CN214964808U - Food processor convenient to assemble - Google Patents

Abstract

The utility model discloses a convenient food preparation machine of equipment belongs to food preparation machine technical field, including host computer and crushing unit, crushing unit is including smashing cup, crushing sword and motor, and crushing sword is located in smashing the cup, and the motor is located in the host computer and is used for the drive to smash the sword, crushing unit still includes cup and heating plate, and the bottom of smashing the cup is located to the cup, and heating plate fixed connection is equipped with location connection structure in the bottom of cup between cup and the heating plate. The heating plate and the cup seat can be effectively positioned when being assembled through the positioning connection structure, the assembly difficulty of the heating plate and the cup seat is favorably reduced, the concentricity between the heating plate and the cup seat can be improved, and the vibration and the noise of the machine body during working are favorably reduced. Can also improve the structural stability of heating plate and cup after the equipment is accomplished through location connection structure, be favorable to improving the holistic stability of crushing unit.

Description

Food processor convenient to assemble

Technical Field

The utility model relates to a food preparation machine technical field especially relates to a convenient food preparation machine of equipment.

Background

The existing food processor generally comprises a main machine and a crushing cup, wherein a motor is arranged in the main machine, a crushing cutter is arranged in the crushing cup, and when the machine body works, the motor drives the crushing cutter to rotate at a high speed to cut and crush materials in the crushing cup, so that the purpose of processing food is achieved. The bottom of smashing the cup generally is provided with the heating plate, and the heating plate can advance the heating to the material in smashing the cup, can be better satisfy the food processing requirement. In the structure of the existing food processor, a heating plate is generally arranged at the bottom of a cup body through a cup seat, and the heating plate and the cup seat have no positioning relation, so that the assembly efficiency is not improved.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects existing in the prior art, the utility model provides a food processor convenient to assemble, which is beneficial to improving the assembly efficiency between a heating plate and a cup seat.

In order to realize the technical purpose, the utility model provides a pair of convenient food preparation machine of equipment, including host computer and crushing unit, crushing unit is including smashing cup, crushing sword and motor, smashes the sword and locates in smashing the cup, and the motor is located the host computer and is used for the drive to smash the sword, crushing unit still includes cup and heating plate, and the bottom of smashing the cup is located to the cup, and heating plate fixed connection is equipped with location connection structure in the bottom of cup between cup and the heating plate.

Preferably, the positioning connection structure comprises positioning columns and positioning holes which are matched with each other, the positioning columns are provided with a plurality of positioning holes which are distributed on the top surface of the heating plate at intervals, the positioning holes are arranged on the bottom surface of the cup base and correspond to the positioning columns, and the positioning columns are inserted into the positioning holes.

Preferably, the distance between at least one of the positioning columns and the center of the heating plate is different from the distance between the other positioning columns and the center of the heating plate.

Preferably, the top end of the positioning column is provided with a round corner; and/or a chamfer is arranged at the bottom end of the positioning hole.

Preferably, the positioning connection structure comprises a plurality of through holes and connecting holes which correspond to each other, the through holes are distributed on the heating plate at intervals, the connecting holes are distributed on the bottom surface of the cup seat at intervals, and screws for connecting the heating plate and the cup seat penetrate through the through holes and are screwed in the connecting holes.

Preferably, the distance between each through hole and the center of the heating plate is consistent.

Preferably, the positioning columns and the through holes are distributed in a staggered manner along the circumferential direction of the heating plate; and/or a plurality of convex parts distributed at intervals are arranged on the circumferential outer wall of the cup seat, and the positioning holes or the connecting holes are arranged at the convex parts.

Preferably, the grinding assembly further comprises a sealing ring, and the sealing ring is arranged between the top surface of the heating plate and the bottom surface of the grinding cup.

Preferably, the top surface of the heating plate is provided with a circle of inner convex edge, and the sealing ring is positioned on the periphery of the inner convex edge; and/or the bottom end of the inner wall of the cup base is provided with a circle of convex edge, and the sealing ring is positioned on the inner periphery of the convex edge.

Preferably, the heating plate is connected to the host computer, and the motor is hung and mounted on the bottom of the heating plate.

After the technical scheme is adopted, the utility model has the advantages of as follows:

1. the utility model provides a food preparation machine adds between cup and heating plate and has established location connection structure, can make heating plate and cup receive effectual location when the equipment through this location connection structure, is favorable to reducing the equipment degree of difficulty of heating plate and cup to be favorable to improving packaging efficiency between them. In addition, the concentricity between the heating plate and the cup seat can be improved through the positioning connection structure, the whole concentricity of the crushing assembly is convenient to improve, the vibration and the noise of the machine body during working are favorably reduced, and the use experience of a user is favorably improved. Moreover, the structure stability of the heating plate and the cup seat after the assembly is finished can be effectively improved through the positioning connection structure, and the integral stability of the crushing assembly is favorably improved.

2. The positioning connection structure adopts a positioning column and positioning hole matched structure to realize positioning between the heating plate and the cup seat during assembly, the positioning matching structure between the heating plate and the cup seat is simple, positioning assembly is convenient, and the positioning requirement between the heating plate and the cup seat can be well met.

3. The distance between at least one positioning column and the heating plate center is different from the distance between other positioning columns and the heating plate center, the positioning matching position between the heating plate and the cup seat is unique through the difference of the distance between the positioning columns and the heating plate center, and the purpose of preventing mistaken installation is achieved.

4. The top of reference column sets up the fillet, and the bottom of locating hole sets up the chamfer, helps reducing the degree of difficulty that the reference column inserted in the locating hole through fillet and chamfer, makes heating plate and cup can install smoothly when the location installation, helps reducing the location degree of difficulty between heating plate and the cup.

5. The positioning connection structure adopts screws to realize the fixed connection between the heating plate and the cup seat, the screws penetrate through holes in the heating plate and are screwed in connecting holes in the cup seat, the fixed connection structure between the heating plate and the cup seat is simple, the assembly is convenient, and the fixed connection strength can meet the structural requirements well.

6. The reference column and the through-hole distribute along the circumference of heating plate in a staggered manner, the distribution relation of the reference column and the through-hole is reasonably set, and the positioning stability of the cup seat and the heating plate during assembly and the connection stability of the cup seat and the heating plate after assembly are improved.

The positioning holes or the connecting holes are formed in the protruding cup seat, and the positioning holes or the connecting holes can be reasonably formed through the protruding portions under the condition that the overall thickness of the cup seat is not increased, so that the structural strength of the cup seat is guaranteed, and meanwhile, the production cost of the cup seat is reasonably reduced.

7. The heating plate and the crushing cup are kept in effective sealing fit through the sealing ring, the situation that materials in the crushing cup overflow from a gap between the crushing cup and the heating plate and flow into the main machine is avoided, and the performance stability of each electric element in the main machine is guaranteed.

8. The sealing washer is located the periphery on the interior protruding edge of heating plate top surface, and the sealing washer is located the periphery on the outer protruding edge of cup base bottom, and through interior protruding edge, evagination edge messenger's sealing washer receive effectual radial positioning, improve the position stability of sealing washer, help improving the heating plate and smash sealed complex stability between the cup.

9. The crushing component is directly installed in the host machine, so that a support in the existing structure is omitted, the assembly size of the crushing component is reasonably reduced, the assembly connection points of the crushing component are reduced, the reasonable reduction of the overall dimension of the whole machine is facilitated, and the assembly efficiency is also facilitated to be improved. In addition, the bracket is omitted, so that vibration sources of the machine body during working are reasonably reduced, resonance points of the machine body during working are reduced, the vibration amplitude and the working noise of the machine body during working are favorably reduced, and the use experience of a user is favorably improved.

Drawings

FIG. 1 is a schematic view of a food processor according to an embodiment;

FIG. 2 is an exploded view of a grinding assembly of the food processor of an embodiment;

FIG. 3 is a schematic view of a cup holder of a food processor according to an embodiment;

FIG. 4 is a schematic view of a heating plate of a food processor according to an embodiment;

FIG. 5 is a schematic view of the connection between the cup holder and the heating plate of the food processor according to the embodiment;

FIG. 6 is a schematic view of a housing of a food processor according to an embodiment;

FIG. 7 is another schematic view of a housing of a food processor according to an embodiment;

FIG. 8 is another schematic view of a heating plate of a food processor according to an embodiment;

FIG. 9 is an enlarged view of the connection between the heating plate and the main body of the food processor according to the embodiment;

FIG. 10 is a schematic view of a food processor according to an embodiment.

In the figure, 100-a main machine, 110-a machine shell, 120-a base, 130-a fixed platform, 131-a first fixed hole, 140-a shock-absorbing sleeve, 141-a convex ring, 151-a first reinforcing rib, 152-a second reinforcing rib, 200-a crushing cup, 210-a cup body, 220-a cup cover, 230-an upper crushing cup body, 240-a lower crushing cup body, 300-a crushing knife, 400-a motor, 410-a hoisting part, 420-a thickening platform, 430-a second fixed hole, 500-a cup seat, 510-a positioning hole, 511-a chamfer, 520-a connecting hole, 530-a convex part, 540-an outer convex edge, 600-a heating plate, 610-a shaft hole, 620-a first fixed column, 630-a first boss, 640-a second fixed column and 650-a second boss, 660-drain hole, 670-positioning column, 671-round corner, 680-through hole, 690-inner convex edge, 700-drain valve, 710-drain channel and 800-sealing ring.

Detailed Description

The invention will be further explained with reference to the drawings and the specific embodiments. It is to be understood that the following terms "upper," "lower," "left," "right," "longitudinal," "lateral," "inner," "outer," "vertical," "horizontal," "top," "bottom," and the like are used in an orientation or positional relationship relative to one another only as illustrated in the accompanying drawings and are used merely for convenience in describing and simplifying the invention, and do not indicate or imply that the device/component so referred to must have a particular orientation or be constructed and operated in a particular orientation and therefore should not be considered as limiting the invention.

Example one

As shown in fig. 1 to 9, a food processor of the present invention includes a main frame 100 and a crushing assembly, the crushing assembly includes a crushing cup 200, a crushing blade 300 and a motor 400, the crushing blade 300 is disposed in the crushing cup 200, and the motor 400 is disposed in the main frame 100 and used for driving the crushing blade 300. The crushing assembly further comprises a cup holder 500 and a heating plate 600, the cup holder 500 is arranged at the bottom end of the crushing cup 200, the heating plate 600 is fixedly connected to the bottom of the cup holder 500, and a positioning connection structure is arranged between the cup holder 500 and the heating plate 600.

The heating plate and the cup seat can be effectively positioned when being assembled through the positioning connection structure, so that the assembly difficulty of the heating plate and the cup seat is favorably reduced, and the assembly efficiency of the heating plate and the cup seat is favorably improved. Can also improve the concentricity between heating plate and the cup through location connection structure, be convenient for improve the holistic concentricity of crushing unit, be favorable to reducing the vibrations and the noise of organism at the during operation. Through this location connection structure can effectively improve the structural stability of heating plate and cup after the equipment is accomplished, be favorable to improving the holistic stability of crushing unit.

In this embodiment, the grinding cup 200 includes a cup body 210 and a lid 220 for covering the cup body, the cup body 210 is fixed on the main body 100, and the cup holder 500 is fixed at the bottom end of the cup body 210 through a screw-thread fit structure.

Referring to fig. 3 and 4, the positioning connection structure includes a plurality of positioning posts 670 and positioning holes 510, the positioning posts 670 are mutually matched, the positioning posts 670 are arranged on the top surface of the heating plate 600 at intervals, and the positioning holes 510 are arranged on the bottom surface of the cup holder 500 and are in one-to-one correspondence with the positioning posts 670. During assembly, the positioning column 670 is inserted into the positioning hole 510, and the heating plate 600 and the cup holder 500 are positioned during assembly through the structure that the positioning column 670 is matched with the positioning hole 510, so that the positioning assembly is facilitated and the positioning requirement is met. In this embodiment, there are five positioning holes 510 and positioning posts 670.

To prevent misloading, the distance between at least one positioning column 670 and the center of the heating pan 600 is different from the distance between the other positioning columns and the center of the heating pan. The position of the positional engagement between the heating pan 600 and the cup holder 500 is made unique by the difference in the distance between the positioning column 670 and the center of the heating pan 600. In this embodiment, distances between the positioning posts 670 and the center of the heating plate 600 are different, and correspondingly, distances between the positioning holes 510 and the center of the cup holder 500 are also different.

To facilitate inserting the positioning posts 670 into the positioning holes 510, the top end of each positioning post 670 is provided with a fillet 671, and the bottom end of each positioning hole 510 is provided with a chamfer 511.

Fixed connection is realized between the heating plate 600 and the cup holder 500 through screws, the positioning connection structure further comprises through holes 680 and connecting holes 520 which are arranged in a mutually corresponding mode, the through holes 680 are provided with a plurality of holes and are distributed on the heating plate 600 at intervals, the connecting holes 520 and the through holes 680 are arranged in a one-to-one correspondence mode and are distributed on the bottom surface of the cup holder 500 at intervals, and the screws used for connecting the heating plate 600 and the cup holder 500 penetrate through the through holes 680 and are screwed in the connecting holes 520.

In this embodiment, the distance between each through hole 680 and the center of the heating plate 600 is the same. The number of the through holes 680 is five, the positioning columns 670 and the through holes 680 are distributed in a staggered manner along the circumferential direction of the heating plate 600, and the positioning holes 520 and the positioning holes 510 are distributed in a staggered manner along the circumferential direction of the cup holder 500, so that the improvement of the positioning stability of the cup holder 500 and the heating plate 600 during assembly and the connection stability of the cup holder after assembly is facilitated.

In order to reasonably reduce the production cost of the cup holder 500 while ensuring the structural strength of the cup holder 500, a plurality of protrusions 530 are arranged on the circumferential outer wall of the cup holder 500 at intervals, and the positioning holes 510 or the connecting holes 520 are arranged at the protrusions 530.

Referring to fig. 5, in order to achieve a sealing engagement between the heating plate 600 and the cup body 210, the grinding assembly further includes a sealing ring 800, and the sealing ring 800 is disposed between the top surface of the heating plate 600 and the bottom surface of the grinding cup 200. In order to improve the stability of the sealing ring 800, the top surface of the heating plate 600 is provided with a circle of inner convex edge 690, the bottom end of the inner wall of the cup holder 500 is provided with a circle of outer convex edge 540, the sealing ring 800 is sleeved on the outer periphery of the inner convex edge 690, and the sealing ring 800 is simultaneously positioned on the inner periphery of the outer convex edge 540, so that the sealing ring 800 is effectively positioned in the radial direction through the inner convex edge 690 and the outer convex edge 540.

In order to make the structure of the whole machine more compact, the inner wall of the main machine 100 is provided with the fixing table 130, the heating plate 600 is connected to the fixing table 130, the motor 400 is hung at the bottom of the heating plate 600, the heating plate 600 is provided with a shaft hole 610 matched with a motor shaft of the motor 400, and the motor shaft of the motor 400 penetrates through the shaft hole 610 and is connected with the crushing cutter 300. The crushing component is directly installed in the host machine, so that a support in the existing structure is omitted, the assembly size of the crushing component is reasonably reduced, the assembly connection points of the crushing component are reduced, the reasonable reduction of the overall dimension of the whole machine is facilitated, and the assembly efficiency is also facilitated to be improved. In addition, the bracket is omitted, so that vibration sources of the machine body during working are reasonably reduced, resonance points of the machine body during working are reduced, the vibration amplitude and the working noise of the machine body during working are favorably reduced, and the use experience of a user is favorably improved.

In this embodiment, the host 100 includes a housing 110 and a base 120 fixed at the bottom of the housing 110, and referring to fig. 6 and 7, a fixing table 130 is disposed on an inner wall of the housing 110. In order to improve the stability of the pulverizing assembly, four fixing bases 130 are provided at intervals along the circumference of the inner wall of the housing 110.

With reference to fig. 8, the bottom of the heating plate 600 is provided with four first fixing columns 620 corresponding to the fixing platforms 130 one-to-one, the first fixing columns 620 are hollow, and the fixing platforms 130 are provided with first fixing holes 131 for inserting the first fixing columns 620. The first fixing column 620 is inserted into the first fixing hole 131, and a bolt for connecting the heating plate 600 and the host 100 is screwed in the first fixing column 620 from bottom to top, and a head of the bolt abuts against a bottom of the fixing table 130, so that the first fixing column 620 is fixedly connected to the fixing table 130.

In this embodiment, four first bosses 630 protruding downward and corresponding to the fixing bases 130 one by one are disposed at the bottom of the heating plate 600, and the first fixing posts 620 are disposed at the bottom of the first bosses 630. After the assembly is completed, the first boss 630 abuts on the fixing table 130, and the heating plate 600 is vertically positioned, supported and limited by the first boss and the fixing table, so that the crushing assembly is vertically positioned, supported and vertically limited.

Referring to fig. 9, in order to reduce the vibration transmission strength between heating plate 600 and main unit 100 during the operation of the main unit, a damping sleeve 140 is provided between fixing base 130 and heating plate 600. In this embodiment, the damping sleeve 140 is inserted into the first fixing hole 131 and vertically limited, the damping sleeve 140 is hollow, and the first fixing column 620 penetrates through the damping sleeve 140. The top end of the shock-absorbing sleeve 140 is provided with a ring 141 protruding outwards, and the ring 141 is located between the bottom surface of the first boss 630 and the top surface of the fixing base 130.

Realize fixed connection through the bolt between heating plate 600 and the motor 400, the bottom of heating plate 600 is equipped with four interval distribution and the second fixed column 640 of cavity setting, the top of motor 400 is equipped with hoist and mount portion 410, hoist and mount portion 410 is equipped with and supplies second fixed column 640 male second fixed orifices 430, a bolt for connecting motor 400 and heating plate 600 is screwed up in second fixed column 640 from bottom to top, the head of bolt supports in the bottom of hoist and mount portion 410, make hoist and mount portion 410 fixed connection in second fixed column 640.

In this embodiment, the bottom of the heating plate 600 is provided with four second bosses 650 distributed at intervals, and the second fixing posts 640 are arranged at the bottoms of the second bosses 650. The lifting part 410 is provided with four thickening tables 420 corresponding to the second bosses 650 one by one, and the second fixing holes 430 are formed on the thickening tables 420. After the motor 400 and the heating plate 600 are assembled, the second boss 650 is abutted to the thickening table 420, and the heating plate 600 and the motor 400 are limited by the abutment between the second boss 650 and the thickening table 420.

In order to avoid the connection structure between the motor 400 and the heating pan 600 from interfering with the connection structure between the heating pan 600 and the main unit 100, the distance between the second fixing column 640 and the center of the heating pan 600 is smaller than the distance between the first fixing column 620 and the center of the heating pan 600, that is, the second fixing column 640 is close to the center of the heating pan 600 with respect to the first fixing column 620.

In order to improve the structural strength of the fixing table 130 and enable the strength of the fixing table 130 to meet the installation requirements of the pulverizing assembly, a first reinforcing rib 151 located at the top of the fixing table 130 and a second reinforcing rib 152 located at the bottom of the fixing table 130 are arranged on the inner wall of the casing 110, the bottom end of the first reinforcing rib 151 is connected with the top of the fixing table 130, and the top end of the second reinforcing rib 152 is connected with the bottom of the fixing table 130. In this embodiment, three or four first reinforcing ribs 151 and four second reinforcing ribs 152 are provided at intervals corresponding to each fixing table 130.

The host 100 is also internally provided with a drain valve 700, the drain valve 700 is fixed at the bottom of the heating plate 600, the drain valve 700 is provided with a drain passage 710, the bottom of the heating plate 600 is provided with a drain hole 660 communicated with the drain passage 710, and the tail end of a drain pipe in the drain valve 700 extends out of the host 100. When the drainage valve 700 is closed, the drainage channel 710 is closed, and the material in the grinding cup 200 will not be discharged out of the machine body through the drainage hole 660 and the drainage channel 710. When the drainage valve 700 is in the open state, the drainage channel 710 is open, and the material in the grinding cup 200 can be discharged out of the machine body through the drainage hole 660 and the drainage channel 710.

During the equipment, be fixed in the bottom of cup 210 with cup 500, be fixed in the bottom of cup 500 with heating plate 600, then hang motor 400 in the bottom of heating plate 600, accomplish crushing unit's equipment. The shredder assembly is then installed into the main body 100.

It should be understood that the specific number of the positioning posts 670 and the positioning holes 510 is not limited to the above description and shown in the drawings, and may be three, four, or other reasonable numbers.

It is understood that only one or two or three of the positioning posts 670 may be spaced from the center of the heating plate 600 differently from the other positioning posts.

It will be appreciated that the provision of rounded corners 671 at the top of locating posts 670 may be eliminated.

It is understood that the bottom chamfer 511 of the locating hole 510 may be eliminated.

It should be understood that the specific number of the connecting holes 520 and the through holes 680 is not limited to the above description and shown in the drawings, and may be three, four, or other reasonable numbers.

It will be appreciated that the provision of the projection 530 may be eliminated, provided that the cup holder 500 meets the structural requirements.

It is understood that the distribution of the positioning posts 670 and the through holes 680 is not limited to the staggered distribution described above and shown in the drawings, and other reasonable distributions may be used.

It is understood that the provision of the inner ledge 690, or alternatively, the provision of the outer ledge 540, may be eliminated if the seal ring 800 meets the positional requirements.

It should be understood that the specific number of the first reinforcing ribs 151 or the second reinforcing ribs 152 corresponding to each fixing table 130 is different, and may be two, three, four, or the like.

It will be appreciated that the provision of the first reinforcing ribs 151 may be eliminated on the premise that the structural strength of the fixing table 130 meets the installation requirements of the shredder assembly.

It will be appreciated that the provision of the second reinforcing ribs 152 may be eliminated provided that the structural strength of the stationary platen 130 meets the installation requirements of the size reduction assembly.

It should be understood that the specific number of the fixing table 130, the first fixing column 620 and the first boss 630 is not limited to four as described above and shown in the drawings, and may be set to three, five or other reasonable numbers to meet the installation requirement of the pulverizing assembly.

It is understood that the specific number of the second fixing posts 640, the second bosses 650, the thickening table 420 and the second fixing holes 430 is not limited to the above description and shown in the drawings, and may be set to three, five or other reasonable numbers to meet the hoisting requirement of the motor 400.

It will be appreciated that other configurations of the food processor may be referred to in the art.

Example two

As shown in fig. 10, in the present embodiment, the pulverizing cup 200 includes an upper pulverizing cup 230 and a lower pulverizing cup 240, the lower pulverizing cup 240 is fixed in the main body 100, and the upper pulverizing cup 230 is movably disposed on the main body 100. When the upper and lower pulverizing cups 230 and 240 are closed, a pulverizing chamber is formed therebetween.

The other structures of the second embodiment are the same as those of the first embodiment, and are not described in detail here.

In addition to the above preferred embodiments, the present invention has other embodiments, and those skilled in the art can make various changes and modifications according to the present invention without departing from the spirit of the present invention, which should fall within the scope defined by the appended claims.

Claims (10)

1. The utility model provides a convenient food preparation machine of equipment, includes host computer and crushing unit, and crushing unit is including smashing cup, crushing sword and motor, smashes the sword and locates in smashing the cup, and the motor is located in the host computer and is used for the drive to smash the sword, a serial communication port, crushing unit still includes cup and heating plate, and the bottom of smashing the cup is located to the cup, and heating plate fixed connection is equipped with location connection structure in the bottom of cup between cup and the heating plate.

2. The food processor of claim 1, wherein the positioning connection structure comprises a plurality of positioning posts and positioning holes, the positioning posts are disposed on the top surface of the heating plate at intervals, the positioning holes are disposed on the bottom surface of the cup holder and correspond to the positioning posts, and the positioning posts are inserted into the positioning holes.

3. The food processor of claim 2, wherein at least one of the positioning posts is spaced from a center of the heating plate by a distance that is different from distances between other positioning posts and the center of the heating plate.

4. The food processor as defined in claim 2, wherein the top end of the positioning post is provided with a round corner; and/or a chamfer is arranged at the bottom end of the positioning hole.

5. The food processor of claim 2, wherein the positioning and connecting structure comprises a plurality of through holes and a plurality of connecting holes corresponding to each other, the through holes are distributed on the heating plate at intervals, the connecting holes are distributed on the bottom surface of the cup holder at intervals, and screws for connecting the heating plate and the cup holder are threaded through the through holes and screwed in the connecting holes.

6. The food processor of claim 5, wherein each of the through holes is spaced a uniform distance from a center of the heating plate.

7. The food processor of claim 5, wherein the positioning posts and the through holes are staggered along a circumferential direction of the heating plate; and/or a plurality of convex parts distributed at intervals are arranged on the circumferential outer wall of the cup seat, and the positioning holes or the connecting holes are arranged at the convex parts.

8. The food processor of claim 1, wherein the size reduction assembly further comprises a seal disposed between the top surface of the heating plate and the bottom surface of the size reduction cup.

9. The food processor of claim 8, wherein the top surface of the heating plate has a raised rim, and the sealing ring is located on the outer periphery of the raised rim; and/or the bottom end of the inner wall of the cup base is provided with a circle of convex edge, and the sealing ring is positioned on the inner periphery of the convex edge.

10. The food processor of claim 1, wherein the hot plate is connected to a host machine and the motor is suspended from a bottom portion of the hot plate.

Images