Disclosure of Invention
The present utility model is directed to a multifunctional electric milk foam and food processor, which solves the problems set forth in the background art.
In order to achieve the above purpose, the present utility model provides the following technical solutions:
the utility model provides a multi-functional electronic milk bubble and food processor, is including the container that is used for holding the processing article, the container inner bottom is provided with the rabbling mechanism that is used for stirring or cuts up, the container bottom is equipped with the base box that is used for driving the rabbling mechanism, its characterized in that:
the stirring mechanism comprises a rotor assembly, the rotor assembly is horizontally arranged at the inner bottom of the container in a rotating mode, and a plurality of rotor NS magnetic poles are arranged in the rotor assembly;
a plurality of stator electromagnetic driving coils are arranged in the base box, and the stator electromagnetic driving coils are distributed and arranged along the circumference of the rotating shaft of the rotor assembly;
the stator electromagnetic driving coils are provided with Hall sensors and driving controllers for driving the stator electromagnetic driving coils to generate driving magnetic fields, and the rotor NS magnetic poles are driven by the driving magnetic fields to drive the rotor assembly to horizontally rotate at the bottom in the container.
As a further scheme of the utility model: the container, the base box and the rotor assembly are all made of nonmetal materials.
As still further aspects of the utility model: the rotor NS magnetic pole at least comprises two strong magnetic blocks which are symmetrically arranged, the magnetic poles of the magnetic blocks which are oppositely arranged are opposite, the stator electromagnetic driving coil is a cylindrical winding coil, the stator electromagnetic driving coil is vertically arranged, and the axis of the stator electromagnetic driving coil and the axis of the magnetic blocks are positioned on a concentric circle.
As still further aspects of the utility model: the stirring mechanism further comprises a detachable stirring part which is arranged on the outer wall of the rotor assembly and used for stirring or cutting, and the detachable stirring part comprises one or more combinations of blades and stirring components with various sizes.
As still further aspects of the utility model: the container comprises a cup body, wherein the cup body comprises a cup cover at the top and a handle on the side wall, a rotor shaft protruding upwards is arranged at the inner bottom of the cup body, the rotor assembly is in a circular shape, and a plurality of rotor NS magnetic poles are circumferentially distributed in the rotor assembly along the axial lead of the rotor assembly; the rotor assembly is rotatably sleeved on the outer wall of the rotor shaft.
As still further aspects of the utility model: the rotor shaft is rotatably arranged at the center position of the inner bottom of the cup body, the outer wall of the rotor shaft and the inner wall of the rotor assembly are matched and provided with spring buckles, and the top of the rotor shaft joint is provided with a pressing head for pressing and unlocking the spring buckles.
As still further aspects of the utility model: the base box comprises a machine body, a machine shell base and a machine cover, wherein a groove for supporting a container is formed in the center of the top of the machine body, a stator electromagnetic driving coil is arranged inside the machine body below the groove, a heating assembly is arranged on the groove, a function control circuit board, a stator coil driving circuit board and a total line control board are arranged inside the machine body, and a function switch is arranged at the edge of the top of the machine body.
As still further aspects of the utility model: the heating assembly is integrally installed inside the machine body at the periphery of the groove, the heating assembly comprises a heating disc, the heating disc is arranged on an outer ring of the stator electromagnetic driving coil, a heating disc fixing ring is fixedly installed at the inner top of the machine body, the heating disc is installed in the heating disc fixing ring, a heating disc cover is arranged on the bottom cover of the heating disc fixing ring, and a safety induction switch controller is further arranged inside the heating disc fixing ring.
As still further aspects of the utility model: the bottom of the container is provided with a truncated cone shape which is concave inwards, and the top of the base box is provided with a protrusion which is fit with the truncated cone shape.
As still further aspects of the utility model: the container is internally provided with a plurality of rotor assemblies, the bottom of the base box is matched with the rotor assemblies to be provided with a plurality of independent stator electromagnetic driving coils, and the height positions of the rotor assemblies in the container are different.
Compared with the prior art, the utility model has the beneficial effects that:
1. according to the utility model, through the rotor assembly with the rotor NS magnetic pole and the plurality of electromagnetic driving coils, the rotor assembly is directly driven to rotate through the driving magnetic field under the condition that a driving motor or a motor is not required to be arranged, so that a stirring mechanism on the rotor assembly is driven to rotate, the conversion efficiency is high, the equipment manufacturing cost is saved, a large amount of installation space is saved for a base box, and the operation is stable, quiet and noiseless;
2. the rotor assembly and the stirring mechanism are arranged at the bottom of the container in a split way, so that the container can be conveniently taken out for cleaning and can be conveniently cleaned automatically;
3. according to the utility model, through the plurality of sets of rotor assemblies and electromagnetic driving coils, the stirring or crushing operation at different depth positions in areas can be realized;
4. the heating assembly can heat the container;
5. the utility model can rotate proper stirring components according to processed objects through the detachable stirring parts.
Detailed Description
The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
Example 1
Referring to fig. 1-3, in an embodiment of the present utility model, a multifunctional electric milk foam and food processor includes a container for holding processed articles, wherein a stirring mechanism for stirring or shredding is provided at the bottom of the container, and a base box for driving the stirring mechanism is provided at the bottom of the container;
the stirring mechanism comprises a rotor assembly 3, wherein the rotor assembly 3 is horizontally arranged at the inner bottom of the container in a rotating way, and a plurality of rotor NS magnetic poles 4 are arranged in the rotor assembly 3;
a plurality of stator electromagnetic driving coils 5 are arranged in the base box, and the stator electromagnetic driving coils 5 are distributed and arranged along the circumference of the rotating shaft of the rotor assembly 3;
a plurality of stator electromagnetic driving coils 5 are provided with Hall sensors and driving controllers for driving the electromagnetic driving coils 5 to generate driving magnetic fields, and rotor NS magnetic poles 4 are driven by the driving magnetic fields to drive a rotor assembly 3 to horizontally rotate at the inner bottom of the container;
when the rotor assembly is in operation, the stator electromagnetic driving coils 5 are circumferentially distributed along the axial direction of the rotor assembly 3, the Hall sensors are arranged on the stator driving electromagnetic coils 5, when the rotor assembly 3 containing the rotor NS magnetic poles 4 is placed on the base box, signals sensed by the Hall sensors are analyzed for a driving controller, the stator driving electromagnetic coils 5 are used for outputting voltages through a selection circuit to generate driving magnetic fields and then drive the rotor assembly 3 in the container to rotate, so that the corresponding stirring mechanism is driven to rotate together, the rotor assembly 3 is not required to be driven to rotate by a motor or the rotor assembly 3 is driven to rotate by motor assistance, a large amount of cost and space requirements are saved by the motor, the rotor NS magnetic poles 4 are not required to be driven to rotate by directly changing magnetic fields, the rotating speed and the rotating torque of the rotor NS magnetic poles 4 are increased, the stirring or crushing effect is improved, and the electromagnetic driving mode is quieter.
Still further aspects are as follows: the container, the base box and the rotor assembly 3 are all made of nonmetal materials;
when the rotor assembly 3 works, the nonmetallic material of the rotor assembly has small interference on the built-in rotor NS magnetic pole 4, and the driving magnetic field can be maximized to directly act on the rotor NS magnetic pole 4.
Still further aspects are as follows: the rotor NS magnetic pole 4 at least comprises two strong magnetic blocks which are symmetrically arranged, the magnetic poles of the magnetic blocks which are oppositely arranged are opposite, the stator electromagnetic driving coil 5 is a cylindrical winding coil, the stator electromagnetic driving coil 5 is vertically arranged, and the axis of the stator electromagnetic driving coil 5 and the axis of the magnetic blocks are positioned on a concentric circle;
when the rotor NS magnetic pole 4 is arranged as a strong magnetic block and is matched with a vertically arranged stator electromagnetic driving coil 5, the axis position is limited mainly to ensure that the rotor NS magnetic pole 4 just can pass through the axis position of the stator electromagnetic driving coil 5 in the rotating process of the rotor assembly 3, the magnetic line density at the axis of a magnetic field generated by the vertically arranged stator electromagnetic driving coil 5 is low, and the magnetic line density at the midpoint of the axis connecting line of the adjacent stator electromagnetic driving coils 5 is high, so that the mode of arrangement can ensure that the rotor NS magnetic pole 4 can generate the largest potential difference when passing through the two adjacent stator electromagnetic driving coils 5, thereby obtaining the largest rotation induction force and improving the rotating speed of the rotor assembly 3.
Still further aspects are as follows: the stirring mechanism further comprises a detachable stirring part 17 which is arranged on the outer wall of the rotor assembly 3 and used for stirring or cutting, and the detachable stirring part 17 comprises one or more combinations of blades with various sizes and stirring components;
during operation, here can dismantle stirring portion 17 as required, when needs carry out the foaming operation, will be similar to the foaming of eggbeater turn round and install rotor assembly 3 outer wall, stirring subassembly includes stirring board, stirring helical blade or the part that has dispersion stirring function such as foaming turning round, here is not repeated, when needs are smashed or when cutting up edible material, can better blade such as tilting blade, smash the operation through high-speed rotation, here rotor assembly 3 outer wall can be through buckle, screw mounting hole etc. can dismantle the form and install and dismantle stirring portion 17, here is not repeated.
Still further aspects are as follows: the container comprises a cup body 2, wherein the cup body 2 comprises a cup cover 1 at the top and a handle on the side wall, a rotor shaft 9 protruding upwards is arranged at the inner bottom of the cup body 2, the rotor assembly 3 is in a circular shape, and a plurality of rotor NS magnetic poles 4 are circumferentially distributed in the rotor assembly 3 along the axial lead of the rotor assembly 3; the rotor assembly 3 is rotatably sleeved on the outer wall of the rotor shaft 9.
Still further aspects are as follows: the base box comprises a machine body 14, a machine shell base 15 and a machine cover 16, wherein a groove for supporting a container is formed in the center of the top of the machine body 14, the stator electromagnetic driving coil 5 is arranged in the machine body 14 below the groove, a heating component is arranged on the groove, a function control and stator coil driving circuit board 7 and a total energy circuit control board 10 are arranged in the machine body 14, and a function switch 12 is arranged at the edge of the top of the machine body 14;
example 2
This embodiment differs from embodiment 1 in that:
still further aspects are as follows: the rotor shaft 9 is rotatably arranged at the center position of the inner bottom of the cup body 2, a spring buckle is arranged on the outer wall of the rotor shaft 9 and the inner wall of the rotor assembly 3 in a matched mode, and a pressing head for pressing and unlocking the spring buckle is arranged at the top of the rotor shaft 9;
in order to facilitate the installation and cleaning of the rotor assembly 3, the rotor assembly 3 is directly fixedly connected with the rotor shaft 9 in a buckling mode, the rotor shaft 9 is rotatably installed at the inner bottom of the cup body 2 instead, and when the cleaning is needed, the pressing head at the top of the rotor shaft 9 is directly pressed, and then the rotor assembly 3 is pulled upwards, so that the rotor assembly 3 can be disassembled, and the rotor assembly 3 and the inner wall of the cup body 2 are greatly cleaned conveniently.
Still further aspects are as follows: the bottom of the container is provided with a truncated cone shape which is concave inwards, and the top of the base box is provided with a protrusion which is fit with the truncated cone shape;
during operation, the container bottom is provided with the round table shape, so that after the rotor assembly 3 is installed, stirring gaps are reserved around the round table, the bottom is prevented from being directly dragged, a good stirring gap cannot be formed, and secondly, the protrusions at the top of the base box can form buckles with the concave round table at the bottom of the container, so that stable placement of the container is ensured.
Still further aspects are as follows: the heating assembly is integrally arranged in a machine body 14 at the periphery of the groove, the heating assembly comprises a heating disc 11, the heating disc 11 is arranged on the outer ring of the stator electromagnetic driving coil 5, a heating disc fixing ring 13 is fixedly arranged at the inner top of the machine body 14, the heating disc 11 is arranged in the heating disc fixing ring 13, a heating disc cover 6 is covered at the bottom of the heating disc fixing ring 13, and a safety induction switch controller 8 is further arranged in the heating disc fixing ring 13;
during operation, the heating plate 11 is used for heating the inner wall of the groove, so that the container placed in the inner groove is heated, the heating plate is 8 used for sensing the container or temperature parameter, the heating plate fixing ring 13 is mainly used for auxiliary installation, and the heating plate cover 6 is used for sealing and isolating operation.
Example 3
This embodiment differs from embodiments 1 and 2 in that:
still further aspects are as follows: a plurality of rotor assemblies 3 are arranged in the container, and a plurality of independent stator electromagnetic driving coils 5 are arranged at the bottom of the base box in cooperation with the rotor assemblies 3;
during operation, conventional stirring is central single-point stirring, and a large amount of cost and space can be saved because the motor is not required to be arranged, so that the combination of several sets of rotor assemblies 3 and rotor NS magnetic poles 4 can be arranged, the stirring speed of each set of rotor assemblies 3 and rotor NS magnetic poles 4 can be different, the effect of independently stirring in a partition can be realized in the cup body 2, and particularly, the dispersing stirring effect can be greatly improved for objects difficult to stir and disperse.
Still further aspects are as follows: a plurality of said rotor assemblies 3 are different in height position inside said container;
during operation, the height can be staggered, and the crushing and stirring effect can be further enhanced.
It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. Although the present disclosure describes embodiments in terms of one embodiment, not every embodiment is provided with only one embodiment, and the description is for clarity only, and those skilled in the art should recognize that the embodiments described in the disclosure may be combined appropriately to form other embodiments that will be understood by those skilled in the art.