CN219249938U - Food processor - Google Patents

Abstract

The present disclosure relates to a food processor. This cooking machine includes: a cup assembly and a base assembly; cup assembly includes: the cup comprises a cup cover, a cup body, a handle, a cup cover detection element, a cutter rest, a heating disc, a motor, a cup body seat, a first cable connector and a temperature detection unit; the cup cover is arranged on the cup body, the handle is positioned on the side wall of the cup body, the cutter rest is positioned in the cup body, the motor is positioned at the bottom of the cup body, and the cutter rest shaft of the cutter rest is directly connected with the rotating shaft of the motor; the heating disc is positioned between the tool rest and the motor, and the cup cover detection unit, the heating disc, the motor and the temperature detection unit are all connected with the first cable connector; the heating disc, the motor, the first cable connector and the temperature detection unit are all positioned in the cup body seat; the cup body assembly is placed on the base assembly; a second cable connector is arranged above the platform part of the base assembly; after the cup assembly is placed on the base assembly, the second cable connector can be spliced with the first cable connector, so that reliable electrical connection is realized.

Description

Food processor

Technical Field

The present disclosure relates to household electrical appliances technical field, especially relates to cooking machine.

Background

At present, a common food processor driving device is generally driven by a switch reluctance motor, and because the switch reluctance motor has larger noise and vibration, the larger vibration and noise of the food processor are directly caused. In addition, the motor is arranged in the base of the cooking machine, the knife rest is arranged in the cup body, and the knife rest and the driving motor are connected through a coupler (commonly called mushroom head). Because driving motor and rotatory tool rest separate arrangement in cup and base, there can be great coaxial deviation in motor shaft and the tool rest axle, and this kind of deviation itself can aggravate cooking machine's mechanical vibration and noise.

Therefore, how to reduce the vibration of the food processor to reduce the noise of the food processor is a problem to be solved.

Disclosure of Invention

In order to overcome the problems existing in the related art, the embodiment of the disclosure provides a food processor. The technical scheme is as follows:

according to a first aspect of embodiments of the present disclosure, there is provided a food processor, comprising: a cup assembly and a base assembly;

the cup assembly includes: the cup comprises a cup cover, a cup body, a handle, a cup cover detection element, a cutter rest, a heating disc, a motor, a cup body seat, a first cable connector and a temperature detection unit;

the cup cover is covered on the cup body, the handle is positioned on the side wall of the cup body, the cutter rest is positioned in the cup body, the motor is positioned at the bottom of the cup body, and the cutter rest shaft of the cutter rest is directly connected with the rotating shaft of the motor; the heating disc is positioned between the tool rest and the motor, and the cup cover detection unit, the heating disc, the motor and the temperature detection unit are all connected with the first cable connector; the heating disc, the motor, the first cable connector and the temperature detection unit are all positioned in the cup body seat;

the cup body assembly is arranged on the base assembly; the base assembly includes: a platform part, a cable-stayed frame part and a lower boss part;

a second cable connector is further arranged above the platform part of the base assembly;

after the cup assembly is placed on the base assembly, the second cable connector can be spliced with the first cable connector to realize reliable electrical connection;

the device comprises a platform part, a cable-stayed frame part, a device fixing groove, a connecting rod and a connecting rod, wherein the cable-stayed frame part is connected with the platform part through a rib plate, one side of the plate surface of the cable-stayed frame part is provided with the device fixing groove, and the device fixing groove is used for embedding man-machine interaction equipment;

the bottom of the equipment fixing groove is provided with a threading hole for the human-computer interaction equipment to pass through with a communication line of drive control;

the side wall of the lower boss part is provided with a through hole for embedding a knob;

a driving controller is arranged in the lower boss part.

The cooking machine that this disclosure provided includes: a cup assembly and a base assembly; cup assembly includes: the cup comprises a cup cover, a cup body, a handle, a cup cover detection element, a cutter rest, a heating disc, a motor, a cup body seat, a first cable connector and a temperature detection unit; the cup cover is arranged on the cup body, the handle is positioned on the side wall of the cup body, the cutter rest is positioned in the cup body, the motor is positioned at the bottom of the cup body, and the cutter rest shaft of the cutter rest is directly connected with the rotating shaft of the motor; the heating disc is positioned between the tool rest and the motor, and the cup cover detection unit, the heating disc, the motor and the temperature detection unit are all connected with the first cable connector; the heating disc, the motor, the first cable connector and the temperature detection unit are all positioned in the cup body seat; the cup body assembly is placed on the base assembly; the base assembly includes: a platform part, a cable-stayed frame part and a lower boss part; a second cable connector is arranged above the platform part of the base assembly; after the cup body assembly is placed on the base assembly, the second cable connector can be spliced with the first cable connector, so that reliable electrical connection is realized; the device comprises a platform part, a cable-stayed frame part, a panel and a device fixing groove, wherein the cable-stayed frame part is connected with the platform part through a rib plate, and the device fixing groove is formed in one side of the panel of the cable-stayed frame part and is used for embedding man-machine interaction equipment; the bottom of the equipment fixing groove is provided with a threading hole for the communication line of the man-machine interaction equipment and the drive control to pass through; the side wall of the lower boss part is provided with a through hole for embedding a knob; a driving controller is arranged in the lower boss part. Wherein, set up the motor in the cup bottom, in the cup was arranged in to the knife rest, in the pivot of knife rest axle direct insertion motor, adopt such grafting cooperation can save the epaxial device of linking on traditional cooking machine, avoided the annex vibration and the noise that the different axle of motor shaft and knife rest axle aroused, need not supplementary device of linking, can realize that the motor drives the knife rest and rotate to reduce the vibration and the noise of cooking machine, promote user experience.

In one embodiment, the cup holder is barrel-shaped, comprising: the bottom plate of the cup body seat faces to the boss protruding from the inner side of the cup body seat;

the upper part of the platform part is provided with a plurality of fan-shaped protruding parts, the positions of the fan-shaped protruding parts correspond to the positions of the fan-shaped separating parts, and the hollow parts of the fan-shaped separating parts are spliced on the fan-shaped protruding parts.

In one embodiment, the driving controller includes: a motor driving part and a cooking machine control part;

a position magnet is arranged at one end of the rotating shaft, which is away from the tool rest;

the motor driving part is provided with a magnet detection chip, and the magnet detection chip is coaxially aligned with the position magnet; the motor driving part can judge the position of the rotor through the magnetic field change of the magnet detection chip to the magnet so as to realize closed-loop vector control of the motor, and can determine whether the cup assembly is placed on the cup seat assembly through the magnetic field change of the magnet detection chip to the magnet.

In one embodiment, a base rubber pad is provided in the lower boss portion on a side facing away from the platform portion.

In one embodiment, one end of the rotating shaft, which is used for being inserted into the tool rest shaft, is a flat shaft.

In one embodiment, the rotating shaft is a hollow shaft, and the tool rest shaft is inserted into the hollow structure of the flat shaft end.

In one embodiment, the cup assembly further comprises: a transition piece;

the shape of the transition piece is matched with that of the cup body, and threads are arranged on the inner side of the outer wall of the transition piece; the transition piece further includes: an internal platform;

the heating disc is positioned on the inner platform, the tool rest is positioned at the center of the heating disc, and threads arranged on the outer side of the cup body are matched with threads on the inner side of the outer wall of the transition piece;

the transition piece is installed in the cup body seat, and a motor cavity for accommodating a motor is formed between the bottom of the inner platform of the transition piece and the bottom of the cup body seat.

In one embodiment, a gasket is disposed between the heating plate and the inner platform.

In one embodiment, the cup holder further comprises: the extension boss is arranged on the outer side of the die,

the extension boss is provided with a square hole for fixing the first cable connector.

In one embodiment, the motor comprises: the motor comprises a first motor bracket, a second motor bracket and a motor body;

the first motor bracket includes: a first bracket web portion, a first bracket outer circle boss portion provided above the first bracket web portion, and an outer circle lug portion provided at the outer periphery of the first bracket web portion;

the second motor bracket includes: a second bracket web, a second bracket outer circle boss portion provided on the second bracket web;

the first support outer circle boss part is matched with the second support outer circle boss part to form a motor body cavity for accommodating the motor body;

the outer circle lug part is connected with the boss table surface of the fan-shaped separation part through a connecting piece;

the rotating shaft hole of the motor body is positioned at the center positions of the first bracket web plate part and the second bracket web plate, and the rotating shaft is inserted into the rotating shaft hole.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the disclosure and together with the description, serve to explain the principles of the disclosure.

Fig. 1 is a schematic structural view of a food processor according to an exemplary embodiment.

Fig. 2 is a schematic structural view of a cup assembly according to an exemplary embodiment.

FIG. 3 is a cross-sectional view of a cup assembly shown according to an exemplary embodiment.

FIG. 4 is an exploded schematic view of a cup assembly shown according to an exemplary embodiment.

Fig. 5 is a schematic structural view of a tool post according to an exemplary embodiment.

Fig. 6 is a schematic structural view of a rotating shaft according to an exemplary embodiment.

FIG. 7 is an exploded view of a base assembly shown according to an exemplary embodiment.

Fig. 8 is a schematic structural view of a base assembly according to an exemplary embodiment.

Fig. 9 is a schematic view showing a structure of a cup holder according to an exemplary embodiment.

FIG. 10 is a schematic structural view of a transition piece shown according to an exemplary embodiment.

Fig. 11 is a schematic structural view of a motor according to an exemplary embodiment.

Fig. 12 is a schematic structural view of a motor according to an exemplary embodiment.

Fig. 13 is a schematic structural view of a motor according to an exemplary embodiment.

Detailed Description

Reference will now be made in detail to exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, the same numbers in different drawings refer to the same or similar elements, unless otherwise indicated. The implementations described in the following exemplary examples are not representative of all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with some aspects of the present disclosure as detailed in the accompanying claims.

Fig. 1 is a schematic structural view of a food processor, as shown in fig. 1, according to an exemplary embodiment, including: a cup body assembly 1 and a base assembly 2;

referring to fig. 2-4, the cup assembly 1 includes: cup lid 11, cup 12, handle 13, cup lid 11 detecting element 14, blade holder 15, heating plate 16, motor 17, cup holder 18, first cable connector 19, and temperature detecting unit 110;

the cup cover 11 is covered on the cup body 12, the handle 13 is positioned on the side wall of the cup body 12, the cutter rest 15 in fig. 5 is positioned in the cup body 12, the cutter rest 15 is the same as the cutter rest 15 in the related art and comprises a rotary cutter, a cutter shaft, a supporting piece, a locking screw, a bearing, a sealing piece and the like, the motor 17 is positioned at the bottom of the cup body 12, and the cutter rest shaft 151 of the cutter rest 15 is directly connected with the rotating shaft of the motor 17; the heating plate 16 is positioned between the tool rest 15 and the motor 17, and the detection unit of the cup cover 11, the heating plate 16, the motor 17 and the temperature detection unit 110 are all connected with the first cable connector 19; the heating plate 16, the motor 17, the first cable connector and the temperature detection unit 110 are all positioned in the cup holder 18;

in one embodiment, referring to fig. 6, the rotating shaft 171 is a hollow shaft, one end of the rotating shaft 171 for inserting the tool rest shaft 151 is a flat shaft 1711, and the tool rest shaft 151 is inserted into the hollow structure of the flat shaft end.

Referring to fig. 7-8, the cup 12 assembly is placed on the base assembly 2; the base assembly 2 includes: a platform portion 21, a cable-stayed frame portion 22, and a lower boss portion 23;

a second cable connector 24 is provided above the platform portion 21;

after the cup 12 assembly is placed on the base assembly 2, the second cable connector 24 can be plugged with the first cable connector to realize reliable electrical connection;

the cable-stayed frame part 22 is connected with the platform part 21 through a rib plate, one side of the plate surface of the cable-stayed frame part 22 is provided with a device fixing groove 221, and the device fixing groove 221 is used for embedding man-machine interaction equipment 222;

the bottom of the equipment fixing groove 221 is provided with a threading hole for the human-computer interaction equipment 222 to pass through with a communication line of drive control;

the side wall of the lower boss part 23 is provided with a through hole 223 for embedding a knob 224;

a drive controller 225 is provided inside the lower boss portion 23;

in one embodiment, the side of the table 231 of the lower boss 23 facing away from the platform 21 may be provided with a base cushion 226 for improving the reliability of the base fixation.

Wherein, the man-machine interaction device 222 may include: human-computer interaction PCB2221, knob, human-computer interaction device 222 (e.g., screen), etc. may integrate functions such as voice interaction, bluetooth, NFC interaction, WIFI interconnection, knob operation, touch screen, display, etc. The knob adopts a magnetic induction knob, is arranged below the inclined pulling frame part 22 in the lower cavity and is fixed on the man-machine interaction PCB; the screen is fixed to the diagonal frame 22 and has a touch and display function. Bluetooth, NFC, pronunciation, WIFI interconnection module are arranged in on the human-computer interaction PCB board.

Wherein the electrical devices such as the motor 17, the heating plate 16, the temperature detecting element, the cup cover detecting element 14 and the like arranged in the cup 12 are connected to a first cable connector (female) through cables, and the cable connector is arranged in a boss extending out of the cup seat 18. The cup 12 is placed on the base and then plugged into a second cable connector 24 (male) on the base to provide a reliable electrical connection. The number of connector pins may be 9-12 pins.

In one embodiment, a drive controller includes: a motor 17 driving part and a food processor control part;

one end of the rotating shaft 171, which is away from the tool rest 15, is provided with a position magnet;

the motor 17 driving part is provided with a magnet detecting chip 2251, and the magnet detecting chip 2251 is coaxially aligned with the position magnet; the motor 17 driving part can judge the position of the rotor through the magnetic field change of the magnet detection chip 2251 to the magnet so as to realize closed-loop vector control of the motor 17, and can determine whether the cup 12 assembly is placed on the cup holder assembly through the magnetic field change of the magnet detection chip 2251 to the magnet.

The motor 17 driving part may be provided with a magnet detecting chip 2251, where the magnet detecting chip 2251 is coaxially aligned with a magnet on the motor 17, and may have an axial gap with the magnet within 10mm, and the rotor position of the permanent magnet motor 17 is determined by the magnetic field change of the magnet detecting chip 2251 to the magnet, so as to implement closed-loop vector control of the motor 17. Meanwhile, the magnet is used for detecting whether the cup body 12 is installed or not as a signal, and is used for replacing a traditional micro switch position detection device, so that the system structure is simplified.

Wherein, the drive controller of cooking machine bears functions such as power connection, motor 17 drive and cooking machine's intelligent control simultaneously, integrates in same piece PCB inboard, still is equipped with magnet detection chip 2251 on the PCB board, and the detection chip aligns with the magnet of motor 17 pivot 171 bottom, and the magnetic field that produces through the chip detection magnet marks motor 17 rotor magnetic pole position, and the feedback is for motor 17 driver realization motor 17 has sensor closed loop vector control. Meanwhile, the driving controller also judges whether the cup body 12 is correctly installed according to the size of the magnetic field of the magnet to be used as a judging basis for supplying power to the cup body 12, and the food processor is provided with a man-machine interaction device, so that interaction functions such as voice, bluetooth, NFC, WIFI interconnection, knob operation, touch screen operation and display can be realized, and user experience is improved. The human-computer interaction PCB board is located to pronunciation, bluetooth, NFC, WIFI interconnection module, and the base side is located to the knob, and human-computer interaction interface is used for providing touch screen operation and display function, locates on the oblique cable-stay frame of base, and the certain angle of oblique cable-stay frame slope (this scheme is 30 degrees of slope), the personnel's of being convenient for operate.

Referring to fig. 9, the cup holder 18 is barrel-shaped, including: a plurality of sector-shaped dividing portions 181, the bottom plate of the cup body seat 18 positioned at the sector-shaped dividing portions 181 faces the boss protruding toward the inner side of the cup body seat 18,

a plurality of fan-shaped protruding portions 211 are arranged above the platform portion 21, the positions of the fan-shaped protruding portions 211 correspond to the positions of the fan-shaped dividing portions 181, and the hollow portions of the fan-shaped dividing portions 181 are inserted into the fan-shaped protruding portions 211.

The hollow portion of the fan-shaped partition 181 on the cup holder 18 may cooperate with the boss on the base assembly 2 to locate the cup 12.

When the number of the fan-shaped separating parts 181 is 4, the platform part 21 can be correspondingly provided with four fan-shaped bulges uniformly distributed on the circumference, and the fan-shaped bulges are matched with the fan-shaped separating parts 181 of the base of the cup body 12 to play a role in positioning, and the upper part of the fan-shaped bulges is narrower than the lower part of the fan-shaped bulges and is conical, so that the cup body seat 18 is conveniently embedded.

The cup holder 18 further includes: and an extension boss 182, wherein the extension boss 182 is provided with a square hole for fixing the first cable connector.

A base rubber pad 226 is provided on a side of the table 231 of the lower boss portion 23 facing away from the platform portion 21, for improving reliability of base fixing.

Referring to fig. 10, the cup 12 assembly further includes: a transition piece 111;

the shape of the transition piece 111 is matched with that of the cup body 12, and threads 1111 are arranged on the inner side of the outer wall of the transition piece 111; the transition piece 111 further includes: an internal platform 1112;

the heating plate 16 is positioned on the inner platform 1112, the tool rest 15 is positioned at the center of the heating plate 16, and threads arranged on the outer side of the cup body 12 are matched with threads 1111 on the inner side of the outer wall of the transition piece 111;

the transition piece 111 is mounted within the cup holder 18, and a motor 17 cavity is formed between the inner platform bottom of the transition piece 111 and the bottom of the cup holder 18 to accommodate the motor 17.

The heating plate 16 is arranged at a platform in the middle of the inner side of the transition piece 111, the cup body 12 is connected to the transition piece 111 through threads, and a sealing gasket is arranged between the heating plate 16 and the cup body 12. The knife rest 15 is arranged at the center hole of the heating disc 16 and comprises a rotary knife, a knife shaft, a supporting piece, a locking screw, a bearing, a sealing piece and the like. In order to further reduce the height of the cup body 12, the heating plate 16 adopts a stainless steel substrate thick film electric heating element, the thickness of the heating plate is smaller than that of a traditional heating pipe element, the heating speed is higher, the heat efficiency is higher, the service life is longer, and the heating plate 16 is heated more uniformly, so that the risk of sticking the bottom of the food processor is reduced. The heating plate 16 is integrated with a temperature detection element, so that the temperature in the cup body 12 can be detected in real time, and intelligent control of the food processor is realized conveniently.

In order to promote a reliable connection between the hotplate 16 and the inner platform, a gasket 112 is provided between the hotplate 16 and the inner platform.

Referring to fig. 11-13, the motor 17 of the present disclosure includes: the motor comprises a first motor bracket, a second motor bracket and a motor body;

the first motor support includes: a first bracket web portion 1711, a first bracket outer circumferential boss portion provided above the first bracket web portion 1711, and an outer circumferential lug portion 1712 provided at the outer circumference of the first bracket web portion 1711;

the second motor bracket includes: a second bracket web 1721, a second bracket outer circumferential boss portion 1722 provided on the second bracket web 1721;

the first bracket outer circle boss portion cooperates with the second bracket outer circle boss portion 1722 to form a cavity for accommodating the motor body;

the outer circle lug 1712 is connected with the boss table surface of the sector separation part 181 through a connecting piece;

for example, a through hole may be formed in the outer lobe portion 1712, a through hole may also be formed in the fan-shaped partition portion 181, and then the two may be connected by a connector, or a circular hole may be formed in the lobe portion, a groove may be formed in a side wall of the circular hole, and a positioning protrusion may be formed at a top end of a protrusion portion of a boss of the fan-shaped partition portion 181, and the positioning protrusion is formed to be matched with the groove of the outer lobe portion 1712.

The rotation shaft hole 1731 of the motor body is located at the center of the first bracket web 1711 and the second bracket web 1721, and the rotation shaft 171 is inserted into the rotation shaft hole 1731.

The shape of the rotation shaft hole 1731 matches the shape of the rotation shaft 171.

In this disclosure, set up motor 17 in cup 12 bottom, cutter frame 15 is arranged in cup 12, in cutter frame shaft 151 lug insert motor 17's pivot 171, adopt such grafting cooperation can save the epaxial device of linking on the traditional cooking machine, accessory vibration and noise that the different axle of pivot 171 and cutter frame shaft 151 of having avoided the motor aroused need not supplementary linking device, can realize that motor 17 drives cutter frame 15 and rotate to reduce the vibration and the noise of cooking machine, promote user experience.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This application is intended to cover any adaptations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It is to be understood that the present disclosure is not limited to the precise arrangements and instrumentalities shown in the drawings, and that various modifications and changes may be effected without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (10)

1. A cooking machine, characterized by comprising: a cup assembly and a base assembly;

the cup assembly includes: the cup comprises a cup cover, a cup body, a handle, a cup cover detection element, a cutter rest, a heating disc, a motor, a cup body seat, a first cable connector and a temperature detection unit;

the cup cover is covered on the cup body, the handle is positioned on the side wall of the cup body, the cutter rest is positioned in the cup body, the motor is positioned at the bottom of the cup body, and the cutter rest shaft of the cutter rest is directly connected with the rotating shaft of the motor; the heating disc is positioned between the tool rest and the motor, and the cup cover detection unit, the heating disc, the motor and the temperature detection unit are all connected with the first cable connector; the heating disc, the motor, the first cable connector and the temperature detection unit are all positioned in the cup body seat;

the cup body assembly is arranged on the base assembly; the base assembly includes: a platform part, a cable-stayed frame part and a lower boss part;

a second cable connector is further arranged above the platform part of the base assembly;

after the cup assembly is placed on the base assembly, the second cable connector can be spliced with the first cable connector to realize reliable electrical connection;

the device comprises a platform part, a cable-stayed frame part, a device fixing groove, a connecting rod and a connecting rod, wherein the cable-stayed frame part is connected with the platform part through a rib plate, one side of the plate surface of the cable-stayed frame part is provided with the device fixing groove, and the device fixing groove is used for embedding man-machine interaction equipment;

the bottom of the equipment fixing groove is provided with a threading hole for the human-computer interaction equipment to pass through with a communication line of drive control;

the side wall of the lower boss part is provided with a through hole for embedding a knob;

a driving controller is arranged in the lower boss part.

2. The food processor of claim 1, wherein the cup holder is barrel-shaped and comprises: the bottom plate of the cup body seat faces to the boss protruding from the inner side of the cup body seat;

the upper part of the platform part is provided with a plurality of fan-shaped protruding parts, the positions of the fan-shaped protruding parts correspond to the positions of the fan-shaped separating parts, and the hollow parts of the fan-shaped separating parts are spliced on the fan-shaped protruding parts.

3. The food processor of claim 2, wherein the drive controller comprises: a motor driving part and a cooking machine control part;

a position magnet is arranged at one end of the rotating shaft, which is away from the tool rest;

the motor driving part is provided with a magnet detection chip, and the magnet detection chip is coaxially aligned with the position magnet; the motor driving part can judge the position of the rotor through the magnetic field change of the magnet detection chip to the magnet so as to realize closed-loop vector control of the motor, and can determine whether the cup assembly is placed on the cup seat assembly through the magnetic field change of the magnet detection chip to the magnet.

4. The food processor of claim 1, wherein a base cushion is disposed on a side of the lower boss portion facing away from the platform portion.

5. The food processor of claim 1, wherein one end of the rotating shaft for being inserted into the tool rest shaft is a flat shaft.

6. The food processor of claim 5, wherein the rotating shaft is a hollow shaft, and the knife rest shaft is inserted into the hollow structure of the flat shaft end.

7. The food processor of claim 1, wherein the cup assembly further comprises: a transition piece;

the shape of the transition piece is matched with that of the cup body, and threads are arranged on the inner side of the outer wall of the transition piece; the transition piece further includes: an internal platform;

the heating disc is positioned on the inner platform, the tool rest is positioned at the center of the heating disc, and threads arranged on the outer side of the cup body are matched with threads on the inner side of the outer wall of the transition piece;

the transition piece is installed in the cup body seat, and a motor cavity for accommodating a motor is formed between the bottom of the inner platform of the transition piece and the bottom of the cup body seat.

8. The food processor of claim 7, wherein a gasket is disposed between the heating plate and the inner platform.

9. The food processor of claim 1, wherein the cup holder further comprises: the extension boss is arranged on the outer side of the die,

the extension boss is provided with a square hole for fixing the first cable connector.

10. The food processor of claim 2, wherein the motor comprises: the motor comprises a first motor bracket, a second motor bracket and a motor body;

the first motor bracket includes: a first bracket web portion, a first bracket outer circle boss portion provided above the first bracket web portion, and an outer circle lug portion provided at the outer periphery of the first bracket web portion;

the second motor bracket includes: a second bracket web, a second bracket outer circle boss portion provided on the second bracket web;

the first support outer circle boss part is matched with the second support outer circle boss part to form a motor body cavity for accommodating the motor body;

the outer circle lug part is connected with the boss table surface of the fan-shaped separation part through a connecting piece;

the rotating shaft hole of the motor body is positioned at the center positions of the first bracket web plate part and the second bracket web plate, and the rotating shaft is inserted into the rotating shaft hole.

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