CN213046636U - Stirring cup subassembly and cooking machine - Google Patents

Abstract

The application provides a stirring cup subassembly and cooking machine, the stirring cup subassembly includes cup and cutter module, the cutter module with the cup can be dismantled and be connected. The cutter module comprises a connecting mechanism, and the connecting mechanism comprises a lock catch piece movably matched with the cutter holder. When the locking fastener is positioned at the first dynamic position, the locking fastener is clamped with the cup body, so that the cutter module is assembled to the cup body; when the locking fastener is in the second dynamic position, the locking fastener is separated from the cup body, so that the cutter module and the cup body can be detached. Through the movable dynamic position switching who cooperates the hasp piece of blade holder for the cutter module can be selected and be in connected state or detachable state with the cup, has not only increased steadiness and the security of cutter module in the use, has still promoted the dismantlement convenience of cutter module and cooking machine in operations such as washing, maintenance, change.

Description

Stirring cup subassembly and cooking machine

Technical Field

The application relates to a cooking machine technical field especially relates to a stirring cup subassembly and cooking machine.

Background

In the related art, the food processor can be a machine for crushing and stirring food materials such as a soybean milk machine, a stirrer or a wall breaking machine, and can be used for realizing the functions of making soybean milk, squeezing juice, making rice paste, mincing meat, shaving ice, making coffee, blending facial masks and the like.

However, in the related art, the cutter module of some food processors is usually movably fitted to the cup body, so that the cutter module is easily separated from the cup body during the processes of using, assembling and disassembling, which causes problems of cutting the user and damaging the cutter. Or, the cutter module of part cooking machine is fixed in the stirring cup, can only scrub in the cup with the brush when wasing, and the stirring cup often is difficult for the operation too deeply, and stirring knife tackle spare exists unable abluent dead angle inevitable simultaneously, breeds the bacterium easily, produces the peculiar smell.

SUMMERY OF THE UTILITY MODEL

The application provides a modified stirring cup subassembly and cooking machine.

One aspect of the application provides a stirring cup assembly, which is applied to a food processor and comprises a cup body and a cutter module, wherein the cutter module is detachably connected with the cup body;

the cutter module comprises a cutter holder, a cutter main body and a connecting mechanism, wherein the cutter main body and the connecting mechanism are arranged on the cutter holder;

the connecting mechanism comprises a lock catch piece movably matched with the tool apron, and the lock catch piece comprises a first dynamic position and a second dynamic position; when the locking piece is located at the first dynamic position, the locking piece is clamped with the cup body, so that the cutter module is assembled to the cup body; when the locking piece is located at the second dynamic position, the locking piece is separated from the cup body, so that the cutter module and the cup body are detachable.

Optionally, the fastener comprises a buckle, and the cup body is provided with a clamping groove adapted to the buckle structure; the connecting mechanism further comprises an elastic piece, and the elastic piece is elastically abutted with the buckle and the tool apron respectively;

when the buckle is located at the first dynamic position, the buckle is in clamping fit with the clamping groove, so that the cutter module is assembled to the cup body; when the buckle is located at the second dynamic position, the buckle is separated from the clamping groove, so that the cutter module and the cup body can be detached. Utilize the butt of elastic component and buckle and blade holder to make the buckle can switch over the position under the effect of elastic force, and then be convenient for switch over between first dynamic position and second dynamic position.

Optionally, the buckle includes an operation portion, a clamping portion and an abutting portion; the clamping part and the abutting part are arranged on two opposite sides of the operating part; the clamping portion is arranged on one side, close to the clamping groove, of the buckle, and the abutting portion is elastically abutted to the elastic piece. The joint portion of being convenient for of setting position of joint portion cooperates with the joint in joint groove, and the position of setting of operation portion is convenient for the application of force operation of user's hand to the buckle, avoids joint portion to interfere with the structure of butt portion.

Optionally, the locking element includes a first buckle and a second buckle, and the elastic element includes a first elastic element and a second elastic element which are oppositely arranged; the first elastic piece is respectively in elastic butt joint with the first buckle and the tool apron, and the second elastic piece is respectively in elastic butt joint with the second buckle and the tool apron. The arrangement of the first buckle and the second buckle improves the detachable connection stability of the cutter module and the cup body, and the arrangement of the first elastic piece and the second elastic piece is convenient for a user to operate the first buckle and the second buckle with one hand.

Optionally, an accommodating groove is formed in the tool apron, an opening is formed in a side wall of the accommodating groove, and when the locking piece is located at the first dynamic position, the locking piece penetrates through the opening to be detachably connected with the cup body; when the locking piece is located at the second dynamic position, the connecting mechanism is contained in the containing groove. The whole aesthetic property of the cutter module is improved through the matching of the locking piece and the accommodating groove.

Optionally, the accommodating groove includes a notch, and the cutter module further includes a cover plate, and the cover plate is assembled and matched with the notch; the cover plate is provided with an avoiding hole, the lock catch piece comprises an operating part, and the avoiding hole corresponds to the operating part in position. The cover plate improves the overall attractiveness of the cutter module, and the operation of the operation part can be realized through the avoiding hole in the cover plate.

Optionally, the accommodating groove includes a first accommodating groove and a second accommodating groove, and the first accommodating groove and the second accommodating groove are disposed on two opposite sides of the tool apron. Based on the relative positional relationship that sets up of first holding tank and second holding tank for hasp spare structure in the hasp spare in the first holding tank and the second holding tank is relative, therefore is convenient for two structure settings and the hasp operation of hasp spare.

Optionally, the fastener includes with blade holder swing joint's trip, the cup be equipped with the bayonet socket of trip structure adaptation, work as the trip is located when the first dynamic position, the trip with bayonet socket joint cooperation. The structure setting of trip and bayonet socket is simple, and also can realize dismantling being connected of cutter module and cup through the cooperation of above-mentioned trip and bayonet socket.

Optionally, the stirring cup assembly further comprises a sealing ring, an installation groove is formed in the circumferential direction of the cutter holder, and the sealing ring is assembled in the installation groove; or the like, or, alternatively,

the sealing ring is arranged at the bottom of the cup body, and when the tool apron is arranged on the cup body, the sealing ring is in sealing fit with the cup body;

and/or, the stirring cup assembly further comprises a cup seat, wherein a first thread is arranged on the cup body, a second thread is arranged on the cup seat, and when the cup body is assembled on the cup seat, the first thread is matched with the second thread. The sealing ring improves the matching sealing performance between the cup body and the tool apron, the cup body and the cup seat are assembled in a threaded connection mode, and the assembling and disassembling convenience is improved.

Another aspect of this application provides a cooking machine, including the host computer with the stirring cup subassembly, the stirring cup subassembly assemble in the host computer.

The cutter module of this application embodiment includes coupling mechanism, and coupling mechanism includes the hasp piece of movable cooperation in the blade holder. When the locking fastener is positioned at the first dynamic position, the locking fastener is clamped with the cup body, so that the cutter module is assembled to the cup body; when the locking fastener is in the second dynamic position, the locking fastener is separated from the cup body, so that the cutter module and the cup body can be detached. Through the movable dynamic position switching of the lock catch piece who cooperates in the blade holder for the cutter module can be selected and be in connected state or detachable state with the cup, has not only increased steadiness and the security of cutter module in the use, has still promoted the dismantlement convenience of cutter module in operations such as washing, maintenance, change.

Drawings

FIG. 1 is an exploded schematic view of a blender cup assembly in an exemplary embodiment of the present application;

FIG. 2 is a schematic structural view of a blending cup assembly with a catch member in a first dynamic position according to an exemplary embodiment of the present application;

FIG. 3 is a partial schematic structural view of a blending cup assembly with a catch member in a second dynamic position in an exemplary embodiment of the present application;

FIG. 4 is an exploded schematic view of a blender cup assembly in another exemplary embodiment of the present application;

FIG. 5 is an exploded schematic view of a blending cup assembly according to yet another exemplary embodiment of the present application;

FIG. 6 is an exploded schematic view of a blending cup assembly according to yet another exemplary embodiment of the present application;

fig. 7 is an exploded view of a food processor according to an exemplary embodiment of the present application;

FIG. 8 is a schematic illustration of an assembled configuration of a blender according to an exemplary embodiment of the present application;

FIG. 9 is a schematic view of an assembly of a wall breaking machine according to an exemplary embodiment of the present application;

FIG. 10 is a schematic cross-sectional view of a tool module according to an exemplary embodiment of the present disclosure;

FIG. 11 is a schematic side view of a tool module according to an exemplary embodiment of the present disclosure;

fig. 12 is a schematic perspective view of a tool module according to an exemplary embodiment of the present application.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus consistent with certain aspects of the present application, as detailed in the appended claims.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. Unless otherwise defined, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this application belongs. The use of "first," "second," and similar terms in the description and in the claims does not indicate any order, quantity, or importance, but rather is used to distinguish one element from another. Also, the use of the terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one. The word "plurality" or "a number" and the like mean at least two. The word "comprising" or "comprises", and the like, means that the element or item listed as preceding "comprising" or "includes" covers the element or item listed as following "comprising" or "includes" and its equivalents, and does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. Unless otherwise indicated, "front", "rear", "lower" and/or "upper" and the like are for convenience of description and are not limited to one position or one spatial orientation. The term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

The application provides a stirring cup subassembly is applied to cooking machine. FIG. 1 is an exploded view of a blender cup assembly according to an exemplary embodiment of the present disclosure, and as shown in FIG. 1, a blender cup assembly 10 includes a cup body 11 and a cutter module 12, wherein the cutter module 12 is detachably connected to the cup body 11. The tool module 12 includes a tool post 121, a tool body 122 and a connecting mechanism 123, wherein the tool body 122 and the connecting mechanism 123 are disposed on the tool post 121. The connecting mechanism 123 includes a latch member 1231 movably coupled to the tool holder 121, and the latch member 1231 includes a first dynamic position and a second dynamic position. When the locking member 1231 is located at the first dynamic position, the locking member 1231 is engaged with the cup 11, so that the tool module 12 is assembled to the cup 11. When the locking member 1231 is in the second dynamic position, the locking member 1231 is separated from the cup 11, so that the tool module 12 can be detached from the cup 11.

In the above embodiment, the tool module 12 includes the connecting mechanism 123, and the connecting mechanism 123 includes the locking member 1231 movably engaged with the tool seat 121. When the locking piece 1231 is located at the first dynamic position, the locking piece 1231 is engaged with the cup body 11, so that the cutter module 12 is assembled to the cup body 11; when the locking member 1231 is in the second dynamic position, the locking member 1231 is separated from the cup 11, so that the tool module 12 can be detached from the cup 11. Through the switching of the dynamic position of the fastener 1231 movably matched with the tool apron 121, the tool module 12 can be selectively connected with the cup body 11 or detached from the cup body, so that the stability and the safety of the tool module 12 in the using process are improved, and the detachment convenience of the tool module 12 in operations such as cleaning, maintenance and replacement is also improved.

FIG. 2 is a schematic structural view of the blending cup assembly 10 with one of the latches 1231 in a first dynamic position in an exemplary embodiment of the present application; fig. 3 is a partial schematic view of the blending cup assembly 10 with one of the locking members 1231 in the second dynamic position according to an exemplary embodiment of the present application. As shown in fig. 2 and 3, the blending cup assembly 10 includes a cup body 11 and a cutter module 12, wherein the cutter module 12 is detachably connected to the cup body 11. The tool module 12 includes a tool post 121, a tool body 122 and a connecting mechanism 123, wherein the tool body 122 and the connecting mechanism 123 are disposed on the tool post 121. The connecting mechanism 123 includes a locking member 1231 movably fitted to the tool post 121, the locking member 1231 may be a buckle, the cup 11 is provided with a clamping groove 112 adapted to the buckle structure, the connecting mechanism 123 further includes an elastic member 124, and the elastic member 124 is elastically abutted to the buckle and the tool post 121, respectively. When the buckle is located at the first dynamic position, the buckle is in clamping fit with the clamping groove 112, so that the cutter module 12 is assembled to the cup body 11. When the buckle is in the second dynamic position, the buckle is separated from the buckle groove 112, so that the tool module 12 can be detached from the cup body 11.

Since the elastic member 124 elastically abuts against the catch and the holder 121, respectively, the catch can be selectively located at the first dynamic position or the second dynamic position by changing the position of the catch by the elastic force of the elastic member 124. For example, when the elastic member 124 is not deformed, the buckle may be in the first dynamic position, and the buckle is in clamping fit with the clamping groove 112, so that the tool module 12 is assembled to the cup 11; when the buckle is forced to move from the first dynamic position to the second dynamic position, the elastic member 124 is compressed and deformed, and the buckle is separated from the buckle groove 112, so that the tool module 12 is detachable from the cup body 11. Above-mentioned structural setting makes the buckle can utilize the elasticity of elastic component 124 to take place the position change to realize with the help of the position change with the joint and the separation in joint groove 112, the user of being convenient for is controlled to the simple and of structural setting. The elastic member 124 may be a spring, or may be another structure having an elastic function, and the present application is not limited thereto.

In some embodiments, as shown in fig. 4, the clip includes an operation portion 1231a, a clip portion 1231b, and an abutting portion 1231 c. The clamping portion 1231b and the abutting portion 1231c are disposed on two opposite sides of the operating portion 1231a, the clamping portion 1231b is disposed on one side of the buckle close to the clamping groove 112, and the abutting portion 1231c is elastically abutted to the elastic member 124. Wherein, the operation portion 1231a is used for the application of force operation of user's hand to the buckle, and the joint portion 1231b is used for realizing the joint cooperation with the joint groove 112, and butt portion 1231c is used for assembling the cooperation with elastic component 124 to realize the elastic butt of elastic component 124 with the buckle. Set up joint portion 1231b in the buckle near one side of joint groove 112, the joint cooperation of joint portion 1231b and joint groove 112 of being convenient for sets up joint portion 1231b and butt portion 1231c in the relative both sides of operation portion 1231a, can avoid the structure of joint portion 1231b and butt portion 1231c to interfere, the user's of being convenient for manual operation to the buckle.

The operation portion 1231a may have a groove-like structure, and the cross-sectional shape of the groove-like structure may be circular, elliptical, rectangular, racetrack, irregular, or the like. Taking the cross section of the groove-shaped structure as a runway shape as an example, the groove-shaped structure with the runway-shaped cross section provides enough gripping and force application space for fingers, so that the force application operation of the buckle is facilitated. The clamping portion 1231b may be a protruding structure formed by extending outward from the groove-shaped structure of the operation portion 1231a, the protruding structure may be a protrusion, or may be a sheet-shaped structure protruding from a side wall of the groove-shaped structure, and the sheet-shaped structure may be bent into an arc shape, so that not only the material cost of the clamping portion 1231b may be reduced, but also the clamping effect of the clamping portion 1231b and the clamping groove 112 may be ensured. The abutment 1231c may be a recess provided on the side wall of the channel-like structure, the size of the recess matching the size of the elastic member 124, and a portion of the elastic member 124 being received in the recess to facilitate assembly and positioning of the elastic member 124.

In some embodiments, the locking member 1231 includes a first buckle 1232 and a second buckle 1233, the elastic member 124 includes a first elastic member 1241 and a second elastic member 1242 disposed opposite to each other, the first elastic member 1241 elastically abuts against the first buckle 1232 and the tool seat 121, respectively, and the second elastic member 1242 elastically abuts against the second buckle 1233 and the tool seat 121, respectively. Cup 11 can be equipped with first joint groove 1121 and second joint groove 1122, and first joint groove 1121 corresponds and structure adaptation with first buckle 1232 position, and second joint groove 1122 corresponds and structure adaptation with second buckle 1233 position. When cutter module 12 assembles in cup 11 through hasp piece 1231, first buckle 1232 and the cooperation of first joint groove 1121 joint, second buckle 1233 and the cooperation of second joint groove 1122 joint have promoted cutter module 12 and the steadiness that can dismantle the connection of cup 11. First elastic component 1241 and second elastic component 1242 set up in opposite directions for first buckle 1232 and second buckle 1233 are when receiving opposite direction's operating force, and first elastic component 1241 and second elastic component 1242 all take place compression deformation, and then make first buckle 1232 and second buckle 1233 excessively to the second dynamic position by first dynamic position, are convenient for the user to first buckle 1232 and second buckle 1233's one-hand operation.

For example, when the user pulls the first buckle 1232 and the second buckle 1233 with the thumb and the index finger, the directions of the operating forces of the thumb and the index finger are opposite, the first elastic member 1241 and the second elastic member 1242 are both compressed and deformed, the first buckle 1232 and the second buckle 1233 transition from the first dynamic position to the second dynamic position, the first buckle 1232 is separated from the first buckle groove 1121, and the second buckle 1233 is separated from the second buckle groove 1122, so that the tool module 12 is detachable from the cup 11.

In some embodiments, the holder 121 may have an accommodating groove 1211, and a sidewall of the accommodating groove 1211 is provided with an opening 1211a, when the locking member 1231 is located at the first dynamic position, the locking member 1231 passes through the opening 1211a to be engaged with the cup 11, and when the locking member 1231 is located at the second dynamic position, the connecting mechanism 123 is accommodated in the accommodating groove 1211. Because the connecting mechanism 123 is integrally accommodated in the accommodating groove 1211 when the locking element 1231 is in the second dynamic position, the structural exposure of the connecting mechanism 123 and the occupation of the space outside the tool setting seat 121 are avoided, the structural arrangement of the tool module 12 is simplified, and the overall aesthetic property of the tool module 12 is improved. When the locking member 1231 is moved to the first dynamic position, only the locking member 1231 passes through the opening 1211a on the sidewall of the receiving groove 1211 to be engaged with the cup 11, so as to ensure the engagement and disengagement of the locking member 1231 and the cup 11, and prevent the other components of the connecting mechanism 123 except the locking member 1231 from being exposed outside the receiving groove 1211 during the above process, thereby further improving the overall aesthetic property of the tool module 12.

In the above embodiment, the receiving groove 1211 can further include the notch 1121d, the tool module 12 further includes the cover plate 125, the cover plate 125 is assembled with the notch 1121d, the cover plate 125 is provided with the avoiding hole 1251, the locking member 1231 includes the operating portion 1231a, and the avoiding hole 1251 corresponds to the operating portion 1231 a. The cover 125 may be fixedly connected to the notch 1121d by a connector such as a screw 126. The connecting mechanism 123 can be assembled into the receiving groove 1211 through the notch 1121d, and then the cover 125 is engaged with the notch 1121d to encapsulate the connecting mechanism 123, so that the connecting mechanism 123 is stably assembled into the receiving groove 1211. When the cover 125 covers the notch 1121d, a user can apply a force to the operation portion 1231a of the locking member 1231 through the relief hole 1251 of the cover 125 to switch the locking member 1231 between the first dynamic position and the second dynamic position.

In some embodiments, the receiving groove 1211 can include a first receiving groove 1211b and a second receiving groove 1211c, and the first receiving groove 1211b and the second receiving groove 1211c are disposed on opposite sides of the tool holder 121. The locking member 1231 may include a first buckle 1232 and a second buckle 1233, the elastic member 124 may include a first elastic member 1241 and a second elastic member 1242 disposed opposite to each other, the first elastic member 1241 elastically abuts against the first buckle 1232 and the tool holder 121, respectively, and the second elastic member 1242 elastically abuts against the second buckle 1233 and the tool holder 121, respectively. Cup 11 can be equipped with first joint groove 1121 and second joint groove 1122, and first joint groove 1121 corresponds and structure adaptation with first buckle 1232 position, and second joint groove 1122 corresponds and structure adaptation with second buckle 1233 position. The first buckle 1232 and the first elastic member 1241 can be received in the first receiving groove 1211b, and the second buckle 1233 and the second elastic member 1242 can be received in the second receiving groove 1211c, so that the assembly of the first buckle 1232 and the first elastic member 1241 and the assembly of the second buckle 1233 and the second elastic member 1242 are facilitated, and the structural interference among the first buckle 1232, the first elastic member 1241, the second buckle 1233 and the second elastic member 1242 is avoided. When cutter module 12 assembles in cup 11 through hasp piece 1231, first buckle 1232 and the cooperation of first joint groove 1121 joint, second buckle 1233 and the cooperation of second joint groove 1122 joint have promoted cutter module 12 and the steadiness that can dismantle the connection of cup 11. First elastic component 1241 and second elastic component 1242 set up in opposite directions for first buckle 1232 and second buckle 1233 are when receiving opposite direction's operating force, and first elastic component 1241 and second elastic component 1242 all take place compression deformation, and then make first buckle 1232 and second buckle 1233 excessively to the second dynamic position by first dynamic position, are convenient for the user to first buckle 1232 and second buckle 1233's one-hand operation.

It should be noted that the locking member 1231 may further include a plurality of fasteners, and the tool holder 121 is provided with an accommodating groove 1211 corresponding to the number of the fasteners, so as to increase the stability of the tool module 12 in cooperation with the cup 11, which is not limited in the present application.

In other embodiments, as shown in fig. 5, the locking member 1231 may include a hook 1234 movably connected to the tool holder 121, the cup 11 has a bayonet 113 structurally matching with the hook 1234, and when the hook 1234 is located at the first dynamic position, the hook 1234 is in snap fit with the bayonet 113, so that the tool module 12 is assembled to the cup 11; when the hook 1234 is located at the second dynamic position, the hook 1234 is separated from the bayonet 113, so that the tool module 12 is detachable from the cup 11. The hook 1234 may be movably coupled to the tool holder 121 via a hinge mechanism, a universal joint mechanism 123, and the like, such that the hook 1234 is capable of rotating relative to the tool holder 121 and switching between a first dynamic position and a second dynamic position. The tool module 12 can be detachably connected with the cup body 11 by the matching of the hook 1234 and the bayonet 113.

The locking member 1231 may include one or more hooks 1234, and the tool seat 121 is provided with bayonets 113 corresponding to the number of the hooks 1234, so as to increase the stability of the tool module 12 and the cup 11, which is not limited in this application.

In some embodiments, as shown in fig. 6, the stirring cup assembly 10 further includes a sealing ring 127, a mounting groove 1212 is formed in the circumferential direction of the tool post 121, the sealing ring 127 is assembled in the mounting groove 1212, when the cup body 11 is mounted on the tool post 121, the sealing ring 127 is in sealing fit with the cup body 11, the sealing ring 127 improves the sealing property of fit between the cup body 11 and the tool post 121, and the problem that an object to be stirred in the cup body 11 leaks is avoided.

In other embodiments, the blender cup assembly 10 may further comprise a cup base 13, wherein the cup body 11 is provided with a first thread 111, and the cup base 13 is provided with a second thread 131, wherein the first thread 111 is engaged with the second thread 131 when the cup body 11 is assembled to the cup base 13. The cup body 11 and the cup base 13 are assembled in a threaded connection mode, and convenience in assembly and disassembly is improved.

In still other embodiments, the blender cup assembly 10 may further comprise an upper clutch 14, the upper clutch 14 cooperating with the cutter body 122 to assist the main machine 21 in achieving control over the rotation and stopping of the cutter body 122.

The application further provides a cooking machine, above-mentioned cooking machine can be the machine of smashing the stirring edible material such as soybean milk machine, mixer or broken wall machine to be used for realizing making soybean milk, squeezing juice, making rice paste, minced steak, plane ice, making coffee, allotment functions such as facial mask. Taking a food processor as a blender and applying a blending cup assembly to the blender as an example, as shown in fig. 7 and 8, the blender 20 includes a main body 21 and the blending cup assembly 10, and the blending cup assembly 10 is assembled to the main body 21. Stirring cup subassembly 10 includes cup 11 and cutter module 12, and cutter module 12 can dismantle with cup 11 and be connected. The tool module 12 includes a tool post 121, a tool body 122 and a connecting mechanism 123, wherein the tool body 122 and the connecting mechanism 123 are disposed on the tool post 121. The connecting mechanism 123 includes a latch member 1231 movably coupled to the tool holder 121, and the latch member 1231 includes a first dynamic position and a second dynamic position. When the locking member 1231 is located at the first dynamic position, the locking member 1231 is engaged with the cup 11, so that the tool module 12 is assembled to the cup 11. When the locking member 1231 is in the second dynamic position, the locking member 1231 is separated from the cup 11, so that the tool module 12 can be detached from the cup 11.

The blender cup assembly 10 may further include a cup base 13, wherein the cup body 11 is provided with a first thread 111, the cup base 13 is provided with a second thread 131, and the first thread 111 is engaged with the second thread 131 when the cup body 11 is assembled to the cup base 13. The main body 21 may be provided with an assembling portion 211 structurally matched with the cup holder 13, and when the stirring cup assembly 10 is assembled to the main body 21, the cup holder 13 is assembled and matched with the assembling portion 211.

In some embodiments, the food processor may also be a wall breaking machine 30, as shown in fig. 9, the wall breaking machine 30 includes a main machine 31 and the stirring cup assembly 10, and the stirring cup assembly 10 is assembled to the main machine 31. As shown in fig. 10-12, the blending cup assembly 10 includes a cup body 11 and a cutter module 12, the cutter module 12 being removably attached to the cup body 11. The tool module 12 includes a tool post 121, a tool body 122 and a connecting mechanism 123, wherein the tool body 122 and the connecting mechanism 123 are disposed on the tool post 121. It should be noted that, when the food processor is the wall breaking machine 30, the tool seat 121 may be a bearing seat of the tool module 12.

The connecting mechanism 123 includes a latch member 1231 movably coupled to the tool holder 121, and the latch member 1231 includes a first dynamic position and a second dynamic position. When the locking member 1231 is located at the first dynamic position, the locking member 1231 is engaged with the cup 11, so that the tool module 12 is assembled to the cup 11. When the locking member 1231 is in the second dynamic position, the locking member 1231 is separated from the cup 11, so that the tool module 12 can be detached from the cup 11.

The cutter module 12 of this application cooking machine includes coupling mechanism 123, and coupling mechanism 123 includes that the movable cooperation is in the hasp piece 1231 of blade holder 121. When the locking piece 1231 is located at the first dynamic position, the locking piece 1231 is engaged with the cup body 11, so that the cutter module 12 is assembled to the cup body 11; when the locking member 1231 is in the second dynamic position, the locking member 1231 is separated from the cup 11, so that the tool module 12 can be detached from the cup 11. Through the movable switching of the dynamic position of the fastener 1231 that cooperates with the tool post 121, the tool module 12 can be selectively connected with the cup body 11 or detached, which not only increases the stability and safety of the tool module 12 in the using process, but also improves the detaching convenience of the tool module 12 and the food processor in the operations of cleaning, maintenance, replacement, etc.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the scope of protection of the present application.

Claims (10)

1. The stirring cup assembly is characterized by being applied to a food processor, the stirring cup assembly (10) comprises a cup body (11) and a cutter module (12), and the cutter module (12) is detachably connected with the cup body (11);

the cutter module (12) comprises a cutter seat (121), a cutter body (122) and a connecting mechanism (123), wherein the cutter body (122) and the connecting mechanism (123) are arranged on the cutter seat (121);

the connecting mechanism (123) comprises a locking piece (1231) movably matched with the tool holder (121), and the locking piece (1231) comprises a first dynamic position and a second dynamic position; when the locking piece (1231) is located at the first dynamic position, the locking piece (1231) is clamped with the cup body (11), so that the cutter module (12) is assembled to the cup body (11); when the locking piece (1231) is in the second dynamic position, the locking piece (1231) is separated from the cup body (11), so that the cutter module (12) and the cup body (11) can be detached.

2. The blending cup assembly of claim 1, wherein the locking member (1231) comprises a snap, and the cup body (11) is provided with a snap groove (112) adapted to the snap structure; the connecting mechanism (123) further comprises an elastic piece (124), and the elastic piece (124) is elastically abutted with the buckle and the tool holder (121) respectively;

when the buckle is located at the first dynamic position, the buckle is in clamping fit with the clamping groove (112), so that the cutter module (12) is assembled to the cup body (11); when the buckle is located at the second dynamic position, the buckle is separated from the buckle groove (112), so that the cutter module (12) and the cup body (11) can be detached.

3. The blending cup assembly of claim 2, wherein the catch comprises an operating portion (1231a), a snap portion (1231b), and an abutment portion (1231 c); the clamping part (1231b) and the abutting part (1231c) are arranged on two opposite sides of the operating part (1231 a); the clamping portion (1231b) is arranged on one side, close to the clamping groove (112), of the buckle, and the abutting portion (1231c) is elastically abutted to the elastic piece (124).

4. The blending cup assembly of claim 2, wherein the locking member (1231) comprises a first locking buckle (1232) and a second locking buckle (1233), and the elastic member (124) comprises a first elastic member (124) and a second elastic member (124) which are oppositely arranged; the first elastic piece (124) is respectively in elastic abutment with the first buckle (1232) and the tool holder (121), and the second elastic piece (124) is respectively in elastic abutment with the second buckle (1233) and the tool holder (121).

5. The stirring cup assembly according to claim 1, wherein the holder (121) is provided with a receiving groove (1211), the receiving groove (1211) is provided with an opening (1211a) on a side wall thereof, and the locking member (1231) passes through the opening (1211a) to be detachably connected to the cup body (11) when the locking member (1231) is located at the first dynamic position; when the locking element (1231) is located at the second dynamic position, the connecting mechanism (123) is accommodated in the accommodating groove (1211).

6. The blender cup assembly of claim 5, wherein said receiving groove (1211) comprises a notch (1211d), said cutter module (12) further comprises a cover plate (125), said cover plate (125) being assembled with said notch (1211 d); be equipped with on apron (125) and dodge hole (1251), hasp spare (1231) includes operating portion (1231a), dodge hole (1251) with operating portion (1231a) position corresponds.

7. The stirring cup assembly of claim 5, wherein said receiving groove (1211) comprises a first receiving groove (1211b) and a second receiving groove (1211c), said first receiving groove (1211b) and said second receiving groove (1211c) being disposed on opposite sides of said seat (121).

8. The stirring cup assembly as claimed in claim 1, wherein the fastener (1231) comprises a hook (1234) movably connected to the holder (121), the cup body (11) is provided with a bayonet (113) structurally matched to the hook (1234), and when the hook (1234) is located at the first dynamic position, the hook (1234) is snap-fitted to the bayonet (113).

9. The stirring cup assembly according to claim 1, wherein the stirring cup assembly (10) further comprises a sealing ring (127), a mounting groove (1212) is formed in the circumferential direction of the tool holder (121), and the sealing ring (127) is assembled in the mounting groove (1212); or the like, or, alternatively,

the sealing ring (127) is arranged at the bottom of the cup body (11), and when the tool apron (121) is arranged on the cup body (11), the sealing ring (127) is in sealing fit with the cup body (11);

and/or, stirring cup subassembly (10) still includes the cup, be equipped with first screw thread (111) on cup (11), be equipped with second screw thread (131) on the cup, when cup (11) equipment in when the cup, first screw thread (111) cooperate in second screw thread (131).

10. A food processor, comprising a main machine and a stirring cup assembly (10) according to any one of claims 1 to 9, wherein the stirring cup assembly (10) is assembled to the main machine.

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