CN207604821U - Grinding assembly and soy bean milk making machine - Google Patents

Abstract

The utility model provides a kind of grinding assembly and soy bean milk making machine, grinding assembly include：Abrasive body, rotary magnet and quiet abrasive disk, rotary magnet and grinding mates, for driving abrasive body to rotate；Quiet abrasive disk is located at the lower section of abrasive body, and when rotary magnet drive abrasive body rotation, quiet abrasive disk is mutually squeezed with abrasive body, with the material in soy milk making machine with grinding function.Grinding assembly provided by the utility model is ground material using abrasive body and quiet abrasive disk instead of Disintegrating knife in the prior art, and grinding can make soya-bean milk grain size smaller, evenly, to improve the mouthfeel of soya-bean milk；Noise when soy bean milk making machine work is reduced simultaneously, improves user experience；And abrasive body is driven to rotate using magnetic force, and magnetic drive belongs to contactless driving, so grinding assembly with the driving structure of soy bean milk making machine without being in contact, to solve the problems, such as to seal difficulty between the rotary shaft and bottom of cup of some soy bean milk making machines in the prior art.

Description

Grinding assembly and soy bean milk making machine

Technical field

The utility model is related to kitchen appliance technical fields, in particular to a kind of grinding assembly and include the grinding The soy bean milk making machine of component.

Background technology

Currently, traditional soy bean milk making machine drives the high speed rotation of Disintegrating knife to beat bean or pea by motor, slurrying is realized.It is this The crushing effect that bean or pea easily occurs in traditional soy bean milk making machine is bad, and soya-bean milk grain size is larger and grain size is uneven, to influence mouthfeel, and The high speed rotation of Disintegrating knife brings larger noise, reduces the usage experience of user；And the soy bean milk making machine having, electrode are located at It in pedestal, is connected to the motor so the rotary shaft of Disintegrating knife needs guiding through bottom of cup, during the work time due to Disintegrating knife Rotating speed is very high, and the liquid such as water are typically contained in cup body, so there is a problem of sealing difficulty between rotary shaft and bottom of cup, There are security risks.

Utility model content

At least one in order to solve the above-mentioned technical problem, one of the utility model is designed to provide a kind of grinding group Part.

Another of the utility model is designed to provide a kind of soy bean milk making machine including above-mentioned grinding assembly.

To achieve the goals above, the technical solution of the utility model first aspect provides a kind of grinding assembly, is used for Soy bean milk making machine, including：Dynamic abrasive disk；Rotary magnet is matched with the dynamic abrasive disk, for driving the dynamic grinding disc spins； With quiet abrasive disk, it is located at the lower section of the dynamic abrasive disk, and when the rotary magnet drive dynamic grinding disc spins, it is described quiet Abrasive disk is mutually squeezed with the dynamic abrasive disk, to grind the material in the soy bean milk making machine.

The grinding assembly that the technical solution of the utility model first aspect provides, instead of crushing knife in the prior art Piece is ground the materials such as bean or pea with mutually extruding using the relative rotation between dynamic abrasive disk and quiet abrasive disk, compared to The high speed of Disintegrating knife is beaten in the prior art, and grinding can make soya-bean milk grain size smaller, evenly, to improve the mouth of soya-bean milk Sense；Meanwhile grinding slurrying and not requiring the rotating speed of dynamic abrasive disk excessively high, therefore the rotating speed of drive component has also obtained appropriate reduction, To reduce noise when soy bean milk making machine work, user experience is improved；And dynamic grinding disc spins are driven using magnetic force, and magnetic Power drive belongs to contactless driving, so grinding assembly with the driving structure of soy bean milk making machine without being in contact, and it is existing to solve Have and seals difficult problem in technology between the rotary shaft and bottom of cup of some soy bean milk making machines.

Specifically, grinding assembly includes dynamic abrasive disk, rotary magnet and quiet abrasive disk, and quiet abrasive disk is located at dynamic abrasive disk Lower section is matched with dynamic abrasive disk, plays defibrination function, when the materials such as bean or pea, which enter, to be moved between abrasive disk and quiet abrasive disk, Dynamic abrasive disk rotates, and is mutually squeezed with quiet abrasive disk, to grind the materials uniform and delicate such as bean or pea so that is made Soya-bean milk grain size it is thinner, it is good in taste；The extruding of the materials such as bean or pea is ground due to relying primarily on dynamic abrasive disk and quiet abrasive disk It grinds to realize slurrying, so not requiring the rotating speed of dynamic abrasive disk excessively high, the abundant of the materials such as bean or pea can be realized at the low rotational speed Grinding significantly reduces noise when soy bean milk making machine work, improves the usage experience of user compared with prior art；Meanwhile it grinding It further includes rotary magnet to grind component, and rotary magnet can be rotated under the driving of magnetic drive components, and then drives dynamic grind Mill rotates, to ensure that the magnetic drive for realizing dynamic abrasive disk.

In addition, the grinding assembly in above-mentioned technical proposal provided by the utility model can also have following supplementary technology special Sign：

In the above-mentioned technical solutions, the upper surface of the quiet abrasive disk is equipped with the first guiding groove, for the soy bean milk making machine Interior material to be ground is guided between the dynamic abrasive disk and the quiet abrasive disk；The lower surface of the dynamic abrasive disk and/or Equipped with the second guiding groove, for material to be ground in the soy bean milk making machine to be guided to the dynamic abrasive disk and the quiet abrasive disk Between.

The upper surface of quiet abrasive disk is equipped with the first guiding groove so that forms a certain size between quiet abrasive disk and dynamic abrasive disk Gap, the materials such as bean or pea to be ground in soy bean milk making machine can be guided between quiet abrasive disk and dynamic abrasive disk, then move grinding When disc spins, you can these materials are ground, the material after grinding flows out under the drive of liquid along the first guiding groove, Other materials to be ground continue to enter along the first guiding groove and move between abrasive disk and quiet abrasive disk simultaneously.

Similarly, the lower surface for moving abrasive disk is equipped with the second guiding groove, but also being formed between quiet abrasive disk and dynamic abrasive disk A certain size gap, the materials such as bean or pea to be ground in soy bean milk making machine can equally be guided to quiet abrasive disk and dynamic abrasive disk it Between, specific process of lapping is identical as said program, and details are not described herein.

Preferably, guiding groove, such drainage effect are equipped on the upper surface of quiet abrasive disk and the lower surface of dynamic abrasive disk More preferably, grinding efficiency higher.

In any of the above-described technical solution, the upper surface of the quiet abrasive disk is equipped with rough layer；And/or described move is ground The lower surface of mill is equipped with rough layer.

The upper surface of quiet abrasive disk is equipped with rough layer, i.e., the upper surface of quiet abrasive disk is uneven, can be ground in this way to quiet The materials such as the bean or pea between mill and dynamic abrasive disk carry out more fully more efficient grinding, to improve the slurrying effect of soy bean milk making machine Rate reduces the stand-by period of user.

The lower surface of dynamic abrasive disk is equipped with rough layer, i.e., the lower surface of dynamic abrasive disk is uneven, so also can be to quiet The materials such as the bean or pea between abrasive disk and dynamic abrasive disk carry out more fully more efficient grinding, to improve the slurrying effect of soy bean milk making machine Rate reduces the stand-by period of user.

In any of the above-described technical solution, the rotary magnet is built in the dynamic abrasive disk.

Rotary magnet is built in dynamic abrasive disk, i.e., the carrier of rotary magnet is dynamic abrasive disk, then rotary magnet by When the driving of driving structure is rotated, the dynamic abrasive disk as carrier synchronizes rotation and realizes grinding function, it is ensured that The synchronism of dynamic abrasive disk and rotary magnet；And rotary magnet is built in dynamic abrasive disk, reduces the volume of grinding assembly, letter Change overall appearance, to reduce occupancy of the grinding assembly to cup body capacity, is conducive to the slurrying yield for improving soy bean milk making machine.

In the above-mentioned technical solutions, the rotary magnet is arranged in the end of the dynamic abrasive disk.

Rotary magnet is arranged in the end of dynamic abrasive disk, i.e. rotary magnet is arranged diametrically opposite outer in dynamic abrasive disk At position, this is because under identical active force, rotary magnet is more outer, and the torque of generation is bigger, thus easier driving Dynamic abrasive disk is rotated around its own axis, is conducive to the rotary speed for improving dynamic abrasive disk.

In the above-mentioned technical solutions, the quantity of the rotary magnet is multiple, and multiple rotary magnets are ground along described move The circumferential direction of mill is uniformly distributed.

The quantity of rotary magnet is multiple, and multiple rotary magnets are uniformly distributed along the circumferential direction for moving abrasive disk, such as along dynamic abrasive disk Circumferential direction be evenly distributed with multiple bar magnets, the circumferential by uniform rotary driving force of dynamic abrasive disk is can effectively ensure that, to protect Having demonstrate,proved dynamic abrasive disk can rotate smoothly.

In the above-mentioned technical solutions, multiple rotary magnets are equally divided into even number rotary magnet group, each rotary magnetic The pole of rotary magnet in body group is to the pole of identical and adjacent rotary magnet group to opposite.

Multiple rotary magnets are equally divided into even number rotary magnet group, i.e., 2n rotary magnet group is equipped in crushing knife, In, n is positive integer；The pole of rotary magnet in each rotary magnet group is to the pole of identical and adjacent rotary magnet group to phase Instead, this ensure that be crushed to can be by effective magnetic drive；It is unrestricted as the concrete shape of each rotary magnet, The section of its magnetic pole can be rectangle, arc, triangle etc..Such as：When each rotary magnet group only includes a rotary magnet When, then the distribution form of the rotary magnet in crushing knife is：NS (n=1), NSNS (n=2), NSNSNS (n=3) ...；When When each rotary magnet group includes two rotary magnets, then the distribution form of the rotary magnet in crushing knife is：NNSS (n=1), NNSSNNSS (n=2), NNSSNNSSNNSS (n=3) ...；And so on, it will not enumerate.

In any of the above-described technical solution, the rotary magnet is permanent magnet.

Rotary magnet is permanent magnet, such as natural crystal (magnetic iron ore) or artificial magnet's (alnico alloy), permanent magnetism physical efficiency Enough longer-terms keep its magnetism, are not easy loss of excitation, are not easy to be magnetized, to ensure that it is good using reliable that grinding assembly has Property, and there is longer service life.

Dynamic abrasive disk is solid block, on the one hand increases the weight of dynamic abrasive disk, is conducive to dynamic abrasive disk and is pressed in quiet grind Material is squeezed and ground on mill；On the other hand can completely rotary magnet be wrapped up by moving abrasive disk, both be avoided Rotary magnet pollutes soya-bean milk, and in turn avoiding the materials such as soya-bean milk or bean or pea influences rotary magnet；Simultaneously, it is thus also avoided that the objects such as soya-bean milk The situations such as partial material fails grinding and grinding assembly is difficult to clean are caused to occur in the embedded dynamic abrasive disk of material.

The technical solution of the utility model second aspect provides a kind of soy bean milk making machine, including：Control mainboard, cup body component, Including cup body；Head, lid are located on the cup body component；Grinding assembly as described in any one of first aspect technical solution, In the cup body, the quiet abrasive disk of the grinding assembly is installed in the bottom of the cup body, and the dynamic of grinding assembly is ground Mill is pressed on the quiet abrasive disk；Driving magnet is rotated, is oppositely arranged with the rotary magnet of the grinding assembly, for driving The dynamic rotary magnet rotation, makes the rotary magnet drive the dynamic grinding disc spins, to grind the material in the cup body.

The soy bean milk making machine that the technical solution of the utility model second aspect provides, including control mainboard, cup body component, head, Grinding assembly and rotation driving magnet, the quiet abrasive disk of grinding assembly described in any one of first aspect technical solution are installed in The bottom of cup body, dynamic abrasive disk are pressed on quiet abrasive disk, be ensure that and are stablized cooperation between quiet abrasive disk and dynamic abrasive disk, into And grinding assembly can in cup body steady operation；Rotation driving magnet is oppositely arranged with rotary magnet, and magnetic is driven using rotation Body changing magnetic field acts on rotary magnet, you can driving rotary magnet rotation, and then realize the dynamic grinding disc spins of driving；And it grinds The grain size smaller that slurry makes soya-bean milk is ground, mouthfeel is more preferable, while reducing the requirement to moving lap speed, reduces work and makes an uproar Sound, and magnetic drive then solves the sealing problem between rotary shaft and cup body in the prior art.

In addition, the soy bean milk making machine in above-mentioned technical proposal provided by the utility model can also have following supplementary technology special Sign：

In the above-mentioned technical solutions, the rotation driving magnet is permanent magnet, and the rotation driving magnet is fixed on disk On, the disk is connected with the output shaft of motor, and the motor is electrically connected with the control mainboard, in the control mainboard Control is lower to drive the rotation driving magnet rotation.

Rotation driving magnet is permanent magnet, and permanent magnet is connected by motor with control mainboard, i.e. motor and control mainboard electricity The output shaft of connection, disk and motor is mechanically connected, and permanent magnet is fixed on disk, and output shaft, which is powered, to be rotated, and rotation is driven to drive Dynamic magnet rotation, to generate changing magnetic field, and then acts on rotary magnet, and rotary magnet is made to drive dynamic grinding disc spins, real Existing magnetic drive.

In the above-mentioned technical solutions, the quantity of the rotation driving magnet is multiple, multiple rotation driving magnet edges The circumferential direction of the disk is uniformly distributed.

The quantity for rotating driving magnet is multiple, and multiple rotation driving magnets are uniformly distributed along the circumferential direction of disk, such as along disk Circumferential direction be evenly distributed with multiple bar magnets, the circumferential by uniform driving force of crushing knife is can effectively ensure that, to ensure that powder Broken knife can rotate smoothly.

In the above-mentioned technical solutions, multiple rotation driving magnets are equally divided into even number rotation driving magnet group, often The pole of rotation driving magnet in a rotation driving magnet group is to the pole of the identical and adjacent rotation driving magnet group to phase Instead.

Multiple rotation driving magnets are equally divided into even number rotation driving magnet group, i.e., are equipped with 2n rotation in crushing knife and drive Dynamic magnet group, wherein n is positive integer；The pole of rotation driving magnet in each rotation driving magnet group is to identical and adjacent The pole of driving magnet group is rotated on the contrary, this ensure that be crushed to can be by effective magnetic drive；As for each rotation The concrete shape of driving magnet is unrestricted, and the section of magnetic pole can be rectangle, arc, triangle etc..Such as：When each rotation Turn driving magnet group only include one rotation driving magnet when, then the distribution form for rotating driving magnet is：NS (n=1), NSNS (n=2), NSNSNS (n=3) ...；When each rotation driving magnet group includes two rotation driving magnets, then crushing knife The distribution form of interior rotation driving magnet is：NNSS (n=1), NNSSNNSS (n=2), NNSSNNSSNNSS (n= 3)、……；And so on, it will not enumerate.

Preferably, the quantity for rotating driving magnet is equal with the quantity of the rotary magnet in crushing knife, and corresponds, this When sample crushing knife is put into cup body, according to the attracting principle of different name of the same name of repelling each other, crushing knife meeting automatic alignment ensures that its is embedded Rotary magnet can be by effective magnetic force, and then ensures that it is rotated smoothly.

In the above-mentioned technical solutions, the motor and the rotation driving magnet are arranged in the head, and are located at The top of the grinding assembly, the motor and the disk are coaxially connected, and the rotation driving magnet and the rotary magnetic The pole of body is to the axial direction along the cup body；Or, the motor and the rotation driving magnet are arranged at outside the cup body, And positioned at the lower section of the grinding assembly, the motor and the disk are coaxially connected, and the rotation driving magnet and described The pole of rotary magnet is to the axial direction along the cup body；Or, the motor and the rotation driving magnet be arranged at it is described Outside cup body, and it is located at the side and below of the grinding assembly, the motor is connected by belt with the disk, and institute The pole of rotation driving magnet and the rotary magnet is stated to the axial direction along the cup body；Or, the motor and the rotation Driving magnet is arranged at outside the cup body, and is located at the side and below of the grinding assembly, and the motor passes through tooth Wheel is connected with the disk, and the pole for rotating driving magnet and the rotary magnet is to the axial direction along the cup body.

Motor and rotation driving magnet are arranged in head, and are respectively positioned on the top of grinding assembly, and motor and disk are same The center of axis connection, i.e. disk is connected directly between on the output shaft of motor, in this way, the output shaft rotation of motor, directly drives rotation Turn driving magnet rotation, to generate changing magnetic field, and then drives dynamic grinding disc spins.

Motor and rotation driving magnet are arranged outside cup body, and are respectively positioned on the lower section of grinding assembly, and motor and disk are same The center of axis connection, i.e. disk is connected directly between on the output shaft of motor, in this way, the output shaft rotation of motor, directly drives rotation Turn driving magnet rotation, to generate changing magnetic field, and then drives dynamic grinding disc spins.

Motor and rotation driving magnet are arranged outside cup body, and are located at the side and below of grinding assembly, i.e. motor Positioned at the side of grinding assembly, rotates driving magnet and disk is located at the lower section of grinding assembly, so the output shaft of motor cannot Directly band movable magnetic disc rotates, therefore adds gear between the output shaft and disk of motor, utilizes the transmission of gear, you can realizes Rotate the rotation of driving magnet.

Motor and rotation driving magnet are arranged outside cup body, and are located at the side and below of grinding assembly, i.e. motor Positioned at the side of grinding assembly, rotates driving magnet and disk is located at the lower section of grinding assembly, so the output shaft of motor cannot Directly band movable magnetic disc rotates, therefore adds belt between the output shaft and disk of motor, utilizes the transmission of belt, you can realizes Rotate the rotation of driving magnet.

In above-mentioned several schemes, rotary magnet and rotation driving magnet are distribution up and down, and pole is in axial direction, It is：N under S or upper S under upper N, the poles N and the poles S of such rotary magnet correspond to the poles S and the poles N of rotation driving magnet, protect respectively The rotary magnet and rotation driving magnet for having demonstrate,proved upper and lower distribution can realize magnetic drives.

In latter two scheme, motor is located at the side of grinding assembly, in this way, the height of soy bean milk making machine can be significantly reduced Degree improves stability when soy bean milk making machine work to reduce the vibration amplitude of soy bean milk making machine at work；And optimize product Appearance has been significantly expanded the structure type of product, is closed according to the concrete structure and user demand of product convenient for technical staff Removing the work office.

Certainly, rotation driving magnet can also be located at the side of grinding assembly, for example expand the size of disk, be larger than The floor space of cup body, and the edge of disk is upwardly extended along the side wall of cup body, then rotation driving magnet is fixed On the elongated end of disk, it is positioned at the side of grinding assembly to rotate driving magnet at this time；Correspondingly, rotary magnet and rotation are driven The magnetic pole of dynamic magnet radially, i.e.,：It is that S, the poles N and the poles S of such rotary magnet are also right respectively in N or outer N in outer S The poles S and the poles N that driving magnet should be rotated ensure that the rotary magnet of horizontal side distribution and rotation driving magnet can realize magnetic Power is driven.At this point, only needing that the first coordinate magnet correspondingly is arranged in dynamic abrasive disk, in the above and or below of dynamic abrasive disk The second coordinate magnet (can be permanent magnet or electromagnet) being oppositely arranged with the first coordinate magnet is set, the first coordinate magnet and The pole of second coordinate magnet in axial direction, using the two attract each other or it is mutually exclusive, dynamic abrasive disk pressure is set On quiet abrasive disk.

In any of the above-described technical solution, the rotation driving magnet is located at the top of the grinding assembly, and the rotation Turn the pole of driving magnet and the rotary magnet to along the axial direction of the cup body and mutually exclusive, by the dynamic grinding Disk is pressed on the quiet abrasive disk；Or, the rotation driving magnet is located at the lower section of the grinding assembly, and the rotation is driven The pole of dynamic magnet and the rotary magnet is to along the axial direction of the cup body and attracting each other, by the dynamic abrasive disk pressure It is located on the quiet abrasive disk.

Rotation driving magnet is located at the top of grinding assembly, and rotates the pole of driving magnet and rotary magnet in an axial direction just To and it is mutually exclusive, i.e.,：The magnetic pole of rotation driving magnet magnetic pole directed downwardly and rotary magnet upward (for example is all for magnetic pole of the same name The poles N are all the poles S), dynamic abrasive disk is pressed on to the bottom of cup body using the repulsive force between rotation driving magnet and rotary magnet Portion, ensureing to move can mutually squeeze between abrasive disk and quiet abrasive disk, and then be carried out to material between the two sufficiently effective Grinding.

Rotation driving magnet is located at the lower section of grinding assembly, and rotates the pole of driving magnet and rotary magnet in an axial direction just To and attract each other, i.e.,：The magnetic pole of rotation driving magnet magnetic pole directed downwardly and rotary magnet upward (for example is distinguished for synonyms pole For the poles N and the poles S, or the respectively poles S and the poles N), using the attraction between rotation driving magnet and rotary magnet by dynamic abrasive disk It is pressed on the bottom of cup body, ensureing to move can mutually squeeze between abrasive disk and quiet abrasive disk, and then to material between the two Carry out sufficiently effective grinding.

In above two scheme, rotation driving magnet is matched with rotary magnet, and both having played magnetic force to dynamic abrasive disk drives Dynamic effect, and play the role of pressing position of limiting to dynamic abrasive disk, to ensure that between dynamic abrasive disk and quiet abrasive disk Effectively cooperation, it is reasonable for structure, it is skillfully constructed；And dynamic abrasive disk is pressed on quiet abrasive disk using magnetic force, produce flexible pressure If effect, both ensure that effective cooperation between dynamic abrasive disk and quiet abrasive disk, and in turn ensured that dynamic abrasive disk can be relatively quiet The axial floating of certain amplitude occurs for abrasive disk, in order to which the materials such as bean or pea enter therebetween；And dynamic abrasive disk can be from cup body Middle taking-up is kept completely separate with quiet abrasive disk, and abrasive disk, quiet abrasive disk and cup body are moved convenient for cleaning comprehensively.

Certainly, it will be understood by those of skill in the art that dynamic abrasive disk can also be pressed on quiet grinding by other means On disk (for example quiet abrasive disk is equipped with rotary shaft, rotary shaft is equipped with limiting section, and dynamic abrasive disk is arranged on the rotary shaft, and position Between limiting section and quiet abrasive disk, limiting section can effectively avoid quiet abrasive disk from rising, to ensure that dynamic abrasive disk with it is quiet Effective cooperation between abrasive disk), it will not enumerate herein, since these technical solutions can realize the utility model Purpose, and design philosophy and objective without being detached from the utility model, thus should be within the protection scope of the present utility model.

In any of the above-described technical solution, the quiet abrasive disk is an integral structure with the cup body.

Quiet abrasive disk is an integral structure with cup body, on the one hand quiet abrasive disk is integrally formed with cup body, to The production efficiency for improving product reduces the manufacturing cost of product；On the other hand ensure that quiet abrasive disk will not be in cup It moves in vivo, stablizes cooperation between quiet abrasive disk and dynamic abrasive disk to ensure that.

Alternatively, the quiet abrasive disk can releasably be connected with the cup body.

Quiet abrasive disk and cup body immovable fitting, i.e., quiet abrasive disk are split structure with cup body, are revolved by clamping, screw thread Connect, the modes such as magnet attraction are fixed on the bottom of cup body, can equally ensure to stablize cooperation between quiet abrasive disk and dynamic abrasive disk.

The additional aspect and advantage of the utility model will become apparent in following description section, or new by this practicality The practice of type is recognized.

Description of the drawings

The above-mentioned and/or additional aspect and advantage of the utility model will in the description from combination following accompanying drawings to embodiment Become apparent and is readily appreciated that, wherein：

Fig. 1 is the structural schematic diagram of the soy bean milk making machine described in the utility model one embodiment；

Fig. 2 is the enlarged structure schematic diagram in the portions A in Fig. 1；

Fig. 3 is the structural schematic diagram of the soy bean milk making machine described in second embodiment of the utility model.

Wherein, the correspondence in Fig. 1 to Fig. 3 between reference numeral and component names is：

10 grinding assemblies, 11 dynamic abrasive disks, 111 second guiding grooves, 12 rotary magnets, 13 quiet abrasive disks, 131 first guiding Slot, 21 cup bodies, 22 shells, 221 handles, 30 heads, 31 control mainboards, 41 rotation driving magnets, 42 motors, 50 heat-generating pipes.

Specific implementation mode

In order to be more clearly understood that the above objects, features, and advantages of the utility model, below in conjunction with the accompanying drawings and have The utility model is further described in detail in body embodiment.It should be noted that in the absence of conflict, this Shen The feature in embodiment and embodiment please can be combined with each other.

Many details are elaborated in the following description in order to fully understand the utility model, still, this practicality Novel to be implemented different from other modes described here using other, therefore, the scope of protection of the utility model is simultaneously It is not limited by following public specific embodiment.

Referring to Fig. 1 to Fig. 3 descriptions according to the grinding assembly and soy bean milk making machine described in the utility model some embodiments.

As shown in Figure 1 to Figure 3, the grinding assembly 10 that the embodiment of the utility model first aspect provides is used for soy bean milk making machine, Including：Dynamic abrasive disk 11, rotary magnet 12 and quiet abrasive disk 13.

Specifically, rotary magnet 12 is matched with dynamic abrasive disk 11, for driving dynamic abrasive disk 11 to rotate；Quiet abrasive disk 13 Positioned at the lower section of dynamic abrasive disk 11, and rotary magnet 12 drives when moving the rotation of abrasive disk 11, quiet abrasive disk 13 and dynamic abrasive disk 11 It mutually squeezes, with the material in soy milk making machine with grinding function.

The grinding assembly 10 that the embodiment of the utility model first aspect provides, instead of crushing knife in the prior art Piece is ground the materials such as bean or pea with mutually extruding using the relative rotation between dynamic abrasive disk 11 and quiet abrasive disk 13, phase High speed compared with Disintegrating knife in the prior art is beaten, and grinding can make soya-bean milk grain size smaller, evenly, to improve soya-bean milk Mouthfeel；Meanwhile grinding slurrying and not requiring the rotating speed of dynamic abrasive disk 11 excessively high, therefore the rotating speed of drive component has also obtained appropriate drop It is low, to reduce noise when soy bean milk making machine work, improve user experience；And dynamic abrasive disk 11 is driven to revolve using magnetic force Turn, and magnetic drive belongs to contactless driving, so grinding assembly 10 is not necessarily to be in contact with the driving structure of soy bean milk making machine, to It solves the problems, such as to seal difficulty between 21 bottom of the rotary shaft of some soy bean milk making machines in the prior art and cup body.

Specifically, grinding assembly 10 includes that dynamic abrasive disk 11, rotary magnet 12 and quiet abrasive disk 13, quiet abrasive disk 13 are located at The lower section of dynamic abrasive disk 11, matches with dynamic abrasive disk 11, plays defibrination function, and 11 He of abrasive disk is moved when the materials such as bean or pea enter When between quiet abrasive disk 13, dynamic abrasive disk 11 rotates, and is mutually squeezed with quiet abrasive disk 13, to which the materials such as bean or pea are equal It is even meticulously to grind so that the grain size of soya-bean milk obtained is thinner, good in taste；Due to relying primarily on dynamic abrasive disk 11 and quiet grinding Disk 13 realizes slurrying to the crush and grind of the materials such as bean or pea, so do not require the rotating speed of dynamic abrasive disk 11 excessively high, in the slow-speed of revolution Under being fully ground for the materials such as bean or pea can be realized, compared with prior art, significantly reduce soy bean milk making machine work when noise, carry The high usage experience of user；Meanwhile grinding assembly 10 further includes rotary magnet 12, rotary magnet 12 can be in magnetic drive group It is rotated under the driving of part, and then drives and move the rotation of abrasive disk 11, to ensure that the magnetic force for realizing dynamic abrasive disk 11 drives It is dynamic.

Preferably, the upper surface of quiet abrasive disk 13 is equipped with the first guiding groove 131, for material to be ground in soy bean milk making machine Guiding is between dynamic abrasive disk 11 and quiet abrasive disk 13, as shown in Figure 2.

Preferably, the lower surface for moving abrasive disk 11 is equipped with the second guiding groove 111, for material to be ground in soy bean milk making machine Guiding is between dynamic abrasive disk 11 and quiet abrasive disk 13, as shown in Figure 2.

The upper surface of quiet abrasive disk 13 is equipped with the first guiding groove 131 so that shape between quiet abrasive disk 13 and dynamic abrasive disk 11 At a certain size gap, the materials such as bean or pea to be ground in soy bean milk making machine can be guided to quiet abrasive disk 13 and dynamic abrasive disk 11 Between, then move abrasive disk 11 rotate when, you can these materials are ground, the material after grinding under the drive of liquid along First guiding groove 131 flows out, at the same other materials to be ground continue to enter along the first guiding groove 131 move abrasive disk 11 with it is quiet Between abrasive disk 13.

Similarly, the lower surface for moving abrasive disk 11 is equipped with the second guiding groove 111, but also quiet abrasive disk 13 and dynamic abrasive disk 11 Between form a certain size gap, the materials such as bean or pea to be ground in soy bean milk making machine can equally be guided to quiet abrasive disk 13 with Between dynamic abrasive disk 11, specific process of lapping is identical as said program, and details are not described herein.

Preferably, it is equipped with guiding groove on the upper surface of quiet abrasive disk 13 and the lower surface of dynamic abrasive disk 11, such as Fig. 1 to figure Shown in 3, such drainage effect is more preferable, grinding efficiency higher.

Preferably, the upper surface of quiet abrasive disk 13 is equipped with rough layer.

Preferably, the lower surface for moving abrasive disk 11 is equipped with rough layer.

The upper surface of quiet abrasive disk 13 is equipped with rough layer, i.e. the upper surface of quiet abrasive disk 13 is uneven, in this way can be right The materials such as the bean or pea between quiet abrasive disk 13 and dynamic abrasive disk 11 carry out more fully more efficient grinding, to improve soy bean milk making machine Pulping efficiency reduces the stand-by period of user.

The lower surface of dynamic abrasive disk 11 is equipped with rough layer, that is, the lower surface for moving abrasive disk 11 is uneven, also can in this way The materials such as the bean or pea between quiet abrasive disk 13 and dynamic abrasive disk 11 carry out more fully more efficient grinding, to improve soy bean milk making machine Pulping efficiency, reduce the stand-by period of user.

In any of the above-described embodiment, rotary magnet 12 is built in dynamic abrasive disk 11, as shown in Figure 1 to Figure 3.

Preferably, rotary magnet 12 is arranged in the end of dynamic abrasive disk 11, as shown in Figure 1 to Figure 3.

Rotary magnet 12 is built in dynamic abrasive disk 11, i.e., the carrier of rotary magnet 12 is dynamic abrasive disk 11, then rotates When the driving that magnet 12 is driven structure is rotated, the dynamic abrasive disk 11 as carrier synchronizes rotation and realizes grinding Function, it is ensured that the synchronism of dynamic abrasive disk 11 and rotary magnet 12；And rotary magnet 12 is built in dynamic abrasive disk 11, is reduced The volume of grinding assembly 10, simplifies overall appearance, to reduce occupancy of the grinding assembly 10 to 21 capacity of cup body, favorably In the slurrying yield for improving soy bean milk making machine.

Rotary magnet 12 is arranged in the end of dynamic abrasive disk 11, i.e., the setting of rotary magnet 12 is in the radially phase of dynamic abrasive disk 11 At outer position, this is because under identical active force, rotary magnet 12 is more outer, and the torque of generation is bigger, thus Easier driving is moved abrasive disk 11 and is rotated around its own axis, and the rotary speed for improving dynamic abrasive disk 11 is conducive to.

Specifically, the quantity of rotary magnet 12 is multiple, and multiple rotary magnets 12 are uniformly distributed along the circumferential direction of dynamic abrasive disk 11.

Wherein, multiple rotary magnets 12 are equally divided into even number rotary magnet group, the rotary magnetic in each rotary magnet group The pole of body 12 is to the pole of identical and adjacent rotary magnet group to opposite.

The quantity of rotary magnet 12 is multiple, and multiple rotary magnets 12 are uniformly distributed along the circumferential direction of dynamic abrasive disk 11, such as along dynamic The circumferential direction of abrasive disk 11 is evenly distributed with multiple bar magnets, can effectively ensure that the circumferential of dynamic abrasive disk 11 is driven by uniform rotation Power, to ensure that dynamic abrasive disk 11 can rotate smoothly.

Multiple rotary magnets 12 are equally divided into even number rotary magnet group, i.e., are equipped with 2n rotary magnet in dynamic abrasive disk Group, wherein n is positive integer；The pole of rotary magnet 12 in each rotary magnet group is to identical and adjacent rotary magnet group Pole is on the contrary, this ensure that dynamic abrasive disk can be by effective magnetic drive；As for the specific shape of each rotary magnet 12 Shape is unrestricted, and the section of magnetic pole can be rectangle, arc, triangle etc..Such as：When each rotary magnet group only includes one When a rotary magnet 12, then the distribution form for moving the rotary magnet 12 in abrasive disk is：NS (n=1), NSNS (n=2), NSNSNS (n=3) ...；When each rotary magnet group includes two rotary magnets 12, then the rotary magnet in abrasive disk is moved 12 distribution form is：NNSS (n=1), NNSSNNSS (n=2), NNSSNNSSNNSS (n=3) ...；And so on, no It enumerates again.

In any of the above-described embodiment, rotary magnet 12 is permanent magnet.

Rotary magnet 12 is permanent magnet, such as natural crystal (magnetic iron ore) or artificial magnet's (alnico alloy), permanent magnet Can longer-term keep its magnetism, be not easy loss of excitation, be not easy to be magnetized, to ensure that grinding assembly 10 have good use Reliability, and there is longer service life.

In any of the above-described embodiment, it is solid block to move abrasive disk 11, as shown in Figure 1 to Figure 3.

Dynamic abrasive disk 11 is solid block, on the one hand increases the weight of dynamic abrasive disk 11, is conducive to dynamic abrasive disk 11 and presses Material is squeezed and ground on quiet abrasive disk 13；On the other hand can completely rotary magnet 12 be wrapped up by moving abrasive disk 11 Get up, both avoided rotary magnet 12 and polluted soya-bean milk, in turn avoiding the materials such as soya-bean milk or bean or pea influences rotary magnet 12；Meanwhile Also avoiding the insertion of the materials such as soya-bean milk and moving leads to that partial material fails grinding and grinding assembly 10 is difficult to clean in abrasive disk 11 Situation occurs.

As shown in Figure 1 to Figure 3, the soy bean milk making machine that the embodiment of the utility model second aspect provides, including：Control mainboard, Cup body component, head 30, the grinding assembly 10 of any one of such as first aspect embodiment and rotation driving magnet.

Specifically, the lid of head 30 is located on cup body component；Grinding assembly 10 is located in cup body 21, and the quiet of grinding assembly 10 is ground Mill 13 is installed in the bottom of cup body 21, and the dynamic abrasive disk 11 of grinding assembly 10 is pressed on quiet abrasive disk 13；Rotation driving magnetic Body 41 and the rotary magnet 12 of grinding assembly 10 are oppositely arranged, and for driving rotary magnet 12 to rotate, rotary magnet 12 are made to drive Dynamic abrasive disk 11 rotates, to grind the material in cup body 21.

The soy bean milk making machine that the embodiment of the utility model second aspect provides, including cup body component, head 30, first aspect are real The grinding assembly 10 and drive component of any one of example are applied, the quiet abrasive disk 13 of grinding assembly 10 is installed in the bottom of cup body 21, Dynamic abrasive disk 11 is pressed on quiet abrasive disk 13, be ensure that and is stablized cooperation between quiet abrasive disk 13 and dynamic abrasive disk 11, into And grinding assembly 10 can in cup body 21 steady operation；The rotation driving magnet 41 of drive component matches with rotary magnet 12 It closes, acts on rotary magnet 12 using rotation 41 changing magnetic field of driving magnet, you can driving rotary magnet 12 rotates, Jin Ershi It now drives and moves the rotation of abrasive disk 11；And the grain size smaller that slurrying makes soya-bean milk is ground, mouthfeel is more preferable, while reducing to dynamic grinding The requirement of 11 rotating speed of disk, reduces operating noise, and magnetic drive then solves between rotary shaft in the prior art and cup body 21 Sealing problem.

In some embodiments of the utility model, quiet abrasive disk 13 is an integral structure with cup body 21.

Quiet abrasive disk 13 is an integral structure with cup body 21, on the one hand enable quiet abrasive disk 13 and cup body 21 integrally at Type reduces the manufacturing cost of product to improve the production efficiency of product；On the other hand quiet abrasive disk 13 is ensured It will not be moved in cup body 21, stablize cooperation between quiet abrasive disk 13 and dynamic abrasive disk 11 to ensure that.

In other embodiments of the utility model, quiet abrasive disk 13 can releasably be connect with cup body 21.

Quiet abrasive disk 13 is detachably connected with cup body 21, i.e., quiet abrasive disk 13 and cup body 21 are split structure, pass through card Connect, the modes such as screw thread is screwed on, magnet attraction are fixed on the bottom of cup body 21, can equally ensure quiet abrasive disk 13 and dynamic abrasive disk 11 Between stablize cooperation.

In any of the above-described embodiment, rotation driving magnet 41 is permanent magnet, and rotation driving magnet 41 is fixed on disk, Disk is connected with motor 42, and motor 42 is electrically connected with control mainboard 31, to drive rotation driving under the control of control mainboard 31 Magnet 41 rotates.

Rotation driving magnet 41 is permanent magnet, and permanent magnet is connected by motor 42 with control mainboard 31, i.e. motor 42 and control Mainboard 31 processed is electrically connected, and the output shaft of disk and motor 42 is mechanically connected, and permanent magnet is fixed on disk, and output shaft, which is powered, to be revolved Turn, drives rotation driving magnet 41 to rotate, to generate changing magnetic field, and then act on rotary magnet 12, make rotary magnet 12 It drives and moves the rotation of abrasive disk 11, realize magnetic drive.

Specifically, the quantity of rotation driving magnet 41 is multiple, and multiple rotation driving magnets 41 are uniformly distributed along the circumferential direction of disk.

Wherein, multiple rotation driving magnets 41 are equally divided into even number rotation driving magnet group, each rotate driving magnet The pole of rotation driving magnet 41 in group is to the pole of identical and adjacent rotation driving magnet group to opposite.

The quantity for rotating driving magnet 41 is multiple, and multiple rotation driving magnets 41 are uniformly distributed along the circumferential direction of disk, such as edge The circumferential direction of disk is evenly distributed with multiple bar magnets, can effectively ensure that the circumferential by uniform driving force of dynamic abrasive disk 11, thus It ensure that dynamic abrasive disk 11 can rotate smoothly.

Multiple rotation driving magnets 41 are equally divided into even number rotation driving magnet group, i.e., a equipped with 2n in dynamic abrasive disk 11 Rotate driving magnet group, wherein n is positive integer；The pole of rotation driving magnet 41 in each rotation driving magnet group to identical, And the pole of adjacent rotation driving magnet group is on the contrary, this ensure that be crushed to can be by effective magnetic drive；As for The concrete shape of each rotation driving magnet 41 is unrestricted, and the section of magnetic pole can be rectangle, arc, triangle etc..Than Such as：When each rotation driving magnet group only includes a rotation driving magnet 41, then the distribution form of driving magnet 41 is rotated For：NS (n=1), NSNS (n=2), NSNSNS (n=3) ...；When each rotation driving magnet group includes that two rotations drive When magnet 41, then the distribution form for moving the rotation driving magnet 41 in abrasive disk 11 is：NNSS (n=1), NNSSNNSS (n= 2), NNSSNNSSNNSS (n=3) ...；And so on, it will not enumerate.

Preferably, the quantity of rotation driving magnet 41 is equal with the quantity of rotary magnet 12 in dynamic abrasive disk 11, and one One corresponds to, and when dynamic abrasive disk 11 is put into cup body in this way, according to the attracting principle of different name of the same name of repelling each other, moving abrasive disk 11 can be automatically To just, ensureing that its embedded rotary magnet 12 can be by effective magnetic force, and then ensure that it is rotated smoothly.

The concrete structure and principle of soy bean milk making machine provided by the present application are described in detail with reference to some specific embodiments.

Embodiment one (as shown in Figure 1)

Soy bean milk making machine is magnetic drive abrasive disk type soy bean milk making machine, including control mainboard, cup body component, head 30, grinding assembly 10 With rotation driving magnet.21 bottom of cup body is equipped with quiet abrasive disk 13, and the upper surface of quiet abrasive disk 13 is equipped with the first guiding groove 131； Dynamic abrasive disk 11 is placed in cup body 21, the lower surface for moving abrasive disk 11 is equipped with the second guiding groove 111；Dynamic abrasive disk 11 is embedded with Rotary magnet 12, and rotary magnet 12 is permanent magnet；Cup body is externally provided with shell 22, interlayer is formed between shell 22 and cup body, outside 22 side wall of shell is equipped with handle 221, and 21 lower section of cup body is equipped with heat-generating pipe 50.

Motor 42 and rotation driving magnet 41 are arranged in head 30, and positioned at the top of grinding assembly 10, motor 42 It is coaxially connected with disk；And the pole of driving magnet 41 and rotary magnet 12 is rotated in axial direction and mutually exclusive, it will move Abrasive disk 11 is pressed on the bottom of cup body 21.

Motor 42 and rotation driving magnet 41 are arranged in head 30, and are respectively positioned on the top of grinding assembly 10, and motor 42 is coaxially connected with disk, i.e. the center of disk is connected directly between on the output shaft of motor 42, in this way, the output shaft rotation of motor 42 Turn, rotation driving magnet 41 is directly driven to rotate, to generate changing magnetic field, and then driving is moved abrasive disk 11 and rotated.

Rotation driving magnet 41 is located at the top of grinding assembly 10, and rotate the pole of driving magnet 41 and rotary magnet 12 to It is in axial direction and mutually exclusive, i.e.,：It is same to rotate 41 magnetic pole directed downwardly of driving magnet with the magnetic pole of rotary magnet 12 upward Name magnetic pole (for example all be the poles N or be all the poles S) will be moved using the repulsive force between rotation driving magnet 41 and rotary magnet 12 and be ground Mill 11 is pressed on the bottom of cup body 21, and ensureing to move can mutually squeeze between abrasive disk 11 and quiet abrasive disk 13, and then to two Material between person carries out sufficiently effective grinding.

During the work time, motor 42 is controlled by control mainboard 31, and motor 42 drives rotation driving magnet 41 to rotate；Rotation The interaction of rotary magnet 12 that driving magnet 41 is embedded with dynamic abrasive disk 11 forms repulsion, and drives dynamic grind by magneticaction Mill 11 rotates.

Quiet abrasive disk 13 is fixed on 21 intracavity bottom of cup body, and the interaction of quiet abrasive disk 13 and dynamic abrasive disk 11, which is realized, grinds Slurry；The second guiding groove 111 being arranged on the first guiding groove 131 and dynamic abrasive disk 11 being arranged on quiet abrasive disk 13 can draw bean or pea Enter into grinding system.

Embodiment two (as shown in Figure 2)

With embodiment one difference lies in：Motor 42 and rotation driving magnet 41 are arranged at outside cup body, and positioned at grinding The lower section of component 10, motor 42 and disk are coaxially connected；And the pole of driving magnet 41 and rotary magnet 12 is rotated to side in an axial direction To and attract each other, dynamic abrasive disk 11 is pressed on to the bottom of cup body 21.

Motor 42 and rotation driving magnet 41 are arranged outside cup body, and are respectively positioned on the lower section of grinding assembly 10, and motor 42 Coaxially connected with disk, i.e. the center of disk is connected directly between on the output shaft of motor 42, in this way, the output shaft rotation of motor 42 Turn, rotation driving magnet 41 is directly driven to rotate, to generate changing magnetic field, and then driving is moved abrasive disk 11 and rotated.

Rotation driving magnet 41 is located at the lower section of grinding assembly 10, and rotate the pole of driving magnet 41 and rotary magnet 12 to It in axial direction and attracts each other, i.e.,：It is different to rotate 41 magnetic pole directed downwardly of driving magnet with the magnetic pole of rotary magnet 12 upward Name magnetic pole (for example being respectively the poles N and the poles S, or the respectively poles S and the poles N), using rotation driving magnet 41 and rotary magnet 12 it Between attraction dynamic abrasive disk 11 is pressed on to the bottom of cup body 21, ensure it is dynamic being capable of phase between abrasive disk 11 and quiet abrasive disk 13 It mutually squeezes, and then sufficiently effective grinding is carried out to material between the two.

During the work time, motor 42 is controlled by control mainboard 31, and motor 42 drives rotation driving magnet 41 to rotate；Rotation The interaction of rotary magnet 12 that driving magnet 41 is embedded with dynamic abrasive disk 11 forms attraction, and is driven and moved by magneticaction Abrasive disk 11 rotates.

Quiet abrasive disk 13 is fixed on 21 intracavity bottom of cup body, and the interaction of quiet abrasive disk 13 and dynamic abrasive disk 11, which is realized, grinds Slurry；The second guiding groove 111 being arranged on the first guiding groove 131 and dynamic abrasive disk 11 being arranged on quiet abrasive disk 13 can draw bean or pea Enter into grinding system.

Three (not shown) of embodiment

Difference with embodiment one exists：Motor 42 and rotation driving magnet 41 are arranged at outside cup body, and are located at and are ground The side and below of component 10 is ground, motor 42 is connected by belt with disk；And rotate driving magnet 41 and 12 phase of rotary magnet Mutually repel, dynamic abrasive disk 11 is pressed on to the bottom of cup body 21.

Motor 42 and rotation driving magnet 41 are arranged outside cup body, and are located at the side and below of grinding assembly 10, I.e. motor 42 is located at the side of grinding assembly 10, and rotation driving magnet 41 is located at the lower section of grinding assembly 10, so motor 42 Output shaft cannot directly be rotated with movable magnetic disc, therefore add gear between the output shaft and disk of motor 42, utilize gear Transmission, you can realize the rotation of rotation driving magnet 41；And in this way, the height of soy bean milk making machine can be reduced, optimize product Appearance；And it has been significantly expanded the structure type of product, it is carried out according to the concrete structure of product and user demand convenient for technical staff Rational deployment.

Its course of work and principle and embodiment one are essentially identical, and details are not described herein.

Example IV (not shown)

With embodiment one difference lies in：Motor 42 and rotation driving magnet 41 are arranged at outside cup body, and are located at The side and below of grinding assembly 10, motor 42 are connected by gear with disk；And rotate driving magnet 41 and rotary magnet 12 It is mutually exclusive, dynamic abrasive disk 11 is pressed on to the bottom of cup body 21.

Motor 42 and rotation driving magnet 41 are arranged outside cup body 31, and are located at the side of grinding assembly 10 under Side, i.e. motor 42 are located at the side of grinding assembly 10, and rotation driving magnet 41 is located at the lower section of grinding assembly 10, so motor 42 Output shaft cannot directly drive rotation driving magnet 41 rotate, therefore the output shaft of motor 42 with rotation driving magnet 41 it Between add belt, utilize the transmission of belt, you can realize rotation driving magnet 41 rotation；And in this way, it can also reduce The height of soy bean milk making machine optimizes the appearance of product；Also it has been significantly expanded the structure type of product, convenient for technical staff according to product Concrete structure and user demand carry out rational deployment.

Its course of work and principle and embodiment one are essentially identical, and details are not described herein.

In aforementioned four embodiment, rotation driving magnet 41 is matched with rotary magnet 12, is both played to dynamic abrasive disk 11 The effect of magnetic drive, and play the role of pressure to dynamic abrasive disk 11 and limit position, to ensure that dynamic abrasive disk 11 with it is quiet Effective cooperation between abrasive disk 13, it is reasonable for structure, it is skillfully constructed；And dynamic abrasive disk 11 is pressed on quiet abrasive disk using magnetic force On 13, the effect that flexible pressure is set is produced, not only ensure that effective cooperation between dynamic abrasive disk 11 and quiet abrasive disk 13, but also ensure Dynamic abrasive disk 11 is capable of the axial floating that certain amplitude occurs for relatively quiet abrasive disk 13, in order to which the materials such as bean or pea both enter Between；And dynamic abrasive disk 11 can take out from cup body 21, be kept completely separate with quiet abrasive disk 13, abrasive disk is moved convenient for cleaning comprehensively 11, quiet abrasive disk 13 and cup body 21.

Certainly, it will be understood by those of skill in the art that dynamic abrasive disk 11 can also be pressed on quiet grind by other means On mill 13 (for example quiet abrasive disk 13 is equipped with rotary shaft, rotary shaft is equipped with limiting section, and dynamic abrasive disk 11 is set in rotary shaft On, and between limiting section and quiet abrasive disk 13, limiting section can effectively avoid quiet abrasive disk 13 from rising, dynamic to ensure that Effective cooperation between abrasive disk 11 and quiet abrasive disk 13), it will not enumerate herein, since these embodiments can be realized The purpose of this utility model, and design philosophy and objective without being detached from the utility model, thus should all be in the utility model In protection domain.

In conclusion grinding assembly provided by the utility model, instead of dynamic abrasive disc in the prior art, using dynamic Relative rotation between abrasive disk and quiet abrasive disk and mutually extruding are ground the materials such as bean or pea, compared to the prior art in The high speed of dynamic abrasive disc is beaten, and grinding can make soya-bean milk grain size smaller, evenly, to improve the mouthfeel of soya-bean milk；Meanwhile it grinding Grinding slurry does not require the rotating speed of dynamic abrasive disk excessively high, therefore the rotating speed of drive component has also obtained appropriate reduction, to reduce Noise when soy bean milk making machine works, improves user experience；And dynamic grinding disc spins are driven using magnetic force, and magnetic drive belongs to Contactless driving, so grinding assembly has without being in contact with the driving structure of soy bean milk making machine to solve in the prior art Difficult problem is sealed between the rotary shaft and bottom of cup of a little soy bean milk making machines.

In the present invention, term " first ", " second ", " third ", " the 4th " are only used for the purpose described, and cannot It is interpreted as indicating or implying relative importance；Term " multiple " then refers to two or more, unless otherwise restricted clearly.Art The terms such as language " installation ", " connected ", " connection ", " fixation " shall be understood in a broad sense, for example, " connection " may be a fixed connection, It may be a detachable connection, or be integrally connected；" connected " can be directly connected, and can also pass through the indirect phase of intermediary Even.For the ordinary skill in the art, it can understand above-mentioned term in the present invention as the case may be Concrete meaning.

In the description of the utility model, it is to be understood that the fingers such as term "upper", "lower", "left", "right", "front", "rear" The orientation or positional relationship shown be based on the orientation or positional relationship shown in the drawings, be merely for convenience of description the utility model and Simplify description, specific direction must be had, with specific azimuth configuration by not indicating or implying the indicated device or unit And operation, it is thus impossible to be construed as a limitation of the present invention.

In the description of this specification, the description of term " one embodiment ", " some embodiments ", " specific embodiment " etc. Mean that particular features, structures, materials, or characteristics described in conjunction with this embodiment or example are contained at least the one of the utility model In a embodiment or example.In the present specification, schematic expression of the above terms are not necessarily referring to identical embodiment Or example.Moreover, the particular features, structures, materials, or characteristics of description can be in any one or more embodiments or example In can be combined in any suitable manner.

The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, for this For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model Within, any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.

Claims (11)

1. a kind of grinding assembly is used for soy bean milk making machine, which is characterized in that including：

Dynamic abrasive disk；

Rotary magnet is matched with the dynamic abrasive disk, for driving the dynamic grinding disc spins；With

Quiet abrasive disk is located at the lower section of the dynamic abrasive disk, and when the rotary magnet drive dynamic grinding disc spins, described Quiet abrasive disk is mutually squeezed with the dynamic abrasive disk, to grind the material in the soy bean milk making machine.

2. grinding assembly according to claim 1, which is characterized in that

The upper surface of the quiet abrasive disk is equipped with the first guiding groove, for material to be ground in the soy bean milk making machine to be guided to institute It states between abrasive disk and the quiet abrasive disk；And/or

The lower surface of the dynamic abrasive disk is equipped with the second guiding groove, for material to be ground in the soy bean milk making machine to be guided to institute It states between abrasive disk and the quiet abrasive disk.

3. grinding assembly according to claim 1, which is characterized in that

The upper surface of the quiet abrasive disk is equipped with rough layer；And/or

The lower surface of the dynamic abrasive disk is equipped with rough layer.

4. grinding assembly according to any one of claim 1 to 3, which is characterized in that

The rotary magnet is built in the dynamic abrasive disk.

5. grinding assembly according to claim 4, which is characterized in that

The quantity of the rotary magnet is multiple, and multiple rotary magnets are uniformly distributed along the circumferential direction of the dynamic abrasive disk.

6. grinding assembly according to any one of claim 1 to 3, which is characterized in that

The rotary magnet is permanent magnet.

7. a kind of soy bean milk making machine, which is characterized in that including：

Control mainboard；

Cup body component, including cup body；

Head, lid are located on the cup body component；

Such as grinding assembly according to any one of claims 1 to 6, it is located in the cup body, the quiet grinding of the grinding assembly Disk is installed in the bottom of the cup body, and the dynamic abrasive disk of the grinding assembly is pressed on the quiet abrasive disk；

Driving magnet is rotated, is oppositely arranged with the rotary magnet of the grinding assembly, for driving the rotary magnet to rotate, is made The rotary magnet drives the dynamic grinding disc spins, to grind the material in the cup body.

8. soy bean milk making machine according to claim 7, which is characterized in that

The rotation driving magnet is permanent magnet, and the rotation driving magnet is fixed on disk, the disk and motor it is defeated Shaft is connected, and the motor is electrically connected with the control mainboard, to drive the rotation to drive under the control of the control mainboard Dynamic magnet rotation.

9. soy bean milk making machine according to claim 8, which is characterized in that

The motor and the rotation driving magnet are arranged in the head, and positioned at the top of the grinding assembly, institute It states motor and the disk is coaxially connected, and the pole of the rotation driving magnet and the rotary magnet is to the axis along the cup body To direction；Or

The motor and the rotation driving magnet are arranged at the lower section of the cup body, and the motor coaxially connects with the disk It connects, and the pole of the rotation driving magnet and the rotary magnet is to the axial direction along the cup body；Or

The motor and the rotation driving magnet are arranged at outside the cup body, and are located at the side of the grinding assembly And lower section, the motor are connected by belt with the disk, and it is described rotation driving magnet and the rotary magnet pole to Along the axial direction of the cup body；Or

The motor and the rotation driving magnet are arranged at outside the cup body, and are located at the side of the grinding assembly And lower section, the motor are connected by gear with the disk, and it is described rotation driving magnet and the rotary magnet pole to Along the axial direction of the cup body.

10. the soy bean milk making machine according to any one of claim 7 to 9, which is characterized in that

The rotation driving magnet is located at the top of the grinding assembly, and the rotation driving magnet and the rotary magnet Pole is to along the axial direction of the cup body and mutually exclusive, the dynamic abrasive disk is pressed on the quiet abrasive disk；Or

The rotation driving magnet is located at the lower section of the grinding assembly, and the rotation driving magnet and the rotary magnet The dynamic abrasive disk is pressed on the quiet abrasive disk by pole to along the axial direction of the cup body and attracting each other.

11. the soy bean milk making machine according to any one of claim 7 to 9, which is characterized in that

The quiet abrasive disk is an integral structure with the cup body.