of weighing pot assembly in the hand.

2. fully automatic cooking machine according to claim 1, is characterized in that, described in the assembly that stir-fries comprise:

First drive motors, described first drive motors is located on described pot cover, and described first drive motors is connected with described control device;

Rotating shaft, described rotating shaft is connected with described first drive motors and drives the axial rotation around described rotating shaft by described first drive motors, and the lower end of described rotating shaft is stretched in described interior pot; With

Stir-fry part, described in the part that stir-fries be located at the lower end of described rotating shaft, described in stir-fry part and described rotating shaft coaxial rotation to stir-fry to the food materials in described interior pot.

3. fully automatic cooking machine according to claim 2, it is characterized in that, the described assembly that stir-fries also comprises power transmission shaft and the first decelerator, described first decelerator is connected with described first drive motors, described first decelerator is connected with described power transmission shaft by the first driving shaft, and described rotating shaft is removably connected with described power transmission shaft.

4. fully automatic cooking machine according to claim 3, it is characterized in that, the outer peripheral face of described first driving shaft is provided with along the radially outward outstanding of described first driving shaft and along the axially extended projection of described first driving shaft, the upper end of described power transmission shaft is set on described first driving shaft, the internal face of described power transmission shaft is provided with the groove corresponding with described raised position, and described projection is plugged in described groove.

5. fully automatic cooking machine according to claim 3, is characterized in that, the lower end of described power transmission shaft is provided with the first Access Division, and the upper end of described rotating shaft is provided with the second Access Division, and described first Access Division is removably connected with described second Access Division.

6. fully automatic cooking machine according to claim 5, it is characterized in that, the open at its lower end of described power transmission shaft forms installation cavity, described first Access Division is formed as the inserting groove of the both sides being located at described power transmission shaft, the upper end of described rotating shaft is plugged in described installation cavity, described second Access Division is formed as the clip-connecting rod of the both sides being located at described rotating shaft, and described clip-connecting rod is removably plugged in described inserting groove.

7. fully automatic cooking machine according to claim 6, it is characterized in that, the described assembly that stir-fries also comprises elastic component, and described elastic component is located between described power transmission shaft and described rotating shaft and the two ends of described elastic component and only supports the roof of described installation cavity and the roof of described rotating shaft respectively.

8. fully automatic cooking machine according to claim 2, is characterized in that, described heater is the first solenoid, is provided with the second solenoid in described pot cover, described second solenoid and described first drive motors dedicated radio link.

9. fully automatic cooking machine according to claim 1, is characterized in that, described pot cover is connected with described pot body pivotly by connecting axle.

10. fully automatic cooking machine according to claim 2, it is characterized in that, also comprise liner, described liner be connected with described pot cover and and limit a room between described pot cover, indoor between described in described first drive motors is located at, described rotating shaft extend in described interior pot.

11. fully automatic cooking machines according to claim 10, is characterized in that, also comprise: seal, described seal be located between described liner and described pot cover with seal described between room.

12. fully automatic cooking machines according to claim 1, is characterized in that, described in weigh a pot assembly in the hand and comprise:

Second drive motors, described second drive motors is located on described pot body, and described second drive motors is connected with described control device;

Eccentric wheel, described eccentric wheel is connected with eccentric rotary with described second drive motors;

Fixed axis, the two ends of described fixed axis are separately fixed on described eccentric wheel and described interior pot.

13. fully automatic cooking machines according to claim 12, is characterized in that, described in weigh a pot assembly in the hand and also comprise limit assembly, described limit assembly is connected with described eccentric wheel to limit described eccentric rotational angle.

14. fully automatic cooking machines according to claim 13, is characterized in that, described limit assembly comprises:

First locating part, described first locating part and described second drive motors geo-stationary;

Second locating part, one end of described second locating part is located on described eccentric wheel rotationally, and described in when described eccentric wheel rotates, the second locating part and described first locating part are slidably matched.

15. fully automatic cooking machines according to claim 1, is characterized in that, described in weigh a pot assembly in the hand and comprise:

Pedestal, described pedestal is located on described pot body;

Second drive motors, described second drive motors is located on described pedestal, and described second drive motors is connected with described control device;

First, described first to be connected with described second drive motors and to rotate to be driven by described second drive motors;

Second, one end of described second is connected with described first, and described second is fixed on described interior pot;

3rd, described 3rd is connected with the other end of described second, and described 3rd rotatably or is movably located on described pedestal.

16. fully automatic cooking machines according to claim 15, is characterized in that, described pedestal, described first, described second and described 3rd formation crank and rocker mechanism.

17. fully automatic cooking machines according to claim 15, is characterized in that, described pedestal, described first, described second and described 3rd formation slider-crank mechanism.

18. fully automatic cooking machines according to claim 1, is characterized in that, described heater is heater coil, and described heater coil is located on the internal perisporium of described pot body, and described heater coil is connected with described control device.

19. fully automatic cooking machines according to claim 1, it is characterized in that, described control device comprises: man-machine interaction unit, described man-machine interaction unit is located on the periphery wall of described pot body, described man-machine interaction unit and described heater, described in the assembly that stir-fries be connected with a described pot assembly of weighing in the hand, described man-machine interaction unit is provided with operating key.

20. fully automatic cooking machines according to claim 1, is characterized in that, the periphery wall of described interior pot is provided with mobile post, and the internal perisporium of described pot body is provided with shifting chute, and described mobile post is located in described shifting chute movably.