CN215914267U - Food processor - Google Patents

Abstract

The application provides a cooking machine, including host computer, crushing cup subassembly, water tank set spare and boil out cup subassembly. The main machine comprises a shell, a motor and a steam generating device. The crushing cup component comprises a crushing cup and a crushing knife. The boiling cup component comprises a boiling cup and an air inlet component. The boiling cup is provided with an accommodating space. The main unit or grinding cup assembly further comprises a slurry outlet valve assembly. The host comprises an air outlet device. The air intake assembly includes a showerhead. The nozzle is provided with an exhaust passage and an exhaust hole. The air outlet device is communicated with the exhaust channel and the steam generating device. The spray head is movable between a first position and a second position. When the first position, the exhaust hole is communicated with the exhaust channel and the accommodating space. When the second position, the exhaust hole disconnects the exhaust channel and the accommodating space. When the boiling cup component is placed in the main machine, the air outlet device is propped against the spray head, so that the air outlet device moves from the second position to the first position. The air inlet assembly has better sealing performance, and after the boiling cup assembly is taken down from the host machine, water leakage can be effectively prevented.

Description

Food processor

Technical Field

The application relates to a small household electrical appliance field especially relates to cooking machine.

Background

With the increasing living standard of people, many different types of food processors appear on the market. The functions of the food processor mainly include, but are not limited to, functions of making soybean milk, squeezing fruit juice, making rice paste, mincing meat, shaving ice, making coffee and/or blending facial masks and the like. The food processor can comprise a soybean milk machine, a stirrer or a wall breaking food processor and other machines for crushing and stirring food. The food processor comprises a water tank assembly, a smashing cup and a juice receiving cup. Water in the water tank assembly enters the crushing cup, food materials are stirred in the crushing cup, and the stirred food materials flow into the juice receiving cup to be heated and boiled. The related food processor heats the food material in the cooking cup by using steam. The sealed effect of the cup subassembly of decocting of relevant cooking machine is not good, leads to leaking easily.

SUMMERY OF THE UTILITY MODEL

The application provides a cooking machine, its boiling cup subassembly has the sealed effect of preferred, can prevent to leak.

The application provides a food processor, including host computer, crushing cup subassembly, water tank set spare and boil out cup subassembly, the host computer includes the casing and is located motor and steam generator in the space that the casing encloses, smash cup subassembly including smashing the cup and being located smash the cup in and pass through motor drive's crushing sword, water tank set spare can according to the culinary art procedure to carry water in smashing the cup, boil out cup subassembly including boiling out cup and air inlet assembly, it is equipped with accommodating space to boil out the cup, the host computer or smash cup subassembly still including a thick liquid valve subassembly, the fluid that goes out in thick liquid valve subassembly control crushing cup according to the culinary art procedure flows in the accommodating space, the host computer includes the air outlet means, the air inlet subassembly includes the shower nozzle, the shower nozzle is equipped with exhaust passage and exhaust hole, the air outlet means intercommunication exhaust passage with steam generator, the shower nozzle can move between a first position and a second position, the exhaust hole is communicated with the exhaust channel and the accommodating space when the shower nozzle is at the first position, the exhaust hole is disconnected with the exhaust channel and the accommodating space when the boiling cup assembly is placed in the host machine, and the air outlet device is abutted against the shower nozzle to enable the shower nozzle to move to the first position from the second position.

In some embodiments, the air inlet assembly of the technical scheme has better sealing performance, and water leakage can be effectively prevented after the boiling cup assembly is taken down from the main machine.

Further, the air inlet assembly comprises a sealing element, the sealing element is provided with a first hole, at least part of the spray head is contained in the first hole, and when the spray head is at the second position, the spray head is attached to the sealing element in a sealing mode, so that the exhaust hole breaks the exhaust channel and the containing space.

Further, boil out cup subassembly includes the arch, the arch be equipped with accomodate the space and with accomodate the perforation of space intercommunication, admit air the subassembly assemble in accomodate in the space, the sealing member includes first sealing, it is used for supplying to perforate first sealing is worn out.

In some embodiments, the arrangement of the projection of the above technical scheme facilitates the assembly of the air intake assembly.

Further, the protrusion is arranged at the bottom or the side of the boiling cup component.

Further, boil out the cup subassembly including boil out the cup and set up in boil out the bottom of cup, the bottom with boil out the cup and enclose into accommodating space, the arch set up in the bottom.

In some embodiments, the boiling cup and the bottom cover of the technical scheme are easy to process and form.

Further, the subassembly of admitting air includes the shell, the shell accept in accomodate the space, the shell be equipped with first space and with the second hole of first space intercommunication, the sealing member includes second sealing and third sealing, first sealing, second sealing and third sealing set gradually from top to bottom, the diameter of third sealing is greater than the diameter of second sealing, the diameter of second sealing is greater than the diameter of first sealing, the third sealing is located in the first space, the second sealing is located the second is downthehole.

In some embodiments, the sealing member of the above technical solution has better sealing performance, and can effectively prevent the boiling cup assembly from leaking water.

Further, the housing is in close fit with the protrusion.

In some embodiments, the air inlet assembly of the above technical scheme is easy to assemble and disassemble, and is convenient to maintain.

Further, the first sealing part is in fit sealing with the bulge and/or the second sealing part is in fit sealing with the shell and/or the second sealing part is in fit sealing with the bulge and/or the third sealing part is in fit sealing with the shell.

In some embodiments, the sealing member of the above technical solution has better sealing performance, and can effectively prevent the boiling cup assembly from leaking water.

Furthermore, the air inlet assembly comprises a supporting piece and an elastic piece, the supporting piece is located in the first space, the third sealing portion is pressed on the supporting piece, the supporting piece is provided with a second space and a third hole communicated with the second space, the third hole is used for allowing the spray head to penetrate out, the top end of the elastic piece abuts against the supporting piece, the bottom end of the elastic piece abuts against the spray head, in the process that the spray head moves from the second position to the first position, the spray head extrudes the elastic piece, and the elastic force of the elastic piece abuts against the spray head to enable the spray head to move from the first position to the second position.

In some embodiments, the supporting element of the above technical solution is arranged to facilitate the limiting of the elastic element, and to ensure that the nozzle moves along a straight line, thereby ensuring the smoothness of the movement of the nozzle.

Further, the nozzle comprises a main body, a protruding portion extending upwards from the main body and a supporting portion extending outwards from the main body, the main body and the supporting portion are contained in the second space, the protruding portion penetrates through the third hole and the first hole, the first hole is partially contained in the containing space, and the bottom end of the elastic piece is supported on the supporting portion.

Further, the main part is equipped with the slot part, the host computer includes sealing device, sealing device establishes the portion including the cover, the cover is established the portion cover and is located air outlet means, air outlet means is equipped with the passageway of giving vent to anger, the passageway of giving vent to anger with steam generator intercommunication, the portion is established to the cover is equipped with the through hole, works as boil out the cup subassembly place in during the host computer, air outlet means's tip accept in the slot part, the portion is established to the cover with the main part laminating is sealed, the through hole intercommunication give vent to anger the passageway with exhaust passage.

In some embodiments, the sealing device of the above technical solution effectively prevents steam from running around, ensures that steam can enter the accommodating space, and provides heating efficiency; meanwhile, accidents such as scalding and the like caused by steam escaping are prevented.

Furthermore, the accommodating space comprises a first accommodating space and a cavity located below the first accommodating space, the first accommodating space is used for accommodating food materials, the exhaust hole is communicated with the exhaust channel and the cavity when the first position is in the first position, and steam in the cavity is used for heating the food materials in the first accommodating space.

In some embodiments, the cavity in the technical scheme can enable the food material to be heated uniformly, so that the phenomena of nonuniform heating and bottom pasting caused by local heating are avoided, and the food material is heated in a slow boiling mode to have better taste; secondly, the arrangement of the cavity can generate less slurry bubbles and reduce slurry overflow; thirdly, the cavity has the functions of heat preservation and heat storage; and the arrangement of the cavity omits an electric appliance connection coupler required by other heating modes, improves safety and can avoid the heating failure problem caused by poor contact of the electric appliance connection coupler.

Further, boil out cup subassembly and include the jet-propelled pipe, the jet-propelled pipe with the cavity intercommunication, so that steam accessible in the cavity the jet-propelled pipe gets into in the first accommodation space.

In some embodiments, the arrangement of the gas injection pipe in the technical scheme enables steam to enter the first accommodating space, and the steam in the cavity and the steam entering the first accommodating space heat the food material at the same time, so that the heating efficiency is improved.

Further, the gas ejector pipe is at least partially positioned in the first accommodating space, and the gas ejector pipe is at least partially inserted into the bottom of the first accommodating space in the vertical direction.

In some embodiments, the gas injection pipe of the above technical scheme can be inserted into the food material, so that the steam can sufficiently heat the food material to improve the heating efficiency.

Further, the cup of cooking includes the side wall, the cup subassembly of cooking including set up in the handle of side wall, the handle is equipped with and holds the chamber, the cup subassembly of cooking including accept in hold the communicating pipe in chamber, communicating pipe intercommunication the jet-propelled pipe with the cavity.

In some embodiments, the boiling cup assembly of the technical scheme is convenient for hiding the communicating pipe.

Drawings

Fig. 1 is a schematic view of a food processor according to an embodiment of the present application.

Fig. 2 is an exploded view of the main body of the food processor shown in fig. 1.

Fig. 3 is a schematic cross-sectional view of the food processor shown in fig. 1.

Fig. 4 is an enlarged view of the circled portion of the cross-sectional view shown in fig. 3.

Fig. 5 is an exploded view of the brewing cup assembly shown in fig. 1.

Fig. 6 is a cross-sectional schematic view of the brewing cup assembly shown in fig. 1, wherein the air intake assembly is not shown.

Fig. 7 is an exploded view of the air intake assembly of the brewing cup assembly shown in fig. 5.

Fig. 8 is a cross-sectional schematic view of the intake assembly shown in fig. 5.

Fig. 9 is a cross-sectional schematic view of the brewing cup assembly shown in fig. 1.

Fig. 10 is an enlarged view of the circled portion of the cross-sectional view shown in fig. 9.

Detailed Description

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

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

Referring to fig. 1 to 4, the food processor includes a main machine 1, a cooking cup assembly 2, a water tank assembly 3 and a pulverizing cup assembly 4. The water tank assembly 3 is detachably assembled to the main body 1. The crushing cup component 4 and the main machine 1 can be detached or fixed and can not be detached. Smash cup subassembly 4 can dismantle, can take out and wash, conveniently washs smash cup subassembly 4. Smash cup subassembly 4 can heat the edible material, also can not heat, and the edible material after the processing flows into and boils in the cup subassembly 2 and heat. The food materials in the crushing cup assembly 4 are only stirred and are not heated, so that the phenomenon that the food materials in the crushing cup assembly 4 are burnt can be prevented, and the crushing cup assembly 4 is easy to clean; meanwhile, the overflow phenomenon in the heating process can be prevented, which is beneficial to the cleaning of the food processor and the protection of the food processor from being damaged; secondly, the food materials are heated in the cooking cup component 2, so that the cooking condition of the food materials can be conveniently observed, and the use experience of a user is improved; moreover, the area of the bottom of the boiling cup component 2 is relatively large, so that the uniformity of heated food materials can be improved, and the taste of the processed food materials is improved.

The main machine 1 comprises a shell 10, a steam generating device 11 and a motor 12 which are positioned in a space enclosed by the shell 10, and an air outlet device 13 communicated with the steam generating device 11. The steam generating device 11 is communicated with the water tank assembly 3, and water in the water tank assembly 3 can flow into the steam generating device 11 according to a cooking program to generate steam. The main body 1 further includes a support portion 15. The boiling cup component 2 is placed on the supporting part 15. The food processor also comprises a sealing device 14, wherein the sealing device 14 is used for sealing the joint of the air outlet device 13 and the cooking cup component 2 so as to prevent steam from escaping to cause waste; meanwhile, accidents such as scalding and the like caused by steam escaping are prevented. The sealing device 14 can be arranged on the main machine 1 or the boiling cup component 2.

The support portion 15 is provided with a through hole 150. The air outlet device 13 includes a main body 130 and a limiting portion 131 disposed on the main body 130. The stopper 131 defines a receiving portion 1310. The main body 130 is substantially L-shaped and has an L-shaped air outlet passage 1301. The main body portion 130 includes a first assembly portion 1302 and a second assembly portion 1303 extending from the first assembly portion 1302. The position-limiting part 131 at least partially surrounds the first assembly part 1302.

The first assembling portion 1302 protrudes from the supporting portion 15 after passing through the through hole 150. The limiting portion 131 is located below the supporting portion 15 and abuts against the supporting portion 15, and meanwhile, the air outlet device 13 is pressed against the housing 10 to limit the air outlet device 13. The second assembly portion 1303 is used for fixing a connection pipe (not shown) connected to the steam generating device 11, so that the steam generated by the steam generating device 11 can enter the air outlet passage 1301 through the connection pipe.

The sealing device 14 includes a base 140 and a sleeve 141 extending upward from the base 140. The base 140 is received in the receiving portion 1310. The sleeving part 141 is sleeved on the first assembling part 1302. The base 140 can be attached to and sealed with the position-limiting portion 131 and/or the supporting portion 15 to prevent water from leaking from the through hole 150. The sleeve portion 141 can also be attached to the supporting portion 15 for sealing, so as to prevent water leakage from the through hole 150. The sleeving part 141 is provided with a through hole 1410, and the through hole 1410 is communicated with the air outlet channel 1301 so as to allow steam in the air outlet channel 1301 to pass through.

In other embodiments, the air outlet device 13 may be integrally provided with the housing 10.

The grinding cup assembly 4 includes a grinding cup 40 and a grinding knife 41 located within the grinding cup 40. The motor 12 is configured to drive the crushing blade 41 to rotate to whip the food material. The grinding cup 40 is communicated with the water tank assembly 3, and water in the water tank assembly 3 can be pumped into the grinding cup 40 according to a cooking program.

In one embodiment, the host 1 may further include an instant heating device (not shown). The instant heating device is communicated with the water tank assembly 3 and the crushing cup 40, and water in the water tank assembly 3 flows into the crushing cup 40 after being heated by the instant heating device. In the process of stirring and beating the food materials by the crushing cup assembly 4, hot water is added, so that the cooking time of the food materials can be shortened; meanwhile, the crushing cup 40 of the crushing cup assembly 4 can be more effectively cleaned by hot water, and the washing can be cleaner.

In another embodiment, the steam generator 11 communicates the water tank assembly 3 with the grinding cup 40, and the steam generator 11 can generate hot water and flow into the grinding cup 40.

The grinding cup assembly 4 also includes a slurry outlet valve assembly 42. The outlet valve assembly 42 is arranged to control the flow of foodstuff within the grinding cup 40 into the brewing cup assembly 2 in accordance with a cooking program. The slurry outlet valve assembly 42 may also be provided to the main body 1. The slurry outlet valve assembly 42 is switchable between a first state and a second state. In the first state, the slurry outlet valve assembly 42 cuts off the grinding cup 40 and the boiling cup assembly 2, and the food materials in the grinding cup 40 cannot flow out; in the second state, the slurry outlet valve assembly 42 is communicated with the crushing cup 40 and the boiling cup assembly 2, and the food materials in the crushing cup 40 can flow out. The slurry outlet valve assembly 42 may also be disposed on the main body 1.

Referring to fig. 5 to 10, the boiling cup assembly 2 includes a bottom cover 21 disposed on the boiling cup 20, a handle 22 limited on the boiling cup 20, and an air inlet assembly 23 disposed on the bottom cover 21. The cooking cup 20 includes a sidewall 202. The bottom cover 21 and the side wall 202 of the cooking cup 20 form an accommodating space 201 for accommodating food materials.

The bottom cover 21 is made of stainless steel. The bottom cover 21 includes a bottom wall 210, a sidewall 211 extending from the bottom wall 210, and a protrusion 212 disposed on the bottom wall 210. The protrusion 212 encloses a receiving space 2120. The protrusion 212 is provided with a through hole 2121 communicating the accommodating space 201 and the accommodating space 2120.

In one embodiment, the protrusion 212 may also be disposed on the sidewall 211.

In one embodiment, the bottom cover 21 may be integrally disposed with the side wall 202. The protrusion 212 may be disposed on the bottom cover 21 or the side wall 202, or the protrusion 212 may be disposed on the bottom or the side of the brewing cup assembly 2, the bottom may be the bottom wall 210 of the bottom cover 21, and the side may be the side wall 211 of the bottom cover 21 or the side wall 202 of the brewing cup 20.

The air inlet assembly 23 includes a nozzle 230, an elastic member 231, a supporting member 232, a sealing member 233, a housing 234, and a limiting member 235. The housing 234 is made of metal. The housing 234 is provided with a first space 2340 and a second hole 2341 communicating with the first space 2340. The support 232 is provided with a second space 2320 and a third hole 2321 communicating with the second space 2320.

The sealing member 233 includes a third sealing portion 2331, a second sealing portion 2332 and a first sealing portion 2333 which are sequentially arranged from the bottom right to the top. The third sealing portion 2331 has a diameter greater than that of the second sealing portion 2332, and the second sealing portion 2332 has a diameter greater than that of the first sealing portion 2333. The sealing member 233 is provided with a first hole 2330 penetrating the third sealing part 2331, the second sealing part 2332 and the first sealing part 2333.

The nozzle 230 includes a main body 2301, a protrusion 2302 extending upward from the main body 2301, and a holding portion 2303 extending outward from the main body 2301. The main body 2301 is provided with a groove 23010. The protrusion 2302 is provided with an exhaust passage 23020. The exhaust passage 23020 communicates with the groove portion 23010. The protrusion portion 2302 is provided with a plurality of exhaust holes 23021. The exhaust holes 23021 are provided to communicate the exhaust passage 23020 with the accommodating space 201 so that steam can enter the accommodating space 201. The exhaust holes 23021 are uniformly arranged along the circumferential direction of the protruding portion 2302, so that the uniformity of heating food materials is facilitated, and the taste of the cooked food materials is improved; meanwhile, the bottom pasting phenomenon caused by overhigh local temperature can be prevented.

When the air inlet assembly 23 is assembled, the support member 232 and the third sealing portion 2331 of the sealing member 233 are positioned in the first space 2340 of the housing 234, the third sealing portion 2331 is crimped to the support member 232, the second sealing portion 2332 of the sealing member 233 is positioned in the second hole 2341 of the housing 234, the first sealing portion 2333 of the sealing member 233 protrudes from the housing 234, the holding portion 2303 of the spray head 230, the main body 2301, at least a portion of the protruding portion 2302 and the elastic member 231 are located in the second space 2320 of the supporting member 232, the protruding portion 2302 penetrates the third hole 2321 of the supporting member 232 and the first hole 2330 of the sealing member 233 to be received in the receiving space 201, the top end of the elastic element 231 is abutted against the supporting element 232, the limiting element 235 is fixed on the housing 234, to prevent the support 232 and the spray head 230 from being removed from the housing 234 from below the housing 234.

The third sealing portion 2331 and/or the second sealing portion 2332 of the sealing member 233 are tightly sealed with the housing 234 to prevent water from leaking from the second hole 2341; the protrusion 2302 of the nozzle 230 is tightly sealed with the sealing member 233 to prevent water or air leakage from the first hole 2330.

When the air inlet assembly 23 is assembled in the receiving space 2120 of the bottom cover 21, the housing 234 is tightly fitted with the protrusion 212 to limit the air inlet assembly 23 to the bottom cover 21, so that the air inlet assembly 23 is convenient to assemble and disassemble, and the air inlet assembly 23 is convenient to maintain; the second sealing portion 2332 of the sealing member 233 is tightly sealed with the protrusion 212 of the bottom cover 21 to prevent water leakage from the through hole 2121 of the protrusion 212, the first sealing portion 2333 of the sealing member 233 is at least partially received in the through hole 2121, and the first sealing portion 2333 is tightly sealed with the protrusion 212 to further prevent water leakage from the through hole 2121.

The bottom end of the elastic element 231 abuts against the abutting portion 2303 of the nozzle 230, and the top end of the elastic element 231 abuts against the supporting element 232, so that the nozzle 230 can move between the first position and the second position under the force. In the first position, the exhaust holes 23021 are exposed, such that the exhaust holes 23021 communicate the exhaust channel 23020 with the accommodating space 201. In the second position, the nozzle 230 is attached to the sealing member 233 for sealing, so that the exhaust hole 23021 disconnects the exhaust channel 23020 from the receiving space 201, thereby preventing water leakage from the exhaust hole 23021.

The supporting member 232 is disposed to facilitate the positioning of the elastic member 231, ensure the movement of the nozzle 230 along a straight line, ensure the smoothness of the movement of the nozzle 230, and ensure the steam to enter the accommodating space 201.

When the spray head 230 moves from the second position to the first position, the spray head 230 moves upward, i.e., moves into the receiving space 201, such that the exhaust holes 23021 are exposed. When the spray head 230 moves from the first position to the first position, the spray head 230 moves downward, i.e. moves out of the receiving space 201, so that the exhaust hole 23021 moves downward into the first hole 2330 of the sealing member 233, and the protrusion 2302 is in close contact with the sealing member 233 to block the exhaust hole 23021 and the exhaust passage 23020.

Referring to fig. 3 to 4, when the boiling cup assembly 2 is placed on the supporting portion 15 of the main body 1, the air outlet device 13 pushes up the nozzle 230 to move from the second position to the first position, so that the steam generated by the steam generating device 11 can enter the accommodating space 201; in this process, the spray head 230 presses the elastic member 231 to be elastically deformed. When the boiling cup assembly 2 is removed from the supporting portion 15 of the main body 1, the pushing force of the air outlet device 13 disappears, and the elastic force of the elastic member 231 pushes the spray head 230 to move from the first position to the second position.

When the boiling cup assembly 2 is placed on the supporting portion 15 of the main body 1, the top end of the air outlet device 13 is contained in the groove portion 23010 of the nozzle 230 and the sealing device 14 is attached and sealed with the nozzle 230, so that the steam can be prevented from escaping.

In one embodiment, the receiving space 201 includes a first receiving space (not shown) and a cavity (not shown) below the first receiving space (not shown). The exhaust holes 23021 are provided to communicate the cavity with the exhaust passage 23020. Steam generated by the steam generating device 11 enters the cavity, and the steam in the cavity heats the food materials in the first accommodating space. The boiling cup component 2 further comprises an air injection pipe (not shown) and a communicating pipe (not shown) for communicating the air injection pipe with the cavity. The gas ejector pipe is at least partially accommodated in the first accommodating space, so that steam in the cavity can enter the first accommodating space. The gas injection pipe is at least partially inserted into the bottom of the first accommodating space in the vertical direction, so that the gas injection pipe can be inserted into food materials, steam can sufficiently heat the food materials, and the heating efficiency is improved.

The handle 22 is provided with a receiving cavity (not shown). The communicating pipe can be arranged in the containing cavity, so that the communicating pipe is convenient to hide, and the communicating pipe can be prevented from being exposed to cause easy damage.

The steam generating device 11 generates steam according to a cooking program, the steam enters the cavity to heat the food materials in the first accommodating space so as to cook the food materials, so that the heating is more uniform, the phenomenon that the food materials are burnt due to overhigh local temperature can be prevented, and the food materials are heated in a slow cooking mode so that the taste of the food materials is better; secondly, the arrangement of the cavity can generate less slurry bubbles and reduce slurry overflow; thirdly, the cavity has the functions of heat preservation and heat storage, and after the food materials stop being boiled, the steam in the cavity can preserve heat of the boiled food materials; and the arrangement of the cavity omits an electric appliance connection coupler required by other heating modes, improves safety and can avoid the heating failure problem caused by poor contact of the electric appliance connection coupler. The food processor of this application embodiment uses steam to boil out and eats material, has fast, efficient, the heating is even and be difficult for pasting advantages such as end. Steam in the cavity and steam in the first accommodating space gives simultaneously edible material heating in the first accommodating space has increased heating efficiency, has shortened the time of eating the material and decocting.

The food processor of the embodiment of the application, including host computer 1, crushing cup subassembly 4, water tank subassembly 3 and boiling cup subassembly 2, host computer 1 includes casing 10 and is located motor 12 and steam generator 11 in the space that casing 10 encloses, crushing cup subassembly 4 includes crushing cup 40 and is located crushing cup 40 is interior and is passed through motor 12 driven crushing sword 41, water tank subassembly 3 can be according to the culinary art procedure to carry water in crushing cup 40, boiling cup subassembly 2 includes boiling cup 20 and admits air subassembly 23, boiling cup 20 is equipped with accommodating space 201, host computer 1 or crushing cup subassembly 4 still includes out thick liquid valve subassembly 42, it flows into according to the fluid of culinary art procedure control in the crushing cup 40 in accommodating space 201 to go out thick liquid valve subassembly 42, host computer 1 includes gas outlet device 13, admit air subassembly 23 includes shower nozzle 230, the nozzle 230 is provided with an exhaust passage 23020 and an exhaust hole 23021, the exhaust passage 23020 is communicated with the steam generating device 11 by the air outlet device 13, the nozzle 230 can move between a first position and a second position, the exhaust hole 23021 is communicated with the exhaust passage 23020 and the accommodating space 201 in the first position, the exhaust hole 23021 is disconnected from the exhaust passage 23020 and the accommodating space 201 in the second position, and the air outlet device 13 abuts against the nozzle 230 to move from the second position to the first position when the boiling cup assembly 2 is placed in the main machine 1. Above-mentioned technical scheme's air intake assembly 23 has the sealing performance of preferred, boils the back that cup assembly 2 takes off from host computer 1, can prevent effectively to leak.

Although the present application has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the application, and all changes, substitutions and alterations that fall within the spirit and scope of the application are to be understood as being covered by the following claims.

Claims (15)

1. The utility model provides a food processor, characterized in that, including host computer (1), crushing cup subassembly (4), water tank set spare (3) and boil out cup subassembly (2), host computer (1) includes casing (10) and is located motor (12) and steam generator (11) in the space that casing (10) enclose, crushing cup subassembly (4) including crushing cup (40) and being located crushing cup (40) just pass through motor (12) driven crushing sword (41), water tank set spare (3) can be according to the cooking procedure to carry water in crushing cup (40), boil out cup subassembly (2) including boil out cup (20) and admit air subassembly (23), boil out cup (20) and be equipped with accommodation space (201), host computer (1) or crushing cup subassembly (4) still include out thick liquid valve subassembly (42), it flows into according to accept the fluid that the procedure control in the crushing cup (40) to go out thick liquid valve subassembly (42) (space: (42) 201) The steam-water boiler is characterized in that the main machine (1) comprises an air outlet device (13), the air inlet assembly (23) comprises a spray head (230), the spray head (230) is provided with an exhaust channel (23020) and an exhaust hole (23021), the air outlet device (13) is communicated with the exhaust channel (23020) and the steam generating device (11), the spray head (230) can move between a first position and a second position, the exhaust hole (23021) is communicated with the exhaust channel (23020) and the accommodating space (201) in the first position, the exhaust hole (23021) is disconnected from the exhaust channel (23020) and the accommodating space (201) in the second position, and when the boiling cup assembly (2) is placed on the main machine (1), the air outlet device (13) abuts against the spray head (230) to enable the spray head to move from the second position to the first position.

2. The food processor as claimed in claim 1, wherein the air intake assembly (23) comprises a sealing member (233), the sealing member (233) is provided with a first hole (2330), the spray head (230) is at least partially received in the first hole (2330), and in the second position, the spray head (230) is in close sealing contact with the sealing member (233) so that the exhaust hole (23021) disconnects the exhaust channel (23020) from the receiving space (201).

3. The food processor as claimed in claim 2, wherein the cooking cup assembly (2) comprises a protrusion (212), the protrusion (212) is provided with a receiving space (2120) and a through hole (2121) communicated with the receiving space (2120), the air intake assembly (23) is assembled in the receiving space (2120), the sealing member (233) comprises a first sealing portion (2333), and the through hole (2121) is used for allowing the first sealing portion (2333) to pass through.

4. The machine according to claim 3, wherein the protrusions (212) are provided on the bottom or side of the brewing cup assembly (2).

5. The food processor according to claim 4, wherein the boiling cup assembly (2) comprises a boiling cup (20) and a bottom cover (21) arranged on the boiling cup (20), the bottom cover (21) and the boiling cup (20) enclose the accommodating space (201), and the protrusion (212) is arranged on the bottom cover (21).

6. The food processor of claim 3, wherein the air intake assembly (23) comprises a housing (234), the housing (234) is accommodated in the accommodating space (2120), the housing (234) is provided with a first space (2340) and a second hole (2341) communicated with the first space (2340), the sealing member (233) includes a second sealing portion (2332) and a third sealing portion (2331), the first sealing part (2333), the second sealing part (2332) and the third sealing part (2331) are sequentially arranged from top to bottom, the diameter of the third sealing part (2331) is greater than the diameter of the second sealing part (2332), the diameter of the second sealing portion (2332) is greater than the diameter of the first sealing portion (2333), the third sealing part (2331) is positioned in the first space (2340), and the second sealing part (2332) is positioned in the second hole (2341).

7. The food processor of claim 6, wherein the housing (234) is a tight fit with the protrusion (212).

8. The food processor of claim 6, wherein the first sealing portion (2333) is a snug seal with the protrusion (212) and/or the second sealing portion (2332) is a snug seal with the housing (234) and/or the second sealing portion (2332) is a snug seal with the protrusion (212) and/or the third sealing portion (2331) is a snug seal with the housing (234).

9. The food processor as claimed in claim 6, wherein the air intake assembly (23) comprises a support member (232) and a resilient member (231), the support member (232) is located in the first space (2340), the third sealing portion (2331) is pressed against the support member (232), the support member (232) is provided with a second space (2320) and a third hole (2321) communicated with the second space (2320), the third hole (2321) is used for allowing the spray head (230) to pass through, a top end of the resilient member (231) abuts against the support member (232), a bottom end of the resilient member (231) abuts against the spray head (230), the spray head (230) presses the resilient member (231) during the movement of the spray head (230) from the second position to the first position, and a resilient force of the resilient member (231) abuts against the spray head (230), causing it to move from the first position to the second position.

10. The food processor as claimed in claim 9, wherein the spray head (230) comprises a main body (2301), a protrusion portion (2302) extending upward from the main body (2301), and a holding portion (2303) extending outward from the main body (2301), the main body (2301) and the holding portion (2303) are accommodated in the second space (2320), the protrusion portion (2302) passes through the third hole (2321) and a rear portion of the first hole (2330) and is accommodated in the accommodating space (201), and a bottom end of the elastic member (231) is held against the holding portion (2303).

11. The food processor of claim 10, wherein the main body (2301) is provided with a groove portion (23010), the main body (1) comprises a sealing device (14), the sealing device (14) comprises a sleeve-provided portion (141), the sleeve-provided portion (141) is sleeved on the air outlet device (13), the air outlet device (13) is provided with an air outlet channel (1301), the air outlet channel (1301) is communicated with the steam generating device (11), the sleeve-provided portion (141) is provided with a through hole (1410), when the boiling cup assembly (2) is placed in the main body (1), the end of the air outlet device (13) is accommodated in the groove portion (23010), the sleeve-provided portion (141) is sealed with the main body (2301) in a fitting manner, the through hole (1410) is communicated with the air outlet channel (1301) and the exhaust channel (23020).

12. The food processor of any one of claims 1 to 11, wherein the receiving space (201) comprises a first receiving space and a cavity below the first receiving space, the first receiving space is used for receiving food materials, in the first position, the exhaust hole (23021) communicates with the exhaust channel (23020) and the cavity, and steam in the cavity is used for heating the food materials in the first receiving space.

13. The food processor as claimed in claim 12, wherein the cooking cup assembly (2) comprises an air injection pipe, the air injection pipe is communicated with the cavity, so that the steam in the cavity can enter the first accommodating space through the air injection pipe.

14. The food processor of claim 13, wherein the air injection pipe is at least partially located in the first receiving space, and the air injection pipe is at least partially inserted into the bottom of the first receiving space in a vertical direction.

15. The food processor of claim 14, wherein the cooking cup (20) comprises a side wall (202), the cooking cup assembly (2) comprises a handle (22) disposed on the side wall (202), the handle (22) is provided with a holding cavity, the cooking cup assembly (2) comprises a communicating pipe accommodated in the holding cavity, and the communicating pipe is communicated with the air injection pipe and the cavity.

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