CN112168022A - Food preparation machine with heating element smashes - Google Patents

Abstract

The invention discloses a food processor with a crushing and heating component, which comprises the crushing and heating component and a cup body, wherein the crushing and heating component comprises a shell, a heating device, a crushing cutter and a motor arranged in the shell, the shell is placed on the cup body and comprises an upper shell and a lower shell, the motor is arranged in a space defined by the upper shell and the lower shell, a motor shaft penetrates through the lower shell to extend downwards, the crushing cutter is arranged at the tail end of the motor shaft, the heating device is arranged on the shell, is positioned in the cup body and is arranged around the motor shaft, the heating device comprises a food-grade ceramic shell and a heating body arranged in the food-grade ceramic shell, and when the food processor heats serous fluid or water, the efficiency is high, the boiling is thorough, the fragrance is cooked, and the; and because heating device's casing is pottery, and the surface heat load is not high, this kind of structure of smashing heating element for the material has been avoided gluing on ceramic casing to the motor rotation, has solved the burnt pot problem, makes food preparation machine change the washing.

Description

Food preparation machine with heating element smashes

Technical Field

The invention belongs to the field of food processing machines, and particularly relates to a food processing machine for making hot drinks for kitchens.

Background

Nowadays, food processing machines are widely used by people, and the food processing machines (including soybean milk machines, wall breaking machines, hot drink machines and the like) are fashionable in life when being used for drinking hot drinks such as soybean milk, rice paste, tea soup and the like.

Present overhead kitchen food preparation machine of motor is like soybean milk machine, rice paste machine etc. include aircraft nose and cup usually, the aircraft nose is placed on the cup, surround between aircraft nose and the cup and form crushing chamber, the aircraft nose includes aircraft nose upper cover and aircraft nose lower cover, be equipped with circuit board and motor in the space that aircraft nose upper cover and aircraft nose lower cover enclose, the terminal setting of motor shaft is equipped with crushing sword, the through-hole that the motor shaft passed aircraft nose lower cover center stretches into in the cup, the motor drives the crushing sword rotation in order to realize smashing the crushing of intracavity food.

The motor overhead type food processor with the heating function on the market basically has two heating modes, one is that the bottom or the side of the cup body is welded with a heating plate, the heating mode is that heat sent by the heating plate is indirectly transferred to water in the cup body through the cup bottom connected with the heating plate, and as the other side of the heating plate which is only in one side for heat transfer is exposed in the space, more heat can be lost by the heating plate exposed in the air in the heating process. The cup body is provided with electronic structures such as a heating plate, a socket and the like, so that the assembly is troublesome and the cleaning is inconvenient. The existing machine is heavy in weight, the heating pipe is high in power, and the heating plate is large in size, so that in the actual pulping process, the thermal inertia is large, the boiling and the overflow prevention are difficult to control, and small-space and small-capacity pulping is difficult to achieve generally.

The other type is the earliest food processor with a heating function and a motor arranged on the top, especially a soymilk machine, a heating pipe is arranged on a general machine head, the heating pipe extends into a cup body to heat water or serous fluid in the cup body, although the water or serous fluid is boiled thoroughly, because the shell of the heating pipe is generally stainless steel, the material or serous fluid is easy to gather on the heating pipe to cause scorching due to high surface heat load of the heating pipe, and especially under the condition that a customer does not pay attention to dry burning, the heating pipe is difficult to clean.

Disclosure of Invention

The invention aims to provide a food processor with a crushing heating component, which is used for making hot drinks such as soybean milk, tea soup and the like to be boiled thoroughly, is easy to clean and is not easy to be burnt.

In order to solve the technical problem, the invention provides a food processor with a crushing and heating assembly, which comprises the crushing and heating assembly and a cup body, wherein the crushing and heating assembly comprises a shell, a heating device, a motor and a crushing cutter, the shell is placed on the cup body and comprises an upper shell and a lower shell, the motor is installed in a space defined by the upper shell and the lower shell, a motor shaft penetrates through the lower shell to extend downwards, the crushing cutter is arranged at the tail end of the motor shaft, the food processor is characterized in that the heating device is installed on the shell and positioned in the cup body and arranged around the motor shaft, and the heating device comprises a food-grade ceramic shell and a heating body arranged in the food-grade ceramic shell.

Further, the lower casing is a metal lower casing, the metal lower casing comprises a cover body and a cylinder body connected with the cover body, the ceramic casing is installed at the lower end in the cylinder body, and the lower end of the cylinder body extends into the cup body.

Further, the bottom center of lid is equipped with the opening, the barrel upper end is connected with the opening, ceramic housing is the tubulose, the barrel lower extreme is cylindric, tubulose ceramic housing sets up the lower extreme in cylindric barrel to with the barrel laminating.

Furthermore, a transition support is arranged between the metal lower shell and the metal upper shell, and the transition support is an annular support.

Furthermore, the upper end of the heating device is connected or contacted with the lower end of the transition support through a heat insulation structure. Further, the heat insulation structure and the transition support are integrally formed.

Further, the ceramic shell is tubular, and the heat insulation structure and the tubular ceramic shell are integrally formed.

Or the upper end of the heat insulation structure is arranged on the transition support, and the lower end of the heat insulation structure is connected with the tubular ceramic shell.

Further, the barrel and the cover body are integrally formed, a through hole for a motor shaft to pass through is formed in the center of the bottom wall of the barrel, and a sealing structure is arranged in the through hole.

Further, the motor is a disc motor, and the disc motor spans over the transition support.

The invention has the beneficial effects that:

1. the invention discloses a food processor with a crushing and heating assembly, which comprises the crushing and heating assembly and a cup body, wherein the crushing and heating assembly comprises a shell, a heating device, a crushing cutter and a motor arranged in the shell, the shell is placed on the cup body and comprises an upper shell and a lower shell, the motor is arranged in a space defined by the upper shell and the lower shell, a motor shaft penetrates through the lower shell to extend downwards, the crushing cutter is arranged at the tail end of the motor shaft, the heating device is arranged around the motor shaft, the heating device is arranged on the shell and positioned in the cup body and arranged around the motor shaft, the heating device comprises a food-grade ceramic shell and a heating body arranged in the food-grade ceramic shell, a lead terminal of the heating body is arranged at the upper end of the ceramic shell, and the. When heating, the heat generated by the heating body can be quickly transferred out through the ceramic shell, the transmission is uniform, meanwhile, the stirring of the crushing cutter is driven by the motor shaft, and the heat near the heating device is more quickly diffused and transferred outwards, so that the efficiency is high when the heating device heats the serous fluid or water in the cup body, the direct heating mode is adopted to boil the serous fluid or water thoroughly, and the boiling effect is good; and because heating device's casing is pottery, and ceramic surface heat load is not high, and heating device encircles the motor shaft setting, and the motor shaft end is equipped with crushing cutter, and the motor drives crushing cutter rotation during the boil out, stirs the material around the heating device and throws away the central zone at motor shaft place, has consequently avoided the material to glue on heating device, has avoided heating device's burnt problem of sticking with paste for heating device changes the washing.

2. The inferior valve is the metal inferior valve, the metal inferior valve includes the lid and the barrel of being connected with the lid, the bottom center of lid is equipped with the opening, the barrel upper end is connected with the opening for inferior valve structure changes the processing realization, ceramic casing is the tubulose, the barrel lower extreme is cylindric, and the tube structure of this kind of structure designs simply, also changes the washing, tubulose ceramic casing sets up the lower extreme in cylindric barrel, during the barrel lower extreme stretched into the thick liquid in the cup to with the barrel laminating, on this kind of structure had guaranteed that the heat-generating body produced can be timely quick transmits water or thick liquid or the material in the cup through the barrel of metal inferior valve, avoided heating device's dry combustion method to produce simultaneously.

3. Still be equipped with transition support between metal inferior valve and epitheca, transition support is the ring carrier, the heating device upper end is connected with transition support lower extreme through thermal-insulated structure, thermal-insulated structure upper end is installed on transition support, and the lower extreme is connected with tubulose ceramic housing, has both guaranteed that the inferior valve can not be overheated because heating device generates heat, the heating device's of also being convenient for installation to guarantee the operational environment of casing internal electric device, guaranteed food preparation machine's working property, transition support's setting has not only played thermal-insulated effect simultaneously, has also played the cushioning effect, has slowed down vibrations and the noise that crushing in-process motor produced.

4. The heat insulation structure and the transition support are integrally formed, so that the heat insulation structure and the transition support are connected in a seamless mode, and the sealing and waterproof effects are better.

5. The ceramic shell is tubular, the heat insulation structure and the tubular ceramic shell are integrally formed, seamless connection of the ceramic shell and the tubular ceramic shell is guaranteed, sealing performance and waterproof performance are better, and therefore the crushing and heating assembly is easier to clean, safety of a food processing machine is guaranteed, and cleaning is easier.

6. Barrel and lid integrated into one piece for the two seamless connection, water-proof effects is better, also changes the equipment, barrel diapire center is equipped with the through-hole that supplies the motor shaft to pass, be equipped with seal structure in the through-hole, guaranteed the waterproof box sealing performance of casing, prevent that water or thick liquid or material from getting into its clearance for food preparation machine safety and sanitation more, easy washing.

7. The motor is a disc motor, the disc motor stretches across the transition support, so that the food processor is small in size, simpler in structure and convenient to design, meanwhile, the weight of the shell is reduced, and the food processor is more portable and attractive.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the example serve to explain the principles of the invention and not to limit the invention.

FIG. 1 is a schematic view of a pulverizing heating assembly of the present invention;

FIG. 2 is an enlarged view of the heating apparatus of FIG. 1;

FIG. 3 is a schematic diagram of the arrangement of the resistive layer in the heating device of FIG. 1;

FIG. 4 is a schematic view of a first embodiment of a reducing heating assembly according to the present invention in use in a food processor;

FIG. 5 is a schematic view of another embodiment of the barrel of the pulverizing heating assembly in example one;

FIG. 6 is a schematic view of a second embodiment of a reducing heating assembly of the present invention in use in a food processor;

FIG. 7 is a schematic view of another embodiment of a transition support and insulation structure of the shredding heating assembly of example two;

FIG. 8 is a schematic view of a third embodiment of a reducing heating assembly of the present invention in use in a food processor;

FIG. 9 is a schematic view of a fourth embodiment of a reducing heating assembly of the present invention as applied to a food processor;

FIG. 10 is a schematic view of a fifth embodiment of a reducing heating assembly of the present invention as applied to a food processor;

FIG. 11 is a schematic view of a sixth embodiment of a reducing heating assembly according to the present invention as applied to a food processor;

FIG. 12 is a schematic view of a seventh embodiment of a reducing heating assembly according to the present invention in use in a food processor;

FIG. 13 is a schematic view of an eighth embodiment of a reducing heating assembly of the present invention as applied to a food processor;

FIG. 14 is a schematic view of a ninth embodiment of the reducing heating assembly of the present invention applied to a food processor.

Reference numerals:

1. a housing; 11. an upper shell; 111. a threaded hole; 12. a lower case; 121. a cover body; 1211. a first opening; 1212. a recess; 1213. a shaft hole; 122. a barrel; 1221 a second opening; 124. flanging; 1241 a first via; 13. a transition support; 131. a body; 1311. the body is provided with an opening; 1312. a second via hole; 132. an extension portion; 1321. a through hole; 134. second flanging; 1341. a second via hole; 14. a thermally insulating structure; 2. a heating device; 21. a heating element; 211. a resistive layer; 22. a ceramic housing; 221. an outer food-grade ceramic layer; 222. a food-grade ceramic inner layer; 223. an upper port; 224. a lower port; 2241. a card slot; 23. an annular surrounding edge; 231. a through hole; 24. a lead terminal; 3. a motor; 31. a motor shaft; 4. a sealing device; 5. a cup body; 6. a heat-resistant food-grade plastic sleeve; 61. an upper port; 62. a lower port; 63. an installation part; 64. mounting grooves; 65. flanging; 7. a screw; 8. a handle; 9. a crushing cutter; 10. and a crushing heating component.

Detailed Description

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the embodiments and features of the embodiments of the present invention may be arbitrarily combined with each other without conflict.

As shown in fig. 1-12, the present invention provides a pulverizing and heating assembly 10 of a food processor, comprising a housing 1, a heating device 2 and a motor 3 disposed in the housing 1, wherein the housing 1 comprises an upper shell 11 and a lower shell 12, the motor 3 is mounted in a space enclosed by the upper shell 11 and the lower shell 12, a motor shaft 31 of the motor extends downward through the lower shell 12, a pulverizing cutter 9 is disposed at the end of the motor shaft 31, the heating device 3 is disposed around the motor shaft 31, as shown in fig. 2, the heating device 2 comprises a heating element 21 and a ceramic housing 22, the ceramic housing 22 comprises an outer layer 221 of food grade ceramic and an inner layer 222 of food grade ceramic, the heating element 21 is embedded between the outer layer 221 of food grade ceramic and the inner layer 222 of food grade ceramic, when heating, heat generated by the heating element 21 can be rapidly transferred through the ceramic housing 22 and uniformly transmitted, meanwhile, a stirring process can be set in boiling, when the motor drives the crushing cutter 9 to stir, the heating device is arranged around the motor shaft and is even attached near the motor shaft, heat near the heating device can be diffused and transferred outwards more quickly, therefore, when the heating device 3 heats the serous fluid or water in the cup body, the efficiency is high, the direct heating mode is adopted to boil the thoroughly boiled incense, the boiling effect is good, the shell of the heating device is made of ceramic, the thermal load on the surface of the ceramic is not high, the heating device is arranged around the motor shaft, the crushing cutter 9 is arranged at the end of the motor shaft, when in boiling, the motor drives the crushing cutter 9 to rotate, the materials around the heating device are stirred and crushed, and are thrown out of the central area where the motor shaft 31 is located, so that the materials are prevented from being stuck on the heating device, the sticking problem is avoided, and the problem of pot pasting is avoided, making the pulverizing heating assembly 10 easier to clean. The lead terminal 24 of the heating element 21 is arranged at the upper end of the heating device, and the lead terminal 24 is exposed outside the ceramic outer layer 221, so that the power supply can be conveniently connected. Simultaneously, heating device encircles the motor shaft setting, has increased location structure in unsettled motor shaft in other words for motor shaft location effect is better, has avoided the motor because the great disturbance that the axial length overlength produced, especially the axle head sets up crushing cutter 9, because heating device's encircleing, has reduced the mechanical impact to the motor shaft of the rotatory crushing in-process of cutter, and the motor shaft location is good, has improved crushing efficiency, has reduced mechanical loss, more is favorable to smashing. This kind of structure makes crushing heating element 10 structural design simple, and is small, light in weight, and production packaging efficiency is high, also saves space at the decocting in-process simultaneously for food preparation machine's structural design is simple and optimization, whole light in weight, and is small, portable and transportation.

In this embodiment, the food-grade ceramic inner layer 222 is annular, and the heating element 21 is embedded between the food-grade ceramic outer layer 222 and the annular food-grade ceramic inner layer 223. The ceramic outer layer 221 is also annular in this embodiment, but it should be understood that the ceramic outer layer 221 of the pulverizing heating module 10 may be configured into other shapes according to the product aesthetic degree or the product structural performance and modeling requirements, as long as the inner surface of the ceramic outer layer is ensured to be completely attached to and covered by the resistance layer.

In the invention, the heating element 21 is the resistance layer 211 which is arranged at the lower part of the ceramic shell 22, the resistance layer 211 is printed on the outer surface of the lower part of the annular food-grade ceramic inner layer 222, and then the ceramic outer layer 221 is sintered at one side of the resistance layer 211 of the ceramic inner layer 222, and the ceramic outer layer 221 covers the outer surface of the resistance layer 211, so that the process is simple, the layout is uniform, the good insulating property of the resistance layer is ensured, the resistance layer is firm and not easy to damage, the resistance layer is uniformly arranged, the condition of local overheating or overcooling cannot occur, and the problem that the slurry is stuck to a pot in an overheated place during boiling is avoided. This configuration ensures that the size and weight of the reducing and heating assembly 10 is small and light, and at the same time, allows the food processor to be small and light for easy transportation and cleaning. Of course, the resistor layer 211 may be printed on the inner surface of the food-grade ceramic outer layer and then sintered with the ceramic inner layer, but this is a less complicated process than the process of providing the resistor layer on the ceramic inner layer.

In this embodiment, as shown in fig. 3, the resistive layer 211 is disposed in a serpentine shape, and the serpentine resistive layer surrounds the outer surface of the ceramic inner layer 222, but it is understood that the resistive layer 211 may also surround the outer surface of the ceramic inner layer 222 in a spiral shape.

Of course, it can be understood that the heating element 21 may also be a resistance wire, the resistance wire is arranged around the annular food-grade ceramic inner layer 222, and this layout also ensures the positioning of the inner layer of the resistance wire-annular food-grade ceramic, thereby avoiding the situation that the resistance wire is unevenly distributed due to the dislocation when the resistance wire is sintered with the ceramic outer layer, so that the heating device does not have the phenomenon of local overheating or overcooling caused by the fact that the resistance wire is less at one position and the resistance wire is more at another position, and the phenomenon of sticking the pan and the pot during the boiling process is avoided.

In the invention, the heat insulation medium is arranged between the outer surface of the annular food-grade ceramic inner layer 222 and the motor shaft 31, so that heat is prevented from being transferred to the motor 3, the working environment of the motor 3 is ensured, the good working performance of the motor is ensured, and the performance of the motor during pulping is ensured. The insulating medium may be air, although other insulating structures such as heat resistant plastics and the like may be provided.

In this embodiment, as shown in fig. 1 to 3, annular food ceramic inlayer 222 and motor shaft 31 between still be equipped with sealing device 4, through will be equipped with sealing device 4 between port 224 and the motor shaft 31 under annular food ceramic inlayer 222, avoided the thick liquid to get into the clearance between the two, guaranteed the operational environment of motor, thereby guaranteed that motor working property is good, thereby motor performance when having guaranteed the slurrying, simultaneously, still make crushing heating element can not be because thick liquid residue gets into, avoided the sticking problem, change the washing, the safety and sanitation of crushing heating element has been guaranteed.

Of course, it can be understood that, also can heating device 2 cover is established in motor shaft 31 periphery and is installed on casing 1, and motor shaft 31 is rotatory for heating device 2, has both guaranteed the motor shaft normal rotation, has also guaranteed heating device 2's fixed, still makes food preparation machine's casing 1 simple structure, small light in weight, when casing 1 was put above the food preparation machine container and partly stretched into it, occupation space was little, boiling when boiling for the thick liquid provides sufficient rising space, guaranteed that the thick liquid can not spill over outside the container.

Of course, can understand, also can with the direct suit of heating device 2 or inlay and establish on motor shaft 31, and rotate with motor shaft 31 an organic whole, such benefit is structure as an organic whole between heating device and the motor shaft, need not set up sealing device alone, seamless connection, change the washing, and simultaneously, heating device and motor shaft rotate together, thick liquid or material more can not gather above that, the problem of gluing of thick liquid or material is covered has been avoided, more can not produce the burnt pot problem, make crushing heating element change the washing, and simultaneously, heating device's heat constantly gives the thick liquid fast at rotatory in-process, make thick liquid heat up fast, high heating efficiency, the effect of cooking is better.

Of course, it can be understood that the lower casing 12 can be a food grade heat-resistant lower casing, and the heating device is directly mounted on the lower casing 12, so as to ensure that the food processor can work normally, safely and reliably.

In this embodiment, the lower shell 12 is a food-grade metal lower shell or a ceramic lower shell, and these two materials have good heat resistance, are not easy to dye, and are easy to clean.

The above-described structure of the pulverizing and heating module for a food processor and its specific embodiment in a food processor will be described in detail below.

The first embodiment is as follows:

the food processor is a soybean milk maker, the grinding and heating component 10 is applied to the structure of the soybean milk maker, as shown in fig. 4, the soybean milk maker comprises the grinding and heating component and a cup body 5, the grinding and heating component 10 comprises a shell 1 and a motor 3, the shell 1 is placed on the cup body 5, the shell 1 comprises an upper shell 11 and a lower shell 12, the motor 3 is installed in a space defined by the upper shell 11 and the lower shell 12, a motor shaft 31 penetrates through the lower shell 12 to extend downwards, a grinding cutter 9 is arranged at the end of the motor shaft, in the embodiment, the heating device is arranged on the lower shell 12 and surrounds the motor shaft 31, the heating device 2 comprises a food-grade ceramic shell 22 and a heating body 21 arranged in the food-grade ceramic shell, and the ceramic shell 22 comprises a food-grade ceramic outer layer 221 and a food-grade ceramic inner. The food-grade ceramic inner layer 222 is annular, and the heating body 21 is embedded between the food-grade ceramic outer layer 221 and the annular food-grade ceramic inner layer 222. A heat insulation medium is disposed between the annular ceramic inner layer 222 and the motor shaft 31, and in this embodiment, the heat insulation medium is air.

In this embodiment, as shown in fig. 2, the heating element 21 is a resistance layer 211, the resistance layer 211 is printed on the inner surface of the annular food-grade ceramic inner layer 222, and then the ceramic outer layer 221 is sintered on the resistance layer side of the ceramic inner layer 222 provided with the resistance layer 211, so that the process is simple, the layout is uniform, the insulating property of the resistance layer is good, the resistance layer is firm and is not easy to be damaged, the resistance layer is uniformly arranged, the local overheating or overcooling situation cannot occur, and the problem that slurry is stuck to a pan or a pan when being boiled in an overheated place is avoided. The structure ensures that the crushing and heating assembly has small volume and light weight, and simultaneously, the food processor, namely the soybean milk maker, has small volume and light weight and is convenient to carry, transport and clean. Simultaneously also reduced the occupation space of casing in the cup, intangibly be equal to the space that overflows when having increased liquid boil out for liquid is more difficult to overflow, and it is few to overflow the number of times, and then the boil out is more abundant, and the thick liquid after the boil out is more fragrant and thick, has also shortened the boil out time, has improved heating efficiency, and slurrying efficiency is higher.

In this embodiment, the lower casing 12 is a metal lower casing, the metal lower casing includes a cover 121 and a cylinder 122 connected to the cover 121, a first opening 1211 is disposed at the center of the bottom of the cover 121, the upper end of the cylinder 122 is in a bell mouth shape, a mouth 1221 of the bell mouth shape is smoothly connected to the first opening 1211, the lower end of the cylinder 122 is in a straight cylinder shape, the ceramic casing 22 is in a tubular shape, and the tubular ceramic casing 22 is disposed at the lower portion of the cylindrical cylinder 122 and tightly attached to the cylinder wall of the cylinder 122. In this embodiment, the cylinder 121 and the cover 122 are integrally formed by stretching, and this structure can achieve seamless connection, and has good sealing effect and easy cleaning. The upper shell 11 of the soybean milk machine is also provided with a handle 8, so that the crushing and heating assembly can be conveniently taken and placed.

In this embodiment, establish heating device 2 of resistive layer 211 in ceramic casing 22 earlier and set up at the barrel 122 lower extreme, terminal surface and ceramic casing 22 terminal surface closely laminate under the barrel 122, the barrel 122 inside wall also closely laminates with ceramic casing 22 lateral surface, and heat conduction silicone grease is established to its binding face department, port 223 and transition support 13 contactless on ceramic casing 22 to the certain distance of interval, thereby guarantee that the heat is isolated by the air between the two, can not directly transmit to the transition support on, thereby avoid transition support overheat deformation or melt. An outward first flanging 124 is arranged at an opening at the upper end of the lower shell 12, a transition support 13 is further arranged between the metal lower shell 12 and the upper shell 11, the transition support 13 is an annular support, the transition support is provided with a second flanging 134, a first through hole 1241 is formed in the first flanging 124, a second through hole 1341 is formed in the transition support, a threaded hole 111 is formed in a port of the upper shell 11, and the screw 7 penetrates through the first through hole 1241 and the second through hole 1341 to stretch into the threaded hole 111 for fastening, so that the transition support 13 is fixed between the metal lower shell 12 and the upper shell 11.

In this embodiment, the cylinder 122 and the cover 121 are integrally formed, the center of the bottom wall of the cylinder 122 is provided with a shaft hole 1213 for the motor shaft 31 to pass through, a sealing device 4 is further arranged between the shaft hole 1213 of the center of the bottom wall of the ceramic shell 22 and the motor shaft 31, a sealing device 4 is arranged in the through hole 1213, the lower port 224 of the ceramic shell 22 is provided with a sealing groove 2241, the sealing device 4 is a sealing ring, the sealing ring is arranged in the sealing groove of the lower port 224 of the ceramic shell 22 and sleeved outside the motor shaft and compressed by the bottom wall of the cylinder 122, and the sealing device 4 seals the gap between the shaft hole 1213 of the center of the bottom wall of the cylinder 122 and the motor shaft, so that the grinding and heating assembly 10 is easier to clean, the sealing of the shell is ensured, water is not easy to enter, and the cleaning is ensured. In this embodiment, the motor 3 is a disk motor, and the disk motor spans over the transition bracket 13.

Of course, it can be understood that a sealing device may also be disposed between the ceramic shell, the cylinder 122 and the motor shaft, the sealing device includes a sealing ring and an elastic structure, the sealing ring seals a gap between the ceramic shell, the cylinder 122 and the motor shaft, and the elastic structure compresses the sealing ring between the three; the elastic structure can be a spring, the upper end of the spring is arranged on the transition bracket, and the lower end of the spring is connected with the sealing device; the elastic structure can also be a guide sleeve arranged between the ceramic shell and the motor shaft, the spring is sleeved outside the guide sleeve, the upper end of the guide sleeve is connected with the transition support, the lower end of the guide sleeve is suspended, and the spring is pressed on the sealing ring, so that the spring can be compressed up and down along the guide sleeve, the sealing device is pressed between the three, and the sealing ring seals a gap between the three.

Of course, it is understood that, as shown in fig. 5, the cylinder 122 may also be a straight cylinder, and the bottom center of the cover 121 is made into a concave portion 1212, and the opening is disposed at the center of the concave portion 1212 and is provided with a first opening 1211, the size of the first opening 1211 is consistent with the diameter of the upper end opening of the cylinder 122, and the first opening 1211 is smoothly connected with the upper end opening of the cylinder 122. The structure has a plurality of manufacturing steps, but the process is simple and is easy to realize.

Of course, it is understood that the cylinder 122 and the cover 121 may be formed separately and then welded or riveted into an integral structure; or, the barrel 122 and the cover 121 are formed separately, the slot and the bayonet are arranged at the joint, the two are connected into a whole through the bayonet, and the sealing structure is arranged between the slot and the bayonet.

The crushing and heating assembly structure ensures that the shell of the soybean milk machine has small volume, light weight, simple structure and small occupied space in the cup body, and the whole structure can be designed more easily, so that the food processor is more portable; adopt this kind of small casing simultaneously, intangible be equal to the space that overflows when having increased the boil out of liquid in the cup, make the thick liquid reduce and spill over the risk, in addition, this kind of structure, make the heating device who sets up in the thick liquid fully to the thick liquid heating, the heating effect is better, boil out more fully, and because heating device is ceramic housing, and the heat-generating body setting just vertically sets up in ceramic housing, be more difficult to the wall built-up, thereby make heating device can not glue food, thereby the production of sticking with paste the pot problem has been avoided.

Example two

The structure of the food processor of this embodiment, which is provided with the pulverizing heating unit 10 according to the present invention, is shown in fig. 6, and the difference between this embodiment and the first embodiment is that, the transition support 13 is a food grade plastic support, and the heating device 2 is connected to or in contact with the transition support 13 through a heat insulation structure 14, in this embodiment, the transition support 13 comprises a cover-shaped support body 131 and a trumpet-shaped extension 132 that is downwardly contracted along the body 131, the heat insulation structure 14 is a food grade metal tube or a ceramic tube with a structure or shape consistent with that of the ceramic shell, the ceramic shell 22 is a straight circular tube, the heat insulation structure 14 is a ceramic tube with the shape and structure consistent with those of the ceramic shell 22, the upper end of the heat insulation structure 14 passes through a through hole 1321 in the center of the extension part of the transition support 13 and extends into a cavity formed by the upper shell 11 and the lower shell 12, and the lower end of the heat insulation structure 14 and the straight circular tubular ceramic shell are integrally formed. With such a structural design, when the lower case is not a very heat-resistant material, the heat resistance of the lower case 12 is ensured without deformation or melting due to heat transfer of the heating device.

Of course, it can be understood that, as shown in fig. 7, the transition support 13 includes a cover-shaped support body 131, a body opening 1311 is provided at the center of the bottom of the cover-shaped support body, the upper end of the heat insulation structure 14 is set to be horn-shaped, the shape and size of the horn-shaped opening are consistent with those of the support body opening 1311, and the heat insulation structure is connected with the support opening 1311 to form an integrated structure, the lower end of the heat insulation structure 14 is a cylindrical shell consistent with the shape and size of the ceramic shell, the heat insulation structure is set to be a food-grade metal support or a ceramic support with a large upper end and a small lower end, and is integrated with the transition support 13 through secondary injection molding, and the lower end of the transition support 13 is in smooth transition connection with the tubular ceramic shell, and may also be.

Of course, it is understood that the insulation structure 14 may be a separately formed metal or ceramic support, which is mounted at its upper end to the transition support by overmolding or mechanical bonding, and at its lower end to the tubular ceramic shell 22 by sintering or mechanical bonding.

The structure of the heating device 2 and other structures of the food processor are the same as those of the embodiment, and are not described in detail here.

Example three:

the food processor of this embodiment is a rice paste machine, and the structure of the present invention in which the pulverizing and heating unit 10 is applied to the rice paste machine, as shown in fig. 8, the rice paste machine includes a pulverizing heating part 10 and a cup 5, the pulverizing heating part 10 includes a casing 1 and a motor 3, the shell 1 is placed on the cup body 5, the shell 1 comprises an upper shell 11 and a lower shell 12, the motor 3 is arranged in a space enclosed by the upper shell 11 and the lower shell 12, the lower shell 12 comprises a cover 121, a first flange 124 is arranged at the upper port of the cover 121, the heating device 2 is arranged around a motor shaft 31, the tail end of the motor shaft 31 is provided with a crushing cutter 9, heating device 2 includes food level ceramic casing 22 and establishes heating body 21 in it, be equipped with thermal-insulated medium between ceramic casing 22 and motor shaft 31, ceramic casing 22 passes through thermal-insulated structure 14 and installs on inferior valve 12.

In this embodiment, the thermal insulation structure 14 is a "d" shaped cylinder 122 extending downward from the first opening 1211 of the cover 121. The cover 121 is made of ceramic, and the upper end of the ceramic shell 22 is connected with the ceramic cover 121 through the heat insulation structure 14 to form an integral structure. The cylinder is also made of ceramic, and the upper end of the ceramic cylinder 122 is integrally formed with the ceramic cover 121. A second opening 1221 is arranged at the center of the bottom of the cylinder 122, and the upper end of the ceramic shell 22 passes through the second opening 1221 and extends into a space surrounded by the upper shell and the lower shell. The ceramic cylinder 122 is integrally formed with the ceramic case 22 of the heating apparatus at the second opening 1221 by secondary sintering. The inner diameter of the second opening 1221 is the same as the outer diameter of the ceramic shell 22.

Of course, it is understood that the cover 121, the cylinder 122 and the ceramic case 22 may be integrally formed as a unitary ceramic structure by sintering. For example, the inner layer 221 of the ceramic shell, the barrel 122 and the cover 121 are formed by sintering, then the resistive layer is disposed on the outer surface of the inner layer of the ceramic shell, and then the outer layer of the ceramic shell is sintered outside the resistive layer by secondary sintering.

In this embodiment, the first flange 124 is provided with a first through hole 1241, the upper shell 11 is provided with a threaded hole 111, and the screw 7 is installed in the threaded hole 111 through the first through hole 1241, so as to lock the upper shell and the lower shell together. The heat insulation medium is a heat-resistant food-grade plastic sleeve 6, the heat-resistant food-grade plastic sleeve 6 is sleeved in the tubular ceramic shell 22, an upper port 61 of the heat-resistant food-grade plastic sleeve 6 is provided with a mounting part 63 surrounding the upper port, the mounting part can be an annular flanging provided with a through hole or 4 lugs with through holes, a screw passes through the lugs or the through holes on the annular flanging and is locked in the threaded hole of the lower shell 12, so that the heat-resistant food-grade plastic sleeve is fixed on the lower shell 12, a sealing device 4 is arranged between a lower port 62 of the heat-resistant food-grade plastic sleeve 6 and the motor shaft 31, the sealing device is a sealing ring, the sealing ring is pressed among the lower port 62, the ceramic shell 22 and the motor shaft, so that a gap between the lower port of the ceramic shell and the motor shaft is sealed, and the, the installation is easy, and the sealing device ensures that the shell is not easy to enter water and is not easy to be polluted, thereby ensuring the easy cleaning of the shell and ensuring the safety and sanitation of the food processor.

Of course, it can be understood that the heat-resistant food-grade plastic sleeve 6 can also be integrally formed with the ceramic shell through injection molding, so that the heat-resistant food-grade plastic sleeve and the ceramic shell are in seamless connection, the problem of gap water inflow or dirt is avoided, the heating device is easier to clean, and the safety and the sanitation of the food processor are ensured.

Of course, can understand, thermal-insulated structure 14 is the barrel (not shown in the figure) that the upper end is the loudspeaker form, ceramic housing cover is in second opening 1221 department, or ceramic housing and second opening 1221 junction are equipped with the installation department, ceramic housing passes through the installation department and fixes in second opening 1221 department to be equipped with the sealing washer between second opening 1221 and ceramic housing 22, avoided ceramic housing and thermal-insulated structure's gap because of the dirty that intake or dust arouse, make heating device wash more easily.

It can be understood that the heat insulation medium is air, and the sealing device is arranged between the lower port of the circular tube-shaped ceramic shell and the motor shaft, so that water is prevented from entering a gap between the heating device and the motor shaft, and the heating device and the shell thereof are easier to clean, and are safe and sanitary.

Other structures and embodiments of the heating device and the food processor are consistent, and are not described in detail herein.

Example four:

in this embodiment, the food processor is a rice paste machine, and the structure of the heating and crushing assembly 10 of the present invention applied to a rice paste machine is as shown in fig. 9, and the present embodiment is different from the third embodiment in that the cover 121 is a food-grade metal cover, the cylinder 122 is also a metal cylinder, and the upper end of the ceramic shell 22 is connected to the metal cover 121 through the heat insulation structure 14. The heat insulation structure 14 is a metal cylinder 122 and is integrally formed with the cover 121. The center of barrel 122 bottom is equipped with second opening 1221, ceramic casing 22 upper end is equipped with the installation department, the installation department can be for setting up the annular surrounding edge 23 of port on ceramic casing, be equipped with a plurality of through-holes 231 of equipartition on the annular surrounding edge 23, metal barrel 122 bottom is equipped with the screw hole 1222 around second opening 1221, screw 7 passes through the through-hole 231 and stretches into in the screw hole 1222 and lock, fixes ceramic casing on metal barrel 122, second opening 1221 department is equipped with the sealing washer to the waterproof performance of crushing heating element's casing has been guaranteed, avoids thick liquid or water to get into in the casing, guarantees the safety and the insulating properties of electrical part in the casing.

Of course, it will be understood that the mounting portion may also be formed by a plurality of lugs having holes at the upper end of the ceramic shell 22, so that the ceramic shell 22 is mounted on the metal cylinder 122 via the lugs.

The heating device and other structures of the food processor in this embodiment are the same as those in the third embodiment, and are not described in detail here.

Example five:

the food processor of this embodiment is a rice paste machine, the grinding and heating assembly 10 of the present invention is applied to a structure of a rice paste machine, as shown in fig. 10, the rice paste machine includes a grinding and heating assembly 10 and a cup 5, the grinding and heating assembly 10 includes a housing 1 and a motor 3, the housing 1 is placed on the cup 5, the housing 1 includes an upper shell 11 and a lower shell 12, the motor 3 is installed in a space enclosed by the upper shell 11 and the lower shell 12, the lower shell 12 includes a cover 121, an upper port of the cover 121 is provided with a first flange 124, a center of a bottom of the cover 121 is provided with a first opening 1211, the heating device 2 is arranged around a motor shaft 31, a grinding tool 9 is arranged at a terminal of the motor shaft 31, the heating device 2 includes a food-grade ceramic housing 22 and a heating element 21 arranged therein, a heat insulation medium is arranged between the ceramic housing 22 and the motor shaft 31, the ceramic shell 22 is mounted to the lower shell 12 by the thermal insulation structure 14.

In this embodiment, the thermal insulation structure 14 includes an annular step 141 disposed at the upper end of the ceramic shell, the annular step 141 is disposed around the upper end of the ceramic shell 22, the thermal insulation structure is made of ceramic, the upper end of the annular step 141 is connected and communicated with the first opening 1211 of the cover 121, the lower end of the annular step 141 is sleeved at the upper end of the ceramic shell 22, and the annular step 141 and the ceramic shell 22 are integrally formed through secondary sintering. In this embodiment, the lower end of the annular step 141 extends downward through the first opening 1211 at the bottom of the cover 121, and the upper end of the annular step is mounted on the bottom of the cover 121 by adhesion.

Of course, it is understood that the heat insulation structure 14 can be fixed at the first opening 1211 of the cover 121 by mechanical connection, and can also be fixed at the first opening 1211 of the cover 121 by riveting or welding.

It will be understood, of course, that if the thermal insulation structure 14 is mechanically connected to the cover 121, the first opening 1211 is provided with a sealing ring to seal the gap between the cover 121 and the ceramic shell, so as to prevent water or slurry from entering the shell 1, thereby ensuring the safety of the electrical components inside the shell and the sanitation of the pulverizing heating assembly 10.

The heating device and other structures of the food processor in this embodiment are the same as those in the fourth embodiment, and are not described in detail here.

Example six:

the food processor of the present embodiment is a rice paste machine, and the structure of the heating assembly 10 applied to a rice paste machine of the present invention, as shown in fig. 11, is different from the fifth embodiment in that the heat insulation structure 14 is a straight round tube with a flange, an upper end of the straight round tube is connected and communicated with the first opening 1211 of the metal cover 121, and then a lower port of the heat insulation structure 14 is connected with the ceramic tube 22, in the present embodiment, the heat insulation structure 14 is also ceramic, the heat insulation structure 14 and the metal cover 121 are connected into a whole by bonding, and the heat insulation structure 14 and the ceramic shell 22 are integrally formed by secondary sintering. The inner diameter of the first opening 1211 is identical to the outer diameter of the straight circular tube, and the outer diameter of the straight circular tube is identical to the outer diameter of the ceramic tube,

of course, it is understood that the heat insulation structure 14 may be integrally connected to the metal cover 121 by welding or riveting, and the heat insulation structure 14 may be integrally connected to the ceramic case 22 by welding, riveting or bonding.

Of course, it is understood that the heat insulation structure 14 may also be a ceramic pipe, the upper end of the ceramic pipe 22 is provided with a mounting portion, the heat insulation structure 14 is disposed on the periphery of the opening 1211 of the metal cover 121 through the mounting portion, and the upper port of the heat insulation structure 14 extends upward from the first opening and extends into the space surrounded by the upper shell and the lower shell.

The heating device and other structures of the food processor in this embodiment are the same as those in the fifth embodiment, and are not described in detail herein.

Example seven:

the food processor of this embodiment is a tea soup machine, and the structure of the present invention in which the pulverizing and heating unit 10 is applied to the tea soup machine, as shown in fig. 12, comprising a crushing heating assembly 10 and a cup body 5, the crushing heating assembly 10 comprises a housing 1 and a motor 3, the shell 1 is placed on the cup body 5, the shell 1 comprises an upper shell 11 and a lower shell 12, the motor 3 is arranged in a space enclosed by the upper shell 11 and the lower shell 12, the lower casing 12 comprises a cover body 121, the cover body 121 is a food grade metal cover body, a transition support 13 is further arranged between the lower casing 12 and the upper casing 11, the transition support 13 is a plastic support, the heating device 2 is arranged in the cup body 5 and is arranged on the lower shell 12, and is arranged around the motor shaft 31, the heating device 2 comprises a food-grade ceramic shell 22 and a heating body 21 arranged in the food-grade ceramic shell, and a sealing device is arranged between the heating device 2 and the motor shaft 31.

In this embodiment, a first opening 1211 is disposed at the bottom center of the cover 121, a cylindrical body 122 is disposed at the periphery of the first opening, the upper end of the cylindrical body 122 is in a shape of a horn with a large upper end and a small lower end, an upper port 1221 of the cylindrical body 122 is smoothly connected with the first opening 1211, the lower end of the cylindrical body 122 is in a cylindrical shape, the lower port 1222 is connected with the ceramic housing 22, the lower end of the cylindrical body 122 is sleeved outside the ceramic housing by bonding or welding, and the ceramic housing 22 is sleeved outside the motor shaft 31 and extends downward through the lower port 1222 of the cylindrical body 122 and into the cup 5.

In this embodiment, the pulverizing heating assembly further includes a heat insulation structure 14, the heat insulation structure 14 is a circular tube-shaped ceramic pipe, is disposed at the upper end of the ceramic casing 22, and is integrally formed with the ceramic casing 22, and the lower end of the cylinder 122 is sleeved on the periphery of the heat insulation structure 14. The transition support 13 is shaped and configured to conform to the cover 121, and is disposed on an inner layer of the cover 121 and attached to the cover 121. And a support rib is arranged between the transition support 13 and the cover body 121.

In this embodiment, an outward first flange 124 is arranged at an opening at the upper end of the lower shell 12, the transition support 13 between the metal lower shell 12 and the upper shell 11 is an annular support, the transition support 13 is provided with a second flange 134, the first flange 124 is provided with a first through hole 1241, the transition support 13 is provided with a second through hole 1341, a threaded hole 111 is formed in a port of the upper shell 11, and the screw 7 penetrates through the first through hole 1241 and the second through hole 1341 and extends into the threaded hole 111 for fastening, so that the transition support 13 is fixed between the metal lower shell 12 and the upper shell 11.

In this embodiment, a heat-resistant food-grade plastic sheath 6 is disposed between the ceramic shell 22 and the motor shaft 31, the upper port 61 of the heat-resistant food-grade plastic sheath 6 is provided with a mounting portion 63 surrounding the upper port 61, which, in this embodiment, the mounting part is 4 lugs with through holes, the heat-resistant food grade plastic sleeve 6 is sleeved in the tubular ceramic shell 22 and is mounted on the transition bracket 13 through the lugs, a sealing device 4 is arranged between the lower port 62 of the heat-resistant food-grade plastic sleeve 6, the lower port 224 of the ceramic shell and the motor shaft 31, the sealing device 4 is a sealing ring, the lower port 224 of the ceramic shell 22 is provided with an inward flange 2242, the flange 2242 partially wraps the lower port 62 of the heat-resistant food-grade plastic sleeve 6, the sealing ring is pressed on the flange 2242 by the heat-resistant food-grade plastic sleeve 6, and is fitted over the motor shaft 31 so that the seal ring seals a gap between the ceramic case 22 and the motor shaft 31.

Of course, it will be understood that the heat-resistant food-grade plastic sheath 6 may also be integrally formed with the ceramic housing 22 by injection molding. The heat insulating structure 14 is integrally formed with the ceramic case 22 of the heating apparatus by secondary sintering.

Example eight:

the food processor of this embodiment is a tea soup machine, the smashing and heating assembly 10 of this embodiment is applied to a tea soup machine, as shown in fig. 13, the difference between the smashing and heating assembly 10 of this embodiment and the seventh embodiment is that the metal cover body 121 at least partially covers the outer surface of the heat insulation structure 14, the part of the metal cover body 121 covering the heat insulation structure 14 can be bonded with the heat insulation structure 14, the ceramic shell 22 of the heat insulation structure 14 is in contact with or connected with the transition support 13 through the heat insulation structure 14, in this embodiment, the size of the lower port of the transition support 13 is the same as the outer diameter of the heat insulation structure 14, and the heat insulation structure 14 is tightly sleeved in the lower port of the transition support 13.

The lower port 224 of the ceramic housing 22 is provided with a mounting structure for mounting the sealing device 4, and the sealing device 4 is arranged between the lower port 224 of the ceramic housing 22 and the motor shaft 31 through the mounting structure. In this embodiment, the mounting structure is a heat-resistant food-grade plastic sleeve 6, and the upper end of the heat-resistant food-grade plastic sleeve 6 is mounted on the transition support 13. Port 62 is at least with ceramic casing 22 port 224 parallel and level under the heat-resisting food grade plastic sheath 6, sealing device 4 is the sealing washer, heat-resisting food grade plastic sheath 6 can be through the secondary mould plastics with ceramic casing processing body structure into an organic whole, guaranteed seamless connection between ceramic casing and heat-resisting food grade plastic sheath, at this moment, only need set up inside mounting groove 64 in the lower port 62 department of heat-resisting food grade plastic sheath 6, the mounting groove sets up the sealing washer to the cover is outside the motor shaft, will descend the clearance between port 62 and motor shaft 31 to seal, prevent that water or thick liquid from getting into in the casing 1 from the clearance, thereby guaranteed the safety of the electrical part in the casing 1.

Of course, it can be understood that the first sealing ring is arranged between the heat-resistant food-grade plastic sleeve 6 and the ceramic shell 22, so that the sealing between the ceramic shell and the heat-resistant food-grade plastic sleeve is ensured, and the cleaning and sanitation effects of the heating device are ensured; be equipped with the second sealing washer under heat-resisting food level plastic sheath 6 between port 62 and the motor shaft, port 62 is equipped with mounting groove 64 under heat-resisting food level plastic sheath 6, the second sealing washer sets up in mounting groove 64, and the cover is outside motor shaft 31, makes crushing heating element's washing better and sanitary effect and with heat-resisting food level plastic sheath and motor shaft between set up sealing device simultaneously, the effectual intake or the liquid that prevents between heat-resisting food level plastic sheath and the motor shaft, not only guaranteed the sealed effect during, but also avoided because the clearance gets into liquid and be difficult to abluent problem moreover.

Of course, it can be understood that a clamping groove may be provided at the upper end of the heat insulation structure 14, and the lower end of the transition support is clamped in the clamping groove of the transition support;

of course, it is understood that the transition support 13 and the tubular ceramic pipe 14 may be integrated into a single structure by secondary processing.

The other structures and advantageous effects of the pulverizing heating element and the food processor of this embodiment are the same as those of the seventh embodiment, and are not repeated herein.

Example nine:

in the present embodiment, the food processor is a tea soup machine, and the grinding and heating assembly 10 of the present invention is applied to the tea soup machine, as shown in fig. 14, the grinding and heating assembly 10 of the present embodiment is different from the eighth embodiment in that the cover 121 is a ceramic cover, the transition support 13 is disposed on an inner layer of the ceramic cover and is attached to the ceramic cover, the heat insulation structure 14 is a ceramic pipe, and the ceramic cover 121 and the ceramic housing 22 are connected to form an integral structure through the ceramic pipe 14. In this embodiment, the ceramic pipe body may be connected to the ceramic cover body as a whole by secondary sintering or bonding or welding the upper end, and the heat insulation structure 14 and the ceramic shell body are integrated by secondary sintering.

The lower port 62 of the heat-resistant food-grade plastic sleeve 6 is provided with the outward flange 65, the lower port 224 of the ceramic shell 22 is coated, the structure ensures the sealing effect between the ceramic shell and the heat-resistant food-grade plastic sleeve, and particularly, the heat-resistant food-grade plastic sleeve and the ceramic shell are integrally formed through secondary injection molding, so that the heat-resistant food-grade plastic sleeve and the ceramic shell are connected in a seamless manner, the pollution caused by liquid entering can be effectively ensured, the sealing and sanitation problems are solved, the cleaning is easy, and the effect is better. And set up the lower port 62 department of heat-resisting food level plastic sheath 6 with the sealing washer to the clearance between heat-resisting food level plastic sheath 6 of sealed and motor shaft 31 prevents that water or thick liquid from getting into casing 1, thereby guarantees crushing heating element's safety and health.

The other structures and advantages of the pulverizing heating element and the food processor of this embodiment are the same as those of the eighth embodiment, and are not described herein again.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, i.e. all equivalent variations and modifications made by the present invention are covered by the scope of the claims of the present invention, which is not limited by the examples herein.

Claims (10)

1. The utility model provides a food preparation machine with smash heating element, includes crushing heating element and cup, crushing heating element includes casing, heating device, crushing cutter and sets up the motor in the casing, the casing is placed on the cup, and the casing includes epitheca and inferior valve, the motor is installed in the space that epitheca and inferior valve surround, the motor shaft passes inferior valve downwardly extending, and the motor shaft end is equipped with crushing cutter, its characterized in that, heating device installs on the casing and is located the cup to surround the motor shaft setting, heating device includes food level ceramic casing and establishes the heat-generating body in it.

2. The food processor of claim 1, wherein the lower housing is a metal lower housing comprising a lid and a barrel coupled to the lid, the ceramic housing being mounted at a lower end within the barrel, the lower end of the barrel extending into the cup.

3. The food processor as defined in claim 2, wherein the cover has an opening at the bottom center, the upper end of the cylinder is connected to the opening, the ceramic shell has a tubular shape, the lower end of the cylinder has a cylindrical shape, and the tubular ceramic shell is disposed at the lower end of the cylindrical cylinder and is attached to the cylinder.

4. A food processor as claimed in claim 2 or 3, wherein a transition support is provided between the lower metal shell and the upper metal shell, the transition support being an annular support.

5. The food processor of claim 4, wherein the heating device upper end is connected to or in contact with the transition support lower end by a thermal insulation structure.

6. The food processor of claim 5, wherein the insulating structure is integrally formed with the transition support.

7. The food processor of claim 5, wherein the ceramic housing is tubular and the insulating structure is integrally formed with the tubular ceramic housing.

8. The food processor of claim 6, wherein the insulating structure is mounted at an upper end to the transition support and at a lower end to the tubular ceramic housing.

9. The food processor as defined in claim 8, wherein the cylinder is integrally formed with the cover, and a through hole is formed in a center of a bottom wall of the cylinder for passing the motor shaft therethrough, and a sealing means is provided in the through hole.

10. A food processor as claimed in claim 4, wherein the motor is a disc motor, which disc motor straddles the transition support.

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