CN210043839U - Cup body component and food processor - Google Patents

Abstract

The application provides a cup part and cooking machine, cup part include cup, cup subassembly, knife rest assembly and assemble in knife rest assembly's crushing knife tackle. The knife rest component is assembled on the cup seat, the cup body component is in press connection with the knife rest component and is fixed to the cup seat, and the knife rest component is connected with the cup seat in a sealing mode. The crushing cutter group penetrates through the cup body assembly and the cup seat and can rotate around the axis of the crushing cutter group, and two ends of the cutter frame assembly are respectively connected with the crushing cutter group in a sealing mode. The cup body subassembly is assembled in the cup and the crimping is in the knife rest subassembly, avoids the axial position drunkenness of knife rest subassembly, convenient assembling. Smash knife tackle and wear out knife tackle in knife tackle spare and both ends, knife tackle spare's both ends and crushing knife tackle sealing connection to block that vapor and foreign matter enter into knife tackle spare and the combination position of smashing the knife tackle spare, clean and tidy nature is good.

Description

Cup body component and food processor

Technical Field

The application relates to cooking device technical field relates to a cup part and cooking machine.

Background

The cooking machine comprises a main machine part and a cup body part assembled on the main machine part, wherein the cup body part comprises a cup body assembly, a cup seat, a knife rest assembly and a crushing knife group assembled on the knife rest assembly. The bearing is arranged in the knife rest assembly, and the crushing knife group is assembled in the bearing and inserted into the cup body assembly, so that the crushing knife group can rotate around the central line of the crushing knife group and process food materials in the cup body assembly.

In the related art, one or more sealing rings are provided between the grinding cutter unit and the cutter rest assembly for preventing moisture in the cup body assembly from entering the cutter rest assembly along the grinding cutter unit. However, the other end of the crushing cutter set penetrates through the cutter rest assembly and extends outwards, and water and air can enter the bearing along the gap between the crushing cutter set and the cutter rest assembly. The bearing rusts under the corrosive action of aqueous vapor, can lead to the bearing card to die even, influences the normal use of cooking machine. Moreover, the rusty bearing generates great noise in the rotating process, and the user experience is influenced. The bearing is made of stainless steel materials, so that the production cost is greatly increased. Particularly, the cup body part is a dry grinding cup, and when the crushing cutter group rotates dry grinding food materials at a high speed, the bearing part has the risk of oil leakage, thereby influencing the food safety.

SUMMERY OF THE UTILITY MODEL

In view of this, this application provides a cup part and cooking machine.

Specifically, the method is realized through the following technical scheme:

the application provides a first aspect, discloses a cup parts, including cup, cup body subassembly, knife rest assembly and assemble in knife rest assembly's crushing knife tackle, knife rest assembly assemble in the cup, cup body subassembly crimping in knife rest assembly is fixed extremely the cup, knife rest assembly with sealing connection between the cup, crushing knife tackle runs through cup body subassembly and cup can rotate around the axis of self, knife rest assembly's both ends respectively with crushing knife tackle sealing connection.

Optionally, the tool rest assembly comprises a tool rest main body assembled on the cup holder, a bearing assembly installed in the tool rest main body, a first oil seal and a second oil seal, the crushing tool set is inserted into the tool rest main body and assembled and connected with the bearing assembly, and the first oil seal and the second oil seal are located at two ends of the bearing assembly and connected with the crushing tool set in a sealing manner. First oil blanket spare and second oil blanket spare assemble in the knife rest main part and are located the both ends of bearing assembly respectively, can effectively block in aqueous vapor and other foreign matter enter into the bearing assembly along the both ends of knife rest main part, keep bearing assembly pivoted flexibility and operational environment's stability.

Optionally, the tool holder main body is connected to the cup holder in an inserting manner, and the cup body assembly is pressed on the tool holder main body in a pressing manner. The knife rest main body is connected with the cup base in an inserting mode, the knife rest main body and the cup base can be in clearance fit or interference fit, and the inserting depth of the knife rest main body and the cup base is stable.

Optionally, the tool rest main body comprises a connecting piece and a tool rest piece detachably connected to the connecting piece, an installation space is formed between the connecting piece and the tool rest piece, and the first oil seal piece, the second oil seal piece and the bearing assembly are located in the installation space and are assembled and connected with one of the connecting piece and the tool rest piece. The flexible combination of each part in the tool rest component can conveniently adjust the sealing position and improve the assembly efficiency.

Optionally, the connecting element is plugged or crimped or screwed with the tool holder element, and the tool holder element is plugged and connected with the cup holder. The cutter frame piece is connected with the cup seat in an inserting mode or in a compression joint mode or in a threaded connection mode, and the connecting piece is connected with the cutter frame piece in an inserting mode, so that the inserting connection is convenient.

Optionally, the tool rest element includes an insertion portion and a flange portion protruding from the insertion portion, the insertion portion is inserted into the cup holder, and the flange portion abuts against the cup holder. The flange part limits the insertion position of the tool rest piece and the cup seat, and the insertion position is accurate.

Optionally, the tool rest piece is provided with an insertion hole, the connecting piece is inserted into the insertion hole, the tool rest piece further comprises an end sealing portion which is folded towards the central line direction of the insertion hole, and the second oil seal piece is assembled on the tool rest piece and limited to the end sealing portion. The second oil seal member is mounted to the tool holder member with its axial position blocked by the end seal portion and maintained in the corresponding mounting configuration. The end seal portion provides the effect of stable support for the second oil seal.

Optionally, the connecting piece includes a main body portion and a step portion protruding from the outer side wall of the main body portion, the main body portion is inserted into the tool rest piece, the step portion abuts against the tool rest piece, and the cup body assembly is crimped to the step portion. The connecting piece is limited at the preset position of the cutter frame piece through the step part, and the assembly is convenient.

The second aspect that the application provided discloses a cooking machine, include host computer part and as above cup part, cup part assemble in host computer part, host computer part with crushing knife tackle drive connection.

Optionally, the cup member is provided as a dry grind cup.

The technical scheme provided by the embodiment of the application can have the following beneficial effects:

the cup body subassembly is assembled in the cup and the crimping is in the knife rest subassembly, avoids the axial position drunkenness of knife rest subassembly, convenient assembling. Smash knife tackle and wear out knife tackle in knife tackle spare and both ends, knife tackle spare's both ends and crushing knife tackle sealing connection to block that vapor and foreign matter enter into knife tackle spare and the combination position of smashing the knife tackle spare, clean and tidy nature is good.

Drawings

Fig. 1 is a schematic cross-sectional view of a cup assembly according to an exemplary embodiment of the present application.

Fig. 2 is an enlarged schematic view of a structure at a in fig. 1.

FIG. 3 is a cross-sectional schematic view of a shredder blade assembly mounted to a blade carrier assembly in accordance with an exemplary embodiment of the present application.

Figure 4 is a schematic diagram of an exploded view of a shredding knife block and knife block assembly shown in an exemplary embodiment of the present application.

Fig. 5 is a schematic structural view of a cup holder according to an exemplary embodiment of the present application.

Fig. 6 is a schematic view of an assembly structure of the cup part and the main unit part according to an exemplary embodiment of the present application.

In the figures, a cup holder 10; a cutter shaft hole 11; a positioning surface 12; a cup body assembly 20; a lock portion 21; the annular wall portion 22; a bottom 23; a tool holder assembly 30; a holder main body 31; a connecting member 311; a body portion 3111; a stepped portion 3112; a mounting hole 3113; a holder member 312; a socket portion 3121; a flange portion 3122; an end seal 3123; a mating hole 3124; a bearing assembly 32; a first oil seal 33; a second oil seal 34; a seal ring 35; a crushing cutter group 40; a rotating shaft 41; a host part 50; a base 51; a drive assembly 52.

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 and methods 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. As used in this application and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that 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.

It is to be understood that although the terms first, second, third, etc. may be used herein to describe various information, such information should not be limited to these terms. These terms are only used to distinguish one type of information from another. For example, first information may also be referred to as second information, and similarly, second information may also be referred to as first information, without departing from the scope of the present application. The word "if" as used herein may be interpreted as "at … …" or "when … …" or "in response to a determination", depending on the context.

As shown in fig. 1 and 2, in one embodiment, the cup assembly includes a cup holder 10, a cup body assembly 20, a knife carriage assembly 30, and a crushing knife assembly 40 mounted to the knife carriage assembly 30, the knife carriage assembly 30 being mounted to the cup holder 10. The cup body assembly 20 is pressed on the tool rest assembly 30 and fixed to the cup holder 10, and the tool rest assembly 30 is connected with the cup holder 10 in a sealing mode. The crushing cutter set 40 penetrates through the cup body assembly 20 and the cup seat 10 and can rotate around the axis of the crushing cutter set 40, and two ends of the cutter rest assembly 30 are respectively connected with the crushing cutter set 40 in a sealing mode.

The tool holder assembly 30 is assembled to the cup 10, and the assembled position of the tool holder assembly 30 with respect to the cup 10 is fixed. For example, the blade carrier assembly 30 may be removably attached to the cup 10 by a plug-in interference fit, fastener-locking connection, or the like. The cup body assembly 20 is assembled on the cup base 10 and pressed on the tool rest assembly 30, and the tool rest assembly 30 is arranged between the cup body assembly 20 and the cup base 10, so that the tool rest assembly 30 is prevented from moving axially. The cup body assembly 20 is fixedly attached to the cup holder 10, e.g., fasteners are passed through the cup holder 10 and locked to the cup body assembly 20; the cup body component 20 is provided with a latch hook and other structures which are connected with the cup seat 10 in a buckling way; or the cup body assembly 20 may be locked together by other means of attachment.

The crushing cutter set 40 penetrates through the cup body assembly 20, the cutter frame assembly 30 and the cup seat 10 in sequence, and the crushing cutter set 40 is assembled and connected with the cutter frame assembly 30, so that the crushing cutter set 40 keeps a preset position and can rotate around the rotation center line of the crushing cutter set 40. Accordingly, the cup body assembly 20 is provided with a rotation hole, and the rotation shaft 41 of the crushing cutter unit 40 can be inserted into the accommodating space of the cup body assembly 20 along the rotation hole. The knife rest assembly 30 is connected with the cup body assembly 20 in a sealing manner, and optionally, a sealing ring 35 is arranged at the crimping connection position of the knife rest assembly 30 and the cup body assembly 20, and the sealing ring 35 surrounds the rotating hole and the crushing knife set 40 so as to prevent the liquid in the cup body assembly 20 from flowing out along the rotating hole.

Smash knife tackle 40 and assemble in knife tackle 30 and both ends wear out knife tackle 30, knife tackle 30's both ends and smash knife tackle 40 sealing connection to block steam and foreign matter and enter into the combined part of knife tackle 30 with smash knife tackle 40, the neatness is good. The crushing cutter set 40 is assembled on the cutter rest assembly 30 and can rotate around the rotation center line of the crushing cutter set 40, for example, the crushing cutter set 40 is connected to the cutter rest assembly 30 through a bearing type component; alternatively, the crushing blade unit 40 is provided with a boss structure which is erected on the blade carrier assembly 30 and defines the mounting position of the crushing blade unit 40 so that the crushing blade unit 40 rotates relative to the blade carrier assembly 30. The two ends of the knife rest component 30 are hermetically connected with the crushing knife group 40, so that foreign matters are prevented from entering the rotating connection part of the crushing knife group 40, and the rotating flexibility of the crushing knife group 40 can be kept.

As shown in fig. 2, 3 and 4, in an embodiment, the tool holder assembly 30 includes a tool holder main body 31 assembled to the cup 10, a bearing assembly 32 installed in the tool holder main body 31, a first oil seal 33 and a second oil seal 34, the crushing blade set 40 is inserted into the tool holder main body 31 and assembled to the bearing assembly 32, and the first oil seal 33 and the second oil seal 34 are located at both ends of the bearing assembly 32 and sealed to the crushing blade set 40.

The bearing assembly 32 includes one or more bearings, wherein the outer race of the bearing is fixed to the carriage assembly 30, and the crushing cutter unit 40 is inserted into the carriage body 31 and is fittingly coupled to the inner race of the bearing. The crushing cutter group 40 is assembled and connected with the bearing assembly 32, and the rotation flexibility is good. The first oil seal 33 and the second oil seal 34 are mounted on the main body 31 and located at two ends of the bearing assembly 32, so as to effectively prevent moisture and other foreign matters from entering the bearing assembly 32 along the two ends of the main body 31, and maintain the flexibility of rotation of the bearing assembly 32 and the stability of the working environment. Alternatively, the first oil seal 33 and the second oil seal 34 may employ elastic seals made of a rubber material.

In one embodiment, the holder body 31 is connected to the cup holder 10 by plugging, and the cup body assembly 20 is pressed against the holder body 31. The tool rest main body 31 is connected with the cup holder 10 in an inserting manner, the tool rest main body 31 and the cup holder 10 can be in clearance fit or interference fit, and the inserting depth of the tool rest main body 31 and the cup holder 10 is stable. For example, a boss-like positioning structure is provided on the outer peripheral wall of the holder main body 31 to limit the insertion depth of the holder main body 31 and the cup holder 10; or the cup holder 10 is provided with a stepped hole structure to support and limit the insertion depth of the tool holder body 31 with the cup holder 10.

The cup body assembly 20 is assembled on the cup holder 10 and pressed on the main holder body 31, for example, the cup body assembly 20 is pressed on the end of the main holder body 31, or the cup body assembly 20 is pressed on a boss-like positioning structure of the main holder body 31, so as to limit the moving space of the main holder body 31. The cup body assembly 20 is a container structure member with a thin-wall structure, and a surrounding area thereof forms a containing space for containing food materials. The bottom 23 of the cup body assembly 20 is detachable from the cup holder 10 and is press-fitted to the holder main body 31.

As shown in fig. 2 and 3, in an embodiment, the tool holder main body 31 includes a connecting member 311 and a tool holder member 312 detachably connected to the connecting member 311, a mounting space is formed between the connecting member 311 and the tool holder member 312, and the first oil seal member 33, the second oil seal member 34 and the bearing assembly 32 are located in the mounting space and are fittingly connected to one of the connecting member 311 and the tool holder member 312.

The connecting part 311 is detachably connected with the tool rest part 312, and the first oil seal part 33, the second oil seal part 34 and the bearing assembly 32 are assembled on one of the connecting part 311 and the tool rest part 312, and the following forms are included: the first oil seal part 33, the second oil seal part 34 and the bearing assembly 32 are all provided with a connecting part 311 or a tool rest part 312; the first oil seal 33 and the bearing assembly 32 are mounted on the connecting piece 311, and the second oil seal 34 is mounted on the cutter frame piece 312; the first oil seal 33 is mounted to the connecting member 311, and the second oil seal 34 and the bearing assembly 32 are mounted to the holder member 312. The flexible combination of the various components in the tool holder assembly 30 facilitates adjustment of the sealing position and improves assembly efficiency.

In one embodiment, the connector 311 is a bayonet or press fit or threaded connection with a tool holder member 312, the tool holder member 312 being bayonet connected to the cup holder 10. Alternatively, the connecting member 311 is connected to the holder member 312 by a plug-in or press-fit or screw-threaded connection. For example, the attachment piece 311 is provided with an insertion rib and the blade holder piece 312 with a corresponding insertion groove. Optionally, the blade carrier member 312 is plug-in connected to the blade carrier member 312. For example, the blade carrier part 312 is provided with a plug-in rib, and the connecting part 311 is provided with a corresponding plug-in groove.

The example of the connector 311 being plugged into the holder member 312 is illustrated.

As shown in fig. 2 and 3, in an alternative embodiment, the tool rest member 312 includes a plug portion 3121 and a flange portion 3122 protruding from the plug portion 3121, the plug portion 3121 is connected to the cup holder 10 in a plug-in manner, and the flange portion 3122 abuts against the cup holder 10. The knife rest member 312 is connected with the cup holder 10 in a plugging manner, and optionally, the cup holder 10 is provided with a knife shaft hole 11, and the plugging portion 3121 is connected with the knife shaft hole 11 in a plugging manner. The inserting portion 3121 and the flange portion 3122 form a stepped structure, and the inserting portion 3121 is inserted into the cup holder 10 to position an inserting position between the knife rest member 312 and the cup holder 10, and the positioning accuracy is high. The flange portion 3122 abuts against the surface of the cup holder 10 to limit the axial moving position of the tool rest element 312, and the plugging depth is controllable. The tool rest piece 312 transmits the pressure and torque force to the cup holder 10, and has good stress effect and shape stability.

In an alternative embodiment, the blade carrier member 312 is provided with a mating aperture 3124, and the connecting member 311 is mated with the mating aperture 3124. The tool holder member 312 further includes an end sealing portion 3123, the end sealing portion 3123 is closed toward the center line of the insertion hole 3124, and the second oil sealing member 34 is assembled to the tool holder member 312 and is limited to the end sealing portion 3123.

The connecting member 311 is inserted into the insertion hole 3124 and defines a fitting position of the connecting member 311 with the blade holder member 312. In an alternative embodiment, the inner wall surface of the insertion hole 3124 is provided with a rotation prevention portion, for example, the rotation prevention portion may be a plane, a curved surface, a groove, a boss, or other limiting structure that is engaged with the connecting member 311. The connecting member 311 and the carriage member 312 are only axially movable relative to each other.

The socket hole 3124 extends from one end of the stepped portion 3112 in a direction of the socket portion 3121, and the end seal portion 3123 is located at the socket portion 3121 and is folded in a direction of a center line of the socket hole 3124 to form a stepped hole structure. The second oil seal member 34 is mounted to the carriage member 312 with its axial position blocked by the end seal portion 3123 and retained in the corresponding mounting configuration. The crushing cutter set 40 is inserted into the end sealing portion 3123, and the second oil seal 34 is connected with the crushing cutter set 40 in a sealing manner. Accordingly, the end seal 3123 provides a stable support for the second oil seal 34. Optionally, the end seal 3123 is provided with a tapered surface, and a portion of the surface of the second oil seal 34 is attached to the tapered surface.

The holder member 312 is connected to the cup 10 in a plugging manner, and in an alternative embodiment, the holder member 312 includes a limiting surface disposed on an outer side wall of the plugging portion 3121, and the limiting surface is used for limiting the rotation of the holder member 312 relative to the cup 10. Optionally, the limiting surface is provided as a plane or a curved surface. For example, the limiting surface and the other part of the surface of the inserting part 3121 are not in the same circumferential surface, the inner wall surface of the tool shaft hole 11 is provided with the positioning surface 12 matched with the limiting surface, the tool holder 312 is inserted into the cup holder 10 and is positioned by the limiting surface, the precision of the two is high, and the guiding effect is good.

In an optional embodiment, the connecting member 311 includes a body portion 3111 and a step portion 3112 protruding from an outer sidewall of the body portion 3111, and the body portion 3111 is inserted into the holder member 312. The step portion 3112 abuts on the holder member 312, and the cup body assembly 20 abuts on the step portion 3112. Optionally, the stepped portion 3112 abuts against the flange portion 3122.

The stepped portion 3112 may be provided at an end portion or a middle portion of the body portion 3111 to accommodate different coupling forms of the coupling member 311. For example, when the step portion 3112 is provided at the end of the body portion 3111, the entire connector 311 is configured like a "T", the body portion 3111 is inserted into the connector 311, the step portion 3112 abuts against the holder member 312, and the cup body assembly 20 is directly pressed against the step portion 3112. When the step portion 3112 is disposed in the middle of the main body portion 3111, at least a portion of the main body portion 3111 is inserted into the cup body assembly 20. One end of the body portion 3111 is inserted into the holder member 312 so that one side of the stepped portion 3112 abuts against the holder member 312. The other end of the body portion 3111 is connected to the cup body assembly 20 in a plug-in manner, so that the cup body assembly 20 is pressed against the other side of the step portion 3112. Optionally, the seal ring 35 is fitted on the body portion 3111 and attached to the step portion 3112.

In an alternative embodiment, the connecting member 311 is provided with a mounting hole 3113 in the shape of a counterbore, and the bearing assembly 32 and the first oil seal 33 are mounted in the mounting hole 3113. The connecting member 311 is connected to the holder member 312 by plugging, and the mounting hole 3113 is communicated with the plugging hole 3124. Optionally, a portion of the second oil seal 34 is inserted into the mounting hole 3113 and abuts against the bearing assembly 32.

As shown in fig. 1 and 5, in an alternative embodiment, the cup body assembly 20 is fixed to the cup holder 10 and pressed against the main holder body 31, and a portion of the main body portion 3111 penetrates through the bottom 23 of the cup body assembly 20 and penetrates into the accommodating space of the cup body assembly 20. The crushing cutter group 40 penetrates through the cutter frame main body 31, one end of the crushing cutter group is positioned in the accommodating space of the cup body component 20, and the other end of the crushing cutter group penetrates through the cutter frame main body 31 and the cup seat 10 and can be in driving connection with a driving device. The crushing cutter group 40 rotates around the rotation center line of the crushing cutter group and processes food materials in the cup body assembly 20, and the processing effect is good.

In an alternative embodiment, the cup body assembly 20 is provided as a container-like structure, and includes a bottom portion 23, an annular wall portion 22 surrounding the bottom portion 23, and at least two locking portions 21 provided on the bottom portion 23. The cup body assembly 20 is placed in the cup holder 10 and is lockingly coupled to the cup holder 10 by the locking part 21. The part of the connecting member 311 passes through the bottom 23 and is connected with the bottom 23 in a sealing manner, and the crushing cutter unit 40 is positioned in the surrounding area of the annular wall part 22 and can rotate relative to the cup body assembly 20 to process the food material in the cup body assembly 20. The locking part 21 is fixedly connected with the cup holder 10, and the connecting piece 311 is locked on the tool rest piece 312, so that the positioning effect is good.

As shown in fig. 1 and 6, the cup body component disclosed in the above embodiment is applied to a food processor, so that the crushing cutter group 40 can process the food material in the cup body component under the driving of the main machine component 50. In one embodiment, the food processor includes a main body part 50 and a cup part provided as the above embodiments, the cup part is assembled to the main body part 50, and the main body part 50 is drivingly connected to the crushing blade group 40. In an alternative embodiment, the cup body member is a dry grind cup. This cooking machine is used for realizing the cooking function of dry grinding cup promptly.

In an optional embodiment, the food processer further comprises a cup cover assembly covering the opening of the cup body assembly 20, so that the accommodating space of the cup body assembly 20 is in a closed state, and the sealing effect is good.

In an embodiment, the host component 50 includes a base 51, a driving assembly 52 installed on the base 51, and a control module disposed in the base 51, wherein the driving assembly 52 is electrically connected to the control module, and the control module controls the driving assembly 52 to operate according to a built-in program, so that the food processor performs a corresponding function of the material machine.

In an alternative embodiment, the drive assembly 52 is provided as a motor assembly mounted to the base 51 with an output shaft of the motor assembly projecting from the base 51, and a lower clutch mounted to the output shaft of the motor assembly. The cup part is placed on the base 51, and the upper clutch of the crushing cutter group 40 is connected with the lower clutch of the driving assembly 52 in a plugging manner, so that the main machine part 50 is in driving connection with the cup part. The driving assembly 52 drives the crushing cutter set 40 to rotate, so that the crushing cutter set 40 processes the food materials in the cup body assembly 20, and the food materials are convenient to process.

In an alternative embodiment, the driving assembly 52 is a magnetic driving assembly mounted on the base 51, a magnetic assembly is disposed on the crushing cutter set 40, and the driving assembly 52 is magnetically and inductively connected with the magnetic assembly, so that the driving assembly 52 drives the crushing cutter set 40 to rotate.

The above embodiments are merely preferred embodiments of the present application, which are not intended to limit the present application, and the above embodiments may be combined with each other without conflict. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. The utility model provides a cup part, its characterized in that, including cup (10), cup body subassembly (20), knife rest subassembly (30) and assemble in crushing knife tackle (40) of knife rest subassembly (30), knife rest subassembly (30) assemble in cup (10), cup body subassembly (20) crimping in knife rest subassembly (30) and fixed extremely cup (10), knife rest subassembly (30) with sealing connection between cup (10), crushing knife tackle (40) run through cup body subassembly (20) and cup (10) and can rotate around the axis of self, the both ends of knife rest subassembly (30) respectively with crushing knife tackle (40) sealing connection.

2. The cup component of claim 1, wherein the tool carrier assembly (30) comprises a tool carrier main body (31) assembled on the cup holder (10), a bearing assembly (32) installed in the tool carrier main body (31), a first oil seal (33) and a second oil seal (34), the crushing tool set (40) is inserted into the tool carrier main body (31) and is assembled and connected with the bearing assembly (32), and the first oil seal (33) and the second oil seal (34) are positioned at two ends of the bearing assembly (32) and are connected with the crushing tool set (40) in a sealing mode.

3. A cup body component according to claim 2, wherein the holder body (31) is plug-connected to the cup holder (10), the cup body assembly (20) being crimped to the holder body (31).

4. The cup component of claim 2, wherein the cartridge body (31) includes a connecting member (311) and a cartridge member (312) detachably connected to the connecting member (311), a mounting space is formed between the connecting member (311) and the cartridge member (312), and the first oil seal member (33), the second oil seal member (34), and the bearing assembly (32) are located in the mounting space and are fittingly connected to one of the connecting member (311) and the cartridge member (312).

5. A cup body part according to claim 4, characterised in that the connecting piece (311) is plugged or crimped or screwed with the holder piece (312), the holder piece (312) being plugged into the cup holder (10).

6. The cup component of claim 5, wherein the holder member (312) comprises a socket portion (3121) and a flange portion (3122) protruding from the socket portion (3121), the socket portion (3121) is connected to the cup holder (10) in a socket manner, and the flange portion (3122) abuts against the cup holder (10).

7. The bowl unit as claimed in claim 4, wherein the holder member (312) is provided with a fitting hole (3124), the connecting member (311) is fitted into the fitting hole (3124), the holder member (312) further comprises an end seal portion (3123) converging in a direction of a center line of the fitting hole (3124), and the second oil seal member (34) is fitted to the holder member (312) and is defined at the end seal portion (3123).

8. The cup body part according to claim 4, wherein the connecting member (311) comprises a main body part (3111) and a step part (3112) protruding from an outer side wall of the main body part (3111), the main body part (3111) is connected to the holder part (312) in an inserting manner, the step part (3112) abuts against the holder part (312), and the cup body assembly (20) is pressed against the step part (3112).

9. A food processor, comprising a main body part (50) and the cup body part of any one of claims 1 to 8, wherein the cup body part is assembled on the main body part (50), and the main body part (50) is in driving connection with the crushing cutter set (40).

10. The food processor of claim 9, wherein the cup body member is provided as a dry grind cup.

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