CN109419390B - Stirring cutter assembly, driving magnetic disc assembly and food processor - Google Patents

Abstract

The invention provides a stirring cutter component, a driving magnetic disc component and a food processor, wherein the stirring cutter component comprises: the box body is in a cylindrical shape with one open end and the other closed end; the cutter seat covers the box body to form a closed cavity; the stirring cutter comprises a cutter shaft and a blade, the cutter shaft is rotatably arranged on the cutter holder, and the blade is positioned above the cutter holder and is connected with one end of the cutter shaft; the driven magnetic disc assembly is positioned below the cutter holder, is connected with the other end of the cutter shaft, and comprises a first magnetic disc support and a first magnetic part arranged on the first magnetic disc support along the circumferential direction; wherein, the first disk holder and/or the box body are provided with prying point structures at one side back to the blade. According to the stirring cutter component, the prying point structure is arranged on one side, back to the blade, of the first magnetic disk support, the driven magnetic disk component is separated from other sundries through the prying point structure, and in the same way, the stirring cutter component is separated from other sundries through the prying point structure, so that the daily life of a user is facilitated.

Description

Stirring cutter assembly, driving magnetic disc assembly and food processor

Technical Field

The invention relates to the field of household appliances, in particular to a stirring cutter assembly, a driving disc assembly and a food processor.

Background

In the correlation technique, magnetic drive can realize food processor shaftless design because of having the advantage of non-contact transmission, conveniently dismantles the washing, has very wide application prospect, but the magnetic disc subassembly that magnetic drive adopted has very strong magnetism, can attract peripheral material, for example: when the magnetic disc assembly is taken out for cleaning, the magnetic disc assembly adsorbs a water tank and the like, iron tableware and the like are difficult to separate if not placed properly, and serious people even injure users due to excessive force required for separation, thereby causing great inconvenience in life.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art.

To this end, in a first aspect embodiment of the present invention, an easily accessible blending tool assembly is provided.

In a second aspect of embodiments of the present invention, a drive disc assembly is provided that is easily accessible.

In a third aspect of the present invention, a food processor is provided.

In view of the above, according to an embodiment of the first aspect of the present invention, the present invention provides a stirring tool assembly, including: the box body is in a cylindrical shape with one open end and the other closed end; the cutter seat covers the box body to form a closed cavity; the stirring cutter comprises a cutter shaft and a blade, the cutter shaft is rotatably arranged on the cutter holder, and the blade is positioned above the cutter holder and is connected with one end of the cutter shaft; the driven magnetic disc assembly is positioned below the cutter holder, is connected with the other end of the cutter shaft, and comprises a first magnetic disc support and a first magnetic part arranged on the first magnetic disc support along the circumferential direction; wherein, one side of the first disk bracket and/or the box body back to the blade is provided with a prying point structure; the first disk support is a rotary structure.

The stirring cutter component provided by the invention has the advantages that the prying point structure is arranged on one side of the first disk bracket, which is back to the blade, so that the driven disk component can be separated from other impurities through the prying point structure when the driven disk component is taken out and adsorbed with other impurities, and similarly, the prying point structure is arranged on one side of the box body, which is back to the blade, so that the stirring cutter component can be separated from other impurities through the prying point structure when the stirring cutter component is adsorbed with other impurities, and the blade can also be placed upwards by a user habitually, so that the side, which is back to the blade, of the driven disk component and/or the box body is easier to adsorb other impurities and is less easy to separate from the adsorbed impurities, therefore, the prying point structure is arranged on one side, which is back to the blade, of the driven disk component and/or the box body, and can effectively avoid the problems, make from the magnetic disc subassembly more convenient with taking of stirring cutter subassembly, made things convenient for user's daily life, avoided the potential safety hazard, promoted user's use and experienced, simultaneously, set up first magnetic disc support into revolution mechanic, more do benefit to the rotation of first magnetic disc support, guarantee the rotatory effect of blade.

In addition, the stirring cutter component in the above embodiment provided by the invention may further have the following additional technical features:

in the above technical solution, preferably, an end surface of the first disk holder facing away from the blade is provided with a first magnetic groove, and the first magnetic member is installed in the first magnetic groove.

In this technical scheme, through installing first magnetism spare in first magnetic tank, and then realized the fixed to first magnetism spare position to, when having guaranteed first disk support intensity, reduced the holistic thickness of driven disc subassembly.

In any of the above technical solutions, preferably, the prying point structure is an annular diameter contraction portion disposed at the bottom edge of the first disk support or at least two notches disposed at the bottom edge of the first disk support; or the prying point structure is a chamfer arranged at the bottom edge of the first disk support; or the pry point structure is a first protrusion disposed on the bottom wall of the first disk holder.

In the technical scheme, the prying point structure is arranged to be the annular diameter contraction part positioned on the bottom edge of the first disk support or the at least two notches arranged on the bottom edge of the first disk support, when the bottom of the first disk support is adsorbed on other sundries, a tool extends into the notch structure or the contraction part, and a lever principle is applied to pry the driven disk assembly from the other sundries, so that the daily life of a user is facilitated, potential safety hazards are avoided, and the use experience of the user is improved; or the prying point structure is arranged to be a chamfer positioned at the edge of the bottom of the first disk support, and a concave structure is formed between the bottom of the first disk support and the side wall of the first disk support due to the chamfer structure, so that when the bottom of the first disk support is adsorbed on other sundries, a tool extends into the concave structure formed by the chamfer, and the lever principle is applied to pry the driven disk assembly from the other sundries, so that the daily life of a user is facilitated, the potential safety hazard is avoided, and the use experience of the user is improved; or, the prying point structure is set as a first bulge positioned on the bottom wall of the first disk support, wherein when one or two first bulges are arranged on the bottom wall of the first disk support, the first bulge is equivalent to a fulcrum of a lever, so that the driven disk assembly keeps inclining constantly when being placed, and gaps are formed between the bottom wall of the first disk support and other sundries, when the bottom wall of the first disk support is adsorbed on other sundries, a tool is extended into the gap formed by the first bulge, and the driven disk assembly is pried away from other sundries by applying the lever principle, or when three or more than three first bulges are arranged on the bottom wall of the first disk support, the bottom wall of the first disk support is far away from other sundries, so that gaps are formed between the bottom wall of the first disk support and other sundries, and when the bottom wall of the first disk support is adsorbed on other sundries, the tool is extended into the gap formed by the first bulge, use lever principle, will follow the magnetic disc subassembly and prize from other debris, made things convenient for user's daily life, avoided the potential safety hazard, promoted user's use and experienced.

In any one of the above technical solutions, preferably, the bottom surface of the first protrusion is an arc surface.

In this technical scheme, through setting up first bellied bottom surface into the cambered surface, when first arch and other debris contact, only few partial contact, and from having reduced the adsorption strength of first arch and other debris, and then the separation of convenient driven disc subassembly and other debris.

In any of the above technical solutions, preferably, the prying point structure is an annular diameter contraction part or at least two notches arranged at the bottom edge of the box body; or the prying point structure is a chamfer arranged at the bottom edge of the box body; or the prying point structure is a second protrusion arranged on the bottom wall of the box body.

In the technical scheme, the prying point structure is set to be the annular diameter contraction part positioned at the edge of the bottom of the box body or at least two notches arranged at the edge of the bottom of the box body, when the bottom of the box body is adsorbed on other sundries, a tool extends into the notch structure or the contraction part, and the lever principle is applied to pry the box body away from the other sundries, so that the daily life of a user is facilitated, potential safety hazards are avoided, and the use experience of the user is improved; or the prying point structure is arranged to be the chamfer positioned at the edge of the bottom of the box body, and the chamfer structure enables the recessed structure to be formed between the bottom of the box body and the side wall of the bottom of the box body, so that when the bottom of the box body is adsorbed on other sundries, a tool extends into the recessed structure formed by the chamfer, and the stirring cutter assembly is pried away from the other sundries by applying the lever principle, thereby facilitating the daily life of a user, avoiding potential safety hazards and improving the use experience of the user; or, the prying point structure is set as a second bulge positioned on the bottom wall of the box body, wherein when one or two second bulges are arranged on the bottom wall of the box body, the second bulge is equivalent to a fulcrum of the lever, so that the stirring cutter assembly keeps inclining constantly when being placed, gaps are formed between the bottom wall of the box body and other sundries, when the bottom wall of the box body is adsorbed on other sundries, a tool is extended into the gap formed by the second bulge, the stirring cutter assembly is pried from other sundries by applying the lever principle, or when three or more second bulges are arranged on the bottom wall of the box body, the bottom wall of the box body is far away from other sundries, gaps are formed between the bottom wall of the box body and other sundries, when the bottom wall of the box body is adsorbed on other sundries, the tool is extended into the gap formed by the second bulges, and the stirring cutter assembly is pried from other sundries by applying the lever principle, the daily life of the user is facilitated, the potential safety hazard is avoided, and the use experience of the user is improved.

In any one of the above technical solutions, preferably, the bottom surface of the second protrusion is an arc surface.

In this technical scheme, through setting up the bellied bottom surface of second into the cambered surface, when the contact of second arch and other debris, only few partial contact, and from having reduced the second arch and other debris's adsorption strength, and then make things convenient for the separation of stirring cutter subassembly and other debris.

In accordance with a second aspect of the present invention, there is provided a drive disc assembly comprising: a second magnetic member; the second magnetic piece is arranged on the second disk support along the circumferential direction; wherein, the second disk support is provided with a prying point structure; the second disk support is a rotary structure.

According to the driving magnetic disk assembly provided by the invention, the prying point structure is arranged on the second magnetic disk support, so that the driven magnetic disk assembly can be separated from other impurities through the prying point structure when the driving magnetic disk assembly is taken out and adsorbed with other impurities, a user can take the driving magnetic disk assembly more conveniently, the daily life of the user is facilitated, the potential safety hazard is avoided, the use experience of the user is improved, meanwhile, the second magnetic disk support is arranged to be a rotary structure, the rotation of the second magnetic disk support is facilitated, and the rotation effect of a blade is ensured.

In any of the above solutions, preferably, the prying point structure is an annular diameter narrowing portion provided at the top edge of the second disk holder or at least two notches provided at the top edge of the second disk holder; or the prying point structure is a chamfer arranged at the top edge of the second disk support; or the pry point structure is a third protrusion disposed on the top wall of the second disk support.

In the technical scheme, the prying point structure is arranged to be the annular diameter contraction part located at the edge of the top of the second disk support or the at least two notches arranged at the edge of the top of the second disk support, when the top of the second disk support is adsorbed on other sundries, the tool extends into the notch structure or the contraction part, and the lever principle is applied to pry the drive disk assembly away from the other sundries, so that the daily life of a user is facilitated, the potential safety hazard is avoided, and the use experience of the user is improved; or the prying point structure is arranged to be a chamfer positioned at the edge of the top of the second disk support, and a concave structure is formed between the top of the second disk support and the side wall of the second disk support due to the chamfer structure, so that when the top of the second disk support is adsorbed on other sundries, a tool is stretched into the concave structure formed by the chamfer, and the lever principle is applied to pry the drive disk assembly from the other sundries, so that the daily life of a user is facilitated, potential safety hazards are avoided, and the use experience of the user is improved; or, the prying point structure is set to be a third bulge positioned on the top wall of the second disk support, wherein when one or two third bulges are arranged on the top wall of the second disk support, the third bulge is equivalent to a fulcrum of a lever, so that the driving disk assembly keeps inclining constantly when being placed, and gaps are formed between the top wall of the second disk support and other sundries, when the top wall of the second disk support is adsorbed on other sundries, a tool is extended into the gap formed by the third bulge, and the driving disk assembly is pried away from other sundries by applying the lever principle, or when three or more than three third bulges are arranged on the top wall of the second disk support, the top wall of the second disk support is far away from other sundries, so that gaps are formed between the top wall of the second disk support and other sundries, and when the top wall of the second disk support is adsorbed on other sundries, the tool is extended into the gap formed by the third bulge, the lever principle is applied, the drive magnetic disc assembly is pried away from other sundries, the daily life of a user is facilitated, the potential safety hazard is avoided, and the use experience of the user is improved.

In any one of the above technical solutions, preferably, the top surface of the third protrusion is an arc surface.

In this technical scheme, through setting up the bellied bottom surface of third into the cambered surface, when the contact of third arch and other debris, only few partial contact, and from having reduced the adsorption strength of third arch and other debris, and then make things convenient for the separation of stirring cutter subassembly and other debris.

In any one of the above technical solutions, preferably, one end surface of the second disk holder is provided with a connection column, the other end surface of the second disk assembly is provided with a second magnetic slot, and the second magnetic member is installed in the second magnetic slot.

In the technical scheme, the second magnetic part is arranged in the second magnetic groove, so that the position of the second magnetic part is fixed, and the thickness of the whole drive disc assembly is reduced while the strength of the second disc support is ensured.

According to a third aspect of embodiments of the present invention, there is provided a food processor comprising: a machine base; the cup body is arranged on the base; the motor is arranged in the base; the stirring tool assembly according to any one of the preceding claims; and/or a drive disc assembly as described in any of the previous claims; wherein, the stirring cutter component is arranged in the cup body; the drive disc assembly is connected with an output shaft of the motor.

The food processor provided by the invention comprises the stirring cutter component in any one of the technical schemes; and/or a drive disc assembly as claimed in any preceding claim, thereby having a stirring tool assembly as claimed in any preceding claim; and/or all of the benefits of the drive disc assembly according to any of the above-described aspects, which are not further recited herein.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic diagram of a stirring tool assembly according to an embodiment of the present invention;

FIG. 2 shows a schematic diagram of the construction of a driven disc assembly in the stirring tool assembly shown in FIG. 1;

FIG. 3 is a schematic structural view of a stirring tool assembly according to another embodiment of the present invention;

FIG. 4 shows a schematic diagram of the construction of a driven disc assembly in the stirring tool assembly shown in FIG. 3;

FIG. 5 is a schematic structural view of a stirring tool assembly according to another embodiment of the present invention;

FIG. 6 shows a schematic diagram of the construction of a driven disc assembly in the stirring tool assembly shown in FIG. 5;

FIG. 7 is a schematic diagram of a drive disk assembly according to an embodiment of the present invention;

FIG. 8 is a schematic diagram of a drive disc assembly according to another embodiment of the present invention;

FIG. 9 is a schematic diagram of a drive disc assembly according to another embodiment of the present invention;

fig. 10 is a schematic structural diagram of a food processor according to an embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the part names in fig. 1 to 10 is:

1 food processor, 12 stirring cutter assembly, 122 driven disk assembly, 1222 first disk support, 1224 first magnetic element, 124 box, 126 blade seat, 128 stirring cutter, 1282 blade, 1284 arbor, 202 constriction, 204 chamfer, 206 first protrusion, 208 second protrusion, 210 third protrusion, 30 driving disk assembly, 302 second disk support, 304 second magnetic element, 306 connecting column, 40 base, 50 cup, 60 motor.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

The blending tool assembly 12, drive disc assembly 30 and food processor 1 according to some embodiments of the present invention are described below with reference to fig. 1-10.

As shown in fig. 1 to 6, according to a first aspect embodiment of the present invention, there is provided a stirring tool assembly 12 including: a case 124 having a cylindrical shape with one open end and the other closed end; the cutter seat 126 is used for covering the box body 124 to form a closed cavity; the stirring cutter 128 comprises a cutter shaft 1284 and a cutter blade 1282, the cutter shaft 1284 is rotatably arranged on the cutter seat 126, and the cutter blade 1282 is positioned above the cutter seat 126 and connected with one end of the cutter shaft 1284; a driven disk assembly 122, which is located below the tool holder 126, is connected to the other end of the knife shaft 1284, and includes a first disk support 1222 and a first magnetic member 1224 circumferentially disposed on the first disk support 1222; wherein, a pry point structure is arranged on one side of the first disk support 1222 and/or the box body 124 opposite to the blade 1282; the first disk holder 1222 is a swing structure.

In the stirring cutter component 12 provided by the invention, the prying point structure is arranged on the side of the first disk support 1222 opposite to the blade 1282, so that after the driven disk component 122 is taken out and adsorbed with other impurities, the driven disk component 122 can be separated from other impurities through the prying point structure, similarly, the prying point structure is arranged on the side of the box body 124 opposite to the blade 1282, so that when the stirring cutter component 12 is adsorbed with other impurities, the stirring cutter component 12 can be separated from other impurities through the prying point structure, and a user habitually places the blade 1282 upwards, so that other impurities can be adsorbed more easily on the side of the driven disk component 122 and/or the box body 124 opposite to the blade 1282, and can be separated from the adsorbed impurities more easily, so that the prying point structure is arranged on the side of the driven disk component 122 and/or the box body 124 opposite to the blade 1282, can avoid above-mentioned problem effectively for taking of driven magnetic disc subassembly 122 and stirring cutter subassembly 12 is more convenient, has made things convenient for user's daily life, has avoided the potential safety hazard, has promoted user's use and has experienced, simultaneously, sets up first disk support 1222 to revolution mechanic, more does benefit to first disk support 1222 rotatory, guarantees the rotatory effect of blade 1282.

In one embodiment of the present invention, preferably, as shown in fig. 1 to 6, an end surface of the first disk support 1222 facing away from the blade 1282 is provided with a first magnetic groove, and the first magnetic member 1224 is installed in the first magnetic groove.

In this embodiment, by installing the first magnetic member 1224 in the first magnetic groove, the position of the first magnetic member 1224 is fixed, and the thickness of the entire driven disk assembly 122 is reduced while the strength of the first disk holder 1222 is ensured.

In one embodiment of the present invention, the pry point structure is preferably an annular diameter constriction 202 disposed at the bottom edge of the first disk support 1222, as shown in fig. 6.

In this embodiment, the prying point structure is set to be the annular diameter contraction part 202 located at the bottom edge of the first disk support 1222, when the bottom of the first disk support 1222 is adsorbed on other sundries, a tool is stretched into the contraction part 202, the lever principle is applied, the driven disk assembly 122 is pried away from other sundries, convenience is brought to daily life of a user, potential safety hazards are avoided, and the use experience of the user is improved.

In another embodiment of the present invention, the pry point structure is preferably at least two notches disposed in the bottom edge of the first disk support 1222.

In this embodiment, through setting up the sled point structure to two at least breachs of setting at first disk support 1222 bottom edge, when first disk support 1222 bottom adsorbs on other debris, stretch into the breach structure with the instrument in, use lever principle, prize from disk assembly 122 from other debris, made things convenient for user's daily life, avoided the potential safety hazard, promoted user's use and experienced.

In another embodiment of the present invention, the pry point structure is preferably a chamfer 204 disposed at the bottom edge of the first disk holder 1222, as shown in fig. 2.

In this embodiment, the prying point structure is set as the chamfer 204 located at the bottom edge of the first disk support 1222, and due to the structure of the chamfer 204, a recessed structure is formed between the bottom of the first disk support 1222 and the side wall of the first disk support 1222, so that when the bottom of the first disk support 1222 is adsorbed on other sundries, a tool is extended into the recessed structure formed by the chamfer 204, and the lever principle is applied to pry the driven disk assembly 122 from the other sundries, thereby facilitating the daily life of a user, avoiding potential safety hazards, and improving the use experience of the user.

In another embodiment of the present invention, preferably, as shown in fig. 4, the pry point structure is a first protrusion 206 disposed on the bottom wall of the first disk holder 1222.

In this embodiment, the prying point structure is configured as the first protrusion 206 located on the bottom wall of the first disk support 1222, wherein when the bottom wall of the first disk support 1222 is provided with one or two first protrusions 206, the first protrusion 206 corresponds to the fulcrum of the lever, so that the driven disk assembly 122 is kept tilted at the moment when being placed, so that there is a gap between the bottom wall of the first disk support 1222 and other sundries, when the bottom wall of the first disk support 1222 is adsorbed on other sundries, a tool is inserted into the gap formed by the first protrusion 206, and the lever principle is applied to pry the driven disk assembly 122 away from other sundries, or when the bottom wall of the first disk support 1222 is provided with three or more first protrusions 206, so that the bottom wall of the first disk support 1222 is away from other sundries, so that there is a gap between the bottom wall of the first disk support 1222 and other sundries, when the bottom wall of the first disk support 1222 is adsorbed on other sundries, stretch into the instrument in the clearance that first arch 206 formed, use lever principle, prize from the magnetic disc subassembly 122 and leave other debris, made things convenient for user's daily life, avoided the potential safety hazard, promoted user's use and experienced.

It should be noted that the bottom of the first disk holder 1222 mentioned above is the side of the first disk holder 1222 facing away from the blade 1282.

In one embodiment of the present invention, preferably, as shown in fig. 4, the bottom surface of the first protrusion 206 is a curved surface.

In this embodiment, by setting the bottom surface of the first protrusion 206 to be a curved surface, when the first protrusion 206 contacts other sundries, only a small portion of the first protrusion contacts with other sundries, so that the adsorption strength between the first protrusion 206 and other sundries is reduced, and the driven disc assembly 122 is conveniently separated from other sundries.

In one embodiment of the present invention, the pry point is preferably configured as an annular diameter constriction 202 disposed at the bottom edge of cassette 124, as shown in fig. 5.

In this embodiment, through set up the annular diameter constriction 202 that is located box body 124 bottom edge with the sled point structure, when adsorbing on other debris box body 124 bottom, stretch into constriction 202 with the instrument in, use lever principle, prize box body 124 from other debris, made things convenient for user's daily life, avoided the potential safety hazard, promoted user's use and experienced.

In another embodiment of the present invention, the pry point structure is preferably at least two notches disposed in the bottom edge of box 124.

In this embodiment, through setting up the sled point structure to be located two at least breachs of box body 124 bottom edge, when adsorbing on other debris in box body 124 bottom, stretch into the breach structure with the instrument in, use lever principle, with box body 124 sled from other debris, made things convenient for user's daily life, avoided the potential safety hazard, promoted user's use and experienced.

In another embodiment of the present invention, the pry point is preferably configured as a chamfer 204 disposed at the bottom edge of cassette 124, as shown in fig. 1.

In this embodiment, through setting up the sled point structure to be located the chamfer 204 at box body 124 bottom edge, because chamfer 204 structure makes to be formed with the sunk structure between box body 124 bottom and the box body 124 bottom lateral wall, consequently, when adsorbing on other debris in box body 124 bottom, stretch into the sunk structure that chamfer 204 formed with the instrument, use lever principle, prize stirring cutter subassembly 12 from other debris, made things convenient for user's daily life, avoided the potential safety hazard, promoted user's use and experienced.

In another embodiment of the present invention, preferably, as shown in fig. 3, the pry point structure is a second protrusion 208 disposed on the bottom wall of the box 124.

In this embodiment, the prying point structure is configured as the second protrusion 208 located on the bottom wall of the box body 124, wherein when one or two second protrusions 208 are arranged on the bottom wall of the box body 124, the second protrusion 208 is equivalent to a fulcrum of the lever, so that the stirring cutter assembly 12 keeps inclining when being placed, so that a gap is formed between the bottom wall of the box body 124 and other sundries, when the bottom wall of the box body 124 is adsorbed on other sundries, a tool is inserted into the gap formed by the second protrusion 208, and the stirring cutter assembly 12 is pried away from other sundries by applying the lever principle, or when three or more second protrusions 208 are arranged on the bottom wall of the box body 124, the bottom wall of the box body 124 is far away from other sundries, so that a gap is formed between the bottom wall of the box body 124 and other sundries, and when the bottom wall 124 is adsorbed on other sundries, the tool is inserted into the gap formed by the second protrusion 208, use lever principle, pry stirring cutter subassembly 12 from other debris, made things convenient for user's daily life, avoided the potential safety hazard, promoted user's use and experienced.

In one embodiment of the present invention, preferably, as shown in fig. 3, the bottom surface of the second protrusion 208 is a cambered surface.

In this embodiment, by setting the bottom surface of the second protrusion 208 to be a curved surface, when the second protrusion 208 contacts other sundries, only a small portion of the second protrusion contacts with other sundries, so that the adsorption strength between the second protrusion 208 and other sundries is reduced, and the stirring tool assembly 12 is conveniently separated from other sundries.

In a second embodiment according to the invention, as shown in fig. 7 to 9, there is provided a drive disc assembly 30 comprising: a second magnetic member 304; a second disk holder 302, on which a second magnetic member 304 is circumferentially mounted; wherein the second disk holder 302 is provided with a pry point structure; the second disk holder 302 is a swing structure.

According to the driving disk assembly 30 provided by the invention, the prying point structure is arranged on the second disk support 302, so that after the driving disk assembly 30 is taken out and adsorbed with other impurities, the driven disk assembly 122 can be separated from other impurities through the prying point structure, so that a user can take the driving disk assembly 30 more conveniently, the daily life of the user is facilitated, the potential safety hazard is avoided, the use experience of the user is improved, meanwhile, the second disk support 302 is arranged to be a rotary structure, the rotation of the second disk support 302 is facilitated, and the rotation effect of the blade 1282 is ensured.

In one embodiment of the present invention, the pry point structure is preferably an annular diameter constriction 202 disposed at the top edge of the second disk carrier 302, as shown in FIG. 9.

In this embodiment, through set up the annular diameter constriction 202 that the structure of prizing point is for being located second disk holder 302 top edge, when second disk holder 302 top adsorbs on other debris, stretch into constriction 202 with the instrument in, use lever principle, prize drive disk assembly 30 from other debris, made things convenient for user's daily life, avoided the potential safety hazard, promoted user's use and experienced.

In another embodiment of the present invention, the pry point structure is preferably at least two notches disposed in the top edge of the second disk holder 302.

In this embodiment, through setting up the sled point structure to two at least breachs at second disk support 302 top edge, when second disk support 302 top adsorbs on other debris, stretch into the breach structure with the instrument in, use lever principle, will drive disk subassembly 30 sled from other debris, made things convenient for user's daily life, avoided the potential safety hazard, promoted user's use and experienced.

In another embodiment of the present invention, the pry point structure is preferably a chamfer 204 disposed at the top edge of the second disk holder 302, as shown in FIG. 7.

In this embodiment, through setting up the sled point structure to be located the chamfer 204 at second disk holder 302 top edge, because chamfer 204 structure makes to be formed with the sunk structure between second disk holder 302 top and the second disk holder 302 lateral wall, consequently, when second disk holder 302 top adsorbs on other debris, stretch into the sunk structure that chamfer 204 formed with the instrument, use lever principle, will drive disk subassembly 30 sled away from other debris, user's daily life has been made things convenient for, potential safety hazard has been avoided, user's use experience has been promoted.

In another embodiment of the present invention, the pry point structure is preferably a third protrusion 210 disposed on the top wall of the second disk holder 302, as shown in fig. 8.

In this embodiment, the prying point structure is set as the third protrusion 210 located on the top wall of the second disk holder 302, wherein when one or two third protrusions 210 are arranged on the top wall of the second disk holder 302, the third protrusion 210 is equivalent to a fulcrum of a lever, so that the drive disk assembly 30 keeps tilting at any time when being placed, so that a gap is formed between the top wall of the second disk holder 302 and other sundries, when the top wall of the second disk holder 302 is attached to other sundries, a tool is extended into the gap formed by the third protrusion 210, and the lever principle is applied to pry the drive disk assembly 30 away from other sundries, or when three or more third protrusions 210 are arranged on the top wall of the second disk holder 302, so that the top wall of the second disk holder 302 is away from other sundries, so that a gap is formed between the top wall of the second disk holder 302 and other sundries, when the top wall of the second disk holder 302 is attached to other sundries, stretch into the instrument in the clearance that third arch 210 formed, use lever principle, will drive magnetic disc subassembly 30 and prize away from other debris, made things convenient for user's daily life, avoided the potential safety hazard, promoted user's use and experienced.

In one embodiment of the present invention, preferably, as shown in fig. 8, the top surface of the third protrusion 210 is a cambered surface.

In this embodiment, by setting the bottom surface of the third protrusion 210 to be a curved surface, when the third protrusion 210 contacts other sundries, only a small portion of the third protrusion contacts with other sundries, so that the adsorption strength between the third protrusion 210 and other sundries is reduced, and the separation of the stirring tool assembly 12 from other sundries is facilitated.

In an embodiment of the present invention, it is preferable that one end surface of the second disk holder 302 is provided with a connection post 306, the other end surface of the second disk assembly 302 is provided with a second magnetic groove, and the second magnetic member 304 is mounted in the second magnetic groove.

In this embodiment, the second magnetic member 304 is mounted in the second magnetic groove, so that the position of the second magnetic member 304 is fixed, and the thickness of the entire drive disc assembly 30 is reduced while the strength of the second disc holder 302 is ensured.

As shown in fig. 10, according to a third aspect embodiment of the present invention, the present invention proposes a food processor 1 comprising: a base 40; a cup 50 mounted on the base 40; a motor 60 installed in the housing 40; the stirring tool assembly 12 as provided in any of the above embodiments; and/or a drive disk assembly 30 as provided in any of the embodiments described above; wherein the blending tool assembly 12 is disposed within the cup 50; drive disc assembly 30 is coupled to an output shaft of motor 60.

The food processor 1 provided by the invention comprises the stirring cutter component 12 provided by any one of the above embodiments; and/or a drive disk assembly 30 as provided in any of the above embodiments, and therefore, a stirring tool assembly 12 as provided in any of the above embodiments; and/or all of the benefits of drive disc assembly 30 provided by any of the embodiments described above, will not be further described herein.

In summary, in the stirring and stirring cutter assembly 12 and the food processor 1 provided by the present invention, the prying point structure is disposed on the side of the first disk holder 1222 facing away from the blade 1282, so that when the driven disk assembly 122 is taken out and adsorbed with other impurities, the driven disk assembly 122 can be separated from other impurities by the prying point structure, similarly, when the box 124 is disposed on the side facing away from the blade 1282, and further when the stirring cutter assembly 12 is adsorbed with other impurities, the stirring cutter assembly 12 can be separated from other impurities by the prying point structure, and the user habitually also places the blade 1282 upward, so that other impurities can be more easily adsorbed on the side of the driven disk assembly 122 and/or the box 124 facing away from the blade 1282, and can be less easily separated from the adsorbed impurities, so that the prying point structure is disposed on the side of the driven disk assembly 122 and/or the box 124 facing away from the blade 1282, can avoid above-mentioned problem effectively for taking of driven magnetic disc subassembly 122 and stirring cutter subassembly 12 is more convenient, has made things convenient for user's daily life, has avoided the potential safety hazard, has promoted user's use and has experienced, simultaneously, sets up first disk support 1222 to revolution mechanic, more does benefit to first disk support 1222 rotatory, guarantees the rotatory effect of blade 1282.

According to the stirring driving disk assembly 30 and the food processor 1 provided by the invention, the prying point structure is arranged on the second disk support 302, so that when the driving disk assembly 30 is taken out and adsorbed with other impurities, the driven disk assembly 122 can be separated from the other impurities through the prying point structure, the driving disk assembly 30 can be taken by a user more conveniently, the daily life of the user is facilitated, the potential safety hazard is avoided, the use experience of the user is improved, meanwhile, the second disk support 302 is arranged to be a rotary structure, the rotation of the second disk support 302 is facilitated, and the rotating effect of the blade 1282 is ensured.

In the present invention, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance, and the terms "connected" and "connecting" are used in a broad sense, e.g., "connected" may be a fixed connection, a detachable connection, or an integral connection; the terms "connected" and "connected" may be directly connected or indirectly connected through an intermediate, and those skilled in the art can understand the specific meaning of the above terms in the present invention according to specific situations.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. A stirring tool assembly, comprising:

the box body is in a cylindrical shape with one open end and the other closed end;

the cutter holder is used for sealing the box body to form a closed cavity;

the stirring cutter comprises a cutter shaft and a blade, the cutter shaft is rotatably arranged on the cutter seat, and the blade is positioned above the cutter seat and is connected with one end of the cutter shaft;

the driven magnetic disc assembly is positioned below the tool apron, is connected with the other end of the cutter shaft, and comprises a first magnetic disc support and a first magnetic piece arranged on the first magnetic disc support along the circumferential direction;

wherein, one side of the first disk bracket and/or the box body back to the blade is provided with a prying point structure;

the first disk support is a rotary structure;

the prying point structure is an annular diameter contraction part arranged on the bottom edge of the first disk support or at least two notches arranged on the bottom edge of the first disk support; or

The prying point structure is a chamfer arranged at the bottom edge of the first disk support; or

The pry point structure is a first protrusion arranged on the bottom wall of the first disk support.

2. The stirring tool assembly of claim 1, wherein the end surface of the first disk holder facing away from the blade is provided with a first magnetic groove, and the first magnetic member is mounted in the first magnetic groove.

3. The stirring tool assembly of claim 1, wherein the bottom surface of the first protrusion is a curved surface.

4. The stirring tool assembly according to any one of claims 1 to 3,

the prying point structure is an annular diameter contraction part or at least two notches arranged on the edge of the bottom of the box body; or

The prying point structure is a chamfer arranged at the bottom edge of the box body; or

The prying point structure is a second protrusion arranged on the bottom wall of the box body.

5. The stirring tool assembly of claim 4, wherein the bottom surface of the second protrusion is a curved surface.

6. A drive disc assembly, comprising:

a second magnetic member;

the second magnetic piece is arranged on the second disk support along the circumferential direction;

the second disk support is provided with a prying point structure;

the second disk support is a rotary structure;

the prying point structure is an annular diameter contraction part arranged on the top edge of the second disk support or at least two notches arranged on the top edge of the second disk support; or

The prying point structure is a chamfer arranged at the top edge of the second disk support; or

The prying point structure is a third protrusion arranged on the top wall of the second disk support.

7. The drive disc assembly of claim 6, wherein the top surface of the third protrusion is a curved surface.

8. Drive disk assembly according to claim 6 or 7,

one end face of the second disk support is provided with a connecting column, the other end face of the second disk support is provided with a second magnetic groove, and the second magnetic part is installed in the second magnetic groove.

9. A food processor, comprising:

a machine base;

the cup body is arranged on the base;

the motor is arranged in the base;

the stirring tool assembly of any one of claims 1 to 5; and/or

A drive disk assembly according to any of claims 6 to 8;

wherein the stirring tool assembly is disposed within the cup body;

the drive disc assembly is connected with an output shaft of the motor.

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