CN215914271U - Food processor - Google Patents

Abstract

The application provides a cooking machine, including host computer, water tank set spare, crushing cup subassembly and boil out cup subassembly. The main machine comprises a shell, a motor, a steam generating device and an air outlet rod. The crushing cup assembly comprises a crushing cup and a crushing knife. The water tank assembly may deliver water into the grinding cup according to a cooking program. The host or the grinding cup assembly further comprises a slurry discharge valve. The slurry discharge valve is configured to control the flow of slurry in the grinding cup into the receiving space according to a cooking program. The boiling cup component comprises an air inlet component. The air inlet assembly is communicated with the air outlet rod, so that steam generated by the steam generating device enters the accommodating space of the boiling cup assembly to heat food materials in the accommodating space. The shell is provided with an avoiding hole for the air outlet rod or the air inlet assembly to penetrate through. The air outlet rod can be opposite to the shell, so that the air inlet component and the air outlet rod are more easily butted, and the boiling cup component is more easily placed.

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 material of the related food processor is stirred in the stirring cup, and the stirred food material flows into the boiling cup. The host machine of the food processor is provided with a steam generating device and an air outlet rod communicated with the steam generating device. The boiling cup component is provided with an air inlet component. Go out the gas pole and peg graft with the subassembly that admits air to in letting steam get into the cup of cooking, give the edible material heating in the cup of cooking. However, the air inlet assembly and the air outlet rod of the related food processor are fixed, so that the cooking cup assembly is inconvenient to take and place.

SUMMERY OF THE UTILITY MODEL

The application provides a cooking machine conveniently gets to put and boil out cup subassembly.

The application provides a food processor, including host computer, water tank set spare, crushing cup subassembly and boil out cup subassembly, boil out cup subassembly and be equipped with accommodation space to be used for holding edible material, the host computer includes the casing, is located motor and steam generator in the space that the casing encloses and with the play gas pole of steam generator intercommunication, smash cup subassembly including smash the cup and set up in smash the cup and pass through motor control's crushing sword, water tank set spare can be according to the culinary art procedure to carry water in smashing the cup, the host computer or smash cup subassembly still including arranging the thick liquid valve, arrange the thick liquid valve and set up to the thick liquid in the steerable crushing cup and flow into according to the culinary art procedure in the accommodation space, boil out cup subassembly is including admitting air the subassembly, admit air the subassembly with the pole intercommunication of giving vent to anger for steam that steam generator produced gets into in the accommodation space, in order to be used for giving the edible material heating in the accommodation space, the casing is equipped with dodges the hole, in order to be used for supplying go out the gas pole or the subassembly of admitting air passes, it can be relative to go out the gas pole the casing rotates.

In some embodiments, the air outlet rod of the above technical solution can rotate relative to the housing, so that the air inlet assembly and the air outlet rod are more easily butted; simultaneously, the boiling cup component can be placed in the host machine or taken down from the host machine in an inclined mode, so that the boiling cup component is convenient to take and place.

Furthermore, the angle that gas outlet rod can rotate upwards along the horizontal direction is less than or equal to 15 degrees, the area of avoidance hole is greater than or equal to 20mm²Less than or equal to 800mm²。

In some embodiments, the air outlet rod of the technical scheme saves space, and can ensure that the boiling cup component can be placed on or taken down from the host machine in an inclined mode, so that the boiling cup component is convenient to take and place; the air inlet rod can be avoided through the avoiding hole, the air inlet rod can rotate, and meanwhile, the problems that the sealing performance is poor and water and ash are easy to enter due to the fact that the avoiding hole is too large are solved.

Further, the subassembly that admits air includes the air inlet pole, the air inlet pole be equipped with inlet channel and with the venthole of inlet channel intercommunication, the venthole set up to with accommodation space intercommunication for steam gets into in the accommodation space, the pole of giving vent to anger is equipped with outlet channel, the one end of air inlet pole insert to in the outlet channel or the one end of the pole of giving vent to anger insert to in the inlet channel.

In some embodiments, the air outlet rod and the air inlet assembly of the above technical scheme are easy to butt joint and easy to seal, and air leakage is prevented.

Further, the air inlet assembly or the air outlet rod comprises a first sealing element for fitting and sealing with the air outlet rod or the air inlet rod.

In some embodiments, the first sealing element of the above technical solution may prevent air leakage when the air outlet rod is plugged with the air inlet assembly.

Further, the air inlet assembly comprises a water blocking member arranged in the air inlet channel, and the water blocking member can allow steam to pass through and can prevent water from passing through.

In some embodiments, the water retaining piece is arranged to prevent the boiling cup assembly from leaking water, and the structure is simple.

Further, the water blocking piece comprises a waterproof breathable film.

Furthermore, the air inlet assembly comprises a first elastic part and a moving part, the first elastic part and the moving part are both positioned in the air inlet channel, the first elastic part is abutted against the moving part, the abutting force of the first elastic part enables the moving part to block the air inlet channel, when air needs to be introduced, the abutting force of steam abuts against the moving part to open the air inlet channel, and the steam can enter the accommodating space through the air inlet channel.

In some embodiments, the arrangement of the moving member and the first elastic member in the above technical solution can prevent the boiling cup assembly from leaking water.

Furthermore, the air inlet assembly further comprises a second sealing element, the second sealing element is located in the air inlet channel, the second sealing element is provided with an air inlet hole, the air inlet hole is communicated with the air inlet channel, the abutting force of the first elastic element enables the moving element and the second sealing element to be attached and sealed so as to seal the air inlet hole, when air needs to be introduced, the abutting force of steam abuts against the moving element to open the air inlet hole, and the steam can enter the accommodating space through the air inlet hole.

In some embodiments, the moving member, the second sealing member and the first elastic member of the above technical solution are arranged to prevent the boiling cup assembly from leaking water, and the sealing performance is better.

Further, the subassembly of admitting air still includes the third sealing member, the pole of admitting air can move between primary importance and second place, during the primary importance, the third sealing member with the pole laminating of admitting air is sealed, with the disconnection the venthole of pole of admitting air with the accommodation space of boiling cup subassembly, during the second place, the venthole of pole of admitting air with the accommodation space intercommunication of boiling cup subassembly, steam can get into in the accommodation space of boiling cup subassembly.

In some embodiments, the air inlet rod of the technical scheme has double sealing, the sealing performance is better, and water leakage of the boiling cup assembly can be effectively prevented.

Further, the air inlet assembly further comprises a second elastic piece, and the abutting force of the second elastic piece enables the air inlet rod to move towards the direction away from the accommodating space, so that the air inlet rod moves from the second position to the first position.

Further, when the boiling cup assembly is placed on the main machine, the abutting force of the air outlet rod abuts against the air inlet rod to enable the air inlet rod to move towards the accommodating space, so that the air inlet rod moves from the first position to the second position.

Further, the boiling cup component comprises a boiling cup and a cup seat arranged on the boiling cup, the cup seat is provided with a through hole, the air inlet assembly is arranged on the cup seat and also comprises a first fixing piece, the first fixing piece comprises a first bottom wall and a first side wall extending from the first bottom wall, a first accommodating space is defined by the first bottom wall and the first side wall, the first bottom wall is provided with an opening communicated with the first accommodating space, the third sealing element comprises a main body part, a first extending part extending from the main body part and a second extending part extending from the first extending part, the main body part is accommodated in the first accommodating space and is in fit sealing with the first side wall, the first extension part is accommodated in the opening and is in fit sealing with the cup seat, the second extending part is contained in the penetrating hole of the cup seat and is attached and sealed with the air inlet rod.

In some embodiments, the third sealing member of the above technical solution forms a plurality of seals, which can effectively prevent the boiling cup assembly from leaking water.

Further, the boiling cup assembly further comprises a second fixing piece, the second fixing piece comprises a second bottom wall and a second side wall extending from the second bottom wall, the second bottom wall is in compression joint with the main body portion, the air inlet rod further comprises a resisting portion, one end of the second elastic piece abuts against the resisting portion, and the other end of the second elastic piece abuts against the second bottom wall.

In some embodiments, the second elastic member of the above-described solution is easy to assemble.

Drawings

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

Fig. 2 is a schematic view of a main body of the food processor shown in fig. 1.

Fig. 3 is a schematic view of the air outlet stem of the mainframe shown in fig. 2.

Fig. 4 is a cross-sectional view of the cooking cup assembly of the processor of fig. 1 when not in place.

Fig. 5 is an enlarged view of the circled portion of the cross-sectional view shown in fig. 4.

Fig. 6 is a schematic cross-sectional view of the food processor shown in fig. 1.

Fig. 7 is an enlarged view of the circled portion of the cross-sectional view shown in fig. 5.

Fig. 8 is a schematic view of a cooking cup assembly of the food processor shown in fig. 1.

Fig. 9 is an exploded view of the brewing cup assembly shown in fig. 8.

Fig. 10 is a schematic view of the inner cup holder of the brewing cup assembly shown in fig. 9.

Fig. 11 is a cross-sectional schematic view of the air intake assembly of the brewing cup assembly shown in fig. 9.

Fig. 12 is a schematic view of a first fixing member of the intake assembly shown in fig. 11.

FIG. 13 is a schematic view of a third seal of the intake assembly shown in FIG. 11.

Fig. 14 is a schematic view of a second mount of the intake assembly shown in fig. 11.

Fig. 15 is a cross-sectional schematic view of the intake rod shown in fig. 11.

Fig. 16 is a schematic cross-sectional view of the food processor shown in fig. 4 according to the second embodiment.

Fig. 17 is an exploded view of the air intake assembly of the food processor shown in fig. 16.

Fig. 18 is a cross-sectional schematic view of the intake assembly shown in fig. 16.

Fig. 19 is an enlarged view of the circled portion of the cross-sectional view shown in fig. 16.

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 7, the food processor includes a main body 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. The main machine 1 comprises a support part 14 for placing the boiling cup component 2.

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 positioned in a space enclosed by the shell 10, a motor 12 and an air outlet rod 13 communicated with the steam generating device 11. In one embodiment, the gas outlet rod 13 is in communication with the steam generating device 11 via the gas outlet rod 13. Steam generator 11 with 3 intercommunications of water tank set spare, water in the water tank set spare 3 can flow into steam generator 11 according to the culinary art procedure to produce steam, in order to be used for giving the heating of eating material in the cup subassembly 2 of cooking to cook and eat the material, make heating more even, can prevent to lead to eating the phenomenon of sticking with paste the end because of local high temperature, heat through the mode of slowly cooking, make to eat the material taste better.

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 steam generator 11 is connected to the water tank assembly 3 and the grinding cup 40, and the water in the water tank assembly 3 is heated by the steam generator 11 and flows into the grinding cup 40. 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.

The main body 1 further comprises a pump assembly (not shown) arranged such that water in the water tank assembly 3 can be pumped into the grinding cup 40 after passing through the steam generating device 11 according to a cooking program; or, the water in the water tank assembly 3 can flow through the steam generating device 11 according to a cooking program to generate steam so as to heat and cook food materials in the cooking cup assembly 2.

In one embodiment, the pump assembly includes a first pump (not shown) and a second pump (not shown). The first pump and the second pump are respectively communicated with the water tank assembly 3 and the steam generating device 11. The working flow of the first pump is less than the working flow of the second pump. The steam is formed after the steam flows through the first pump and enters the steam generating device 11 so as to heat food materials in the boiling cup assembly 2, and the hot water is generated after the water flows through the second pump and enters the steam generating device 11 so as to be pumped into the crushing cup 40. The pump assembly comprises a first pump and a second pump, and the service life of the first pump and the service life of the second pump can be prolonged.

In one embodiment, the first pump has an operating flow rate of 20ml/min or more and 50ml/min or less, and the second pump has an operating flow rate of 200ml/min or more and 800ml/min or less.

In one embodiment, the first pump may be a solenoid pump and the second pump may be a motor pump.

The pump assembly is provided with only one pump, which saves space and cost. The pump assembly operates at a flow rate of between 20ml/min and 400ml/min, with a small flow rate when steam is required to be provided to the brewing cup assembly 2 according to a cooking program and a large flow rate when hot water is required to be supplied to the comminution cup 40 according to a cooking program.

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

The air outlet rod 13 can rotate up and down along the shell 10, and the angle that the air outlet rod 13 can rotate upwards along the horizontal direction is less than or equal to 15 degrees. The housing 10 is provided with an avoidance hole 101 for the air outlet rod 13 or the air inlet assembly 24 to pass through, so that the air inlet assembly 24 can be connected with the air outlet rod 13 in an inserting manner. The area of the avoiding hole 101 is more than or equal to 20mm²Less than or equal to 800mm²The rotation angle of the gas outlet rod 13 is ensured, and meanwhile, the problems that the sealing performance is poor and water and dust are easy to enter due to the fact that the avoiding hole 101 is too large are solved.

The air outlet rod 13 includes a base 130, a shaft 131 extending from the base 130, and a first sealing member 132 disposed on the base 130. The base 130 is provided with an air outlet passage 1301. The air outlet channel 1301 is communicated with the air outlet rod 13. The first seal member 132 is provided with a shutter 1320. The shielding sheets 1320 enclose a gap 1321. The gap 1321 may be cross-shaped or straight to form a seal. The masking sheet 1320 is forced to deform to form perforations (not shown).

Referring to fig. 4 to 7, the shaft 131 can rotate relative to the housing 10, so that the air outlet rod 13 can rotate between a first state and a second state along the housing 10, so that the brewing cup assembly 2 can be placed on the supporting portion 14 of the main machine 1 in an inclined manner, which is convenient for placing the brewing cup assembly 2. In one embodiment, in the first state, the central axis of the base 130 is flush with the horizontal direction, and in the second state, the included angle between the central axis of the base 130 and the horizontal direction is less than or equal to 15 degrees.

Referring to fig. 8 to 11, the boiling cup assembly 2 includes a boiling cup 20, a cup holder 21, a handle 22, a cup cover 23 and an air inlet assembly 24.

The boiling cup 20 includes a sidewall 201. The cup holder 21 includes an inner cup holder 210 and an outer cup holder 211. The sidewall 201 and the inner cup 210 enclose a receiving space 2010 for receiving food materials. The inner cup holder 210 is made of metal. The inner cup holder 210 includes a bottom wall 2101 and a side wall 2102 extending from the bottom wall 2101. The outer cup 211 is made of a material with poor thermal conductivity, such as plastic, to prevent the inner cup 210 from being burned. The sidewall 2102 defines a through-hole 21020 for the air intake assembly 24 to pass through. The outer cup 211 is provided with a through hole 2110 that is aligned with the through hole 21020.

Work as boil out cup subassembly 2 place in behind the supporting part 14 of host computer 1, admit air subassembly 24 with the cooperation of the pole 13 of giving vent to anger of host computer 1 for the steam that steam generating device 11 produced can via go out the pole 13 of breathing out and admit air subassembly 24 gets into in the boil out cup subassembly 2, in order to give the edible material heating boil out in the boil out cup subassembly 2.

The top end of the handle 22 is fixed to the top end of the side wall 201, and the bottom end of the handle 22 is fixed to the outer cup holder 211. The handle 22 and the outer cup holder 211 can be fixed by screws or snaps.

Fig. 11 to 15 show the intake assembly 24 of the first embodiment. The intake assembly 24 includes a first fixing member 240, a second fixing member 241, a third sealing member 242, an intake rod 243, a blocking cover 244, and a water blocking member 245.

The first fixing member 240 is made of metal or high temperature resistant plastic, and is resistant to temperature of 150 degrees or more. The first fixing member 240 is assembled in the through hole 2110 of the outer cup 211. The first fixing member 240 includes a first bottom wall 2401 and a first side wall 2402 extending from the first bottom wall 2401. The first bottom wall 2401 and the first side wall 2402 enclose a first accommodating space 24010. The first bottom wall 2401 is provided with an opening 24011 communicating with the first housing space 24010.

The third sealing element 242 includes a main body part 2420, a first extension part 2421 extending from the main body part 2420, and a second extension part 2422 extending from the first extension part 2421. The third seal 242 is provided with a through hole 2423. The via 2423 penetrates the main body part 2420, the first extension part 2421 and the second extension part 2422. The main body part 2420, the first extension part 2421 and the second extension part 2422 are stepped from bottom to top. The main body part 2420 is accommodated in the first accommodating space 24010 of the first fixing member 240 and is attached to and sealed with the first side wall 2402 of the first fixing member 240, so as to prevent water leakage from a gap between the third sealing member 242 and the first fixing member 240. The first extending portion 2421 is received in the opening 24011 of the first fixing element 240 and is attached to the outer cup 211 for sealing, so as to prevent water leakage from a gap between the third sealing element 242 and the outer cup 211. The second extension part 2422 is accommodated in the through hole 2110 of the outer cup holder 211 and is attached to and sealed with the air inlet rod 243 to prevent water leakage from a gap between the third sealing member 242 and the air inlet rod 243. The third sealing member 242 forms a plurality of seals, which increases the sealing performance and effectively prevents water from leaking from the air inlet assembly 24.

The second fixing part 241 is made of metal or high temperature resistant plastic, and is resistant to temperature of 150 degrees or more. The second fixing member 241 is assembled in the first receiving space 24010 of the first fixing member 240. The second fixing member 241 includes a second bottom wall 2411 and a second side wall 2412 extending from the second bottom wall 2411. The second bottom wall 2411 and the second side wall 2412 enclose a second accommodating space 24110. The second bottom wall 2411 is provided with a second opening 24111 communicating with the second receiving space 24110. The second bottom wall 2411 is crimped to the main body part 2420 of the third seal 242. The second opening 24111 is aligned with the through hole 2423 of the third seal 242.

The intake rod 243 includes a rod portion 2430 and an abutting portion 2431 extending from the rod portion 2430. The intake rod 243 is provided with an intake passage 24301 penetrating the rod portion 2430 and the abutting portion 2431. The abutting portion 2431 is received in the second receiving space 24110 of the second fixture 241. The rod-shaped portion 2430 is sequentially inserted through the second opening 24111 of the second fixing member 241 and the through hole 2423 of the third sealing member 242, and is partially accommodated in the accommodating space 2010 of the boiling cup assembly 2. The second extension part 2422 of the third sealing member 242 is in close sealing contact with the rod part 2430, so as to prevent water leakage from a gap between the third sealing member 242 and the air inlet rod 243.

The rod portion 2430 is provided with a plurality of outlet holes 24302. The plurality of air outlet holes 24302 are uniformly distributed along the circumferential direction of the rod-shaped portion 2430 and are communicated with the air inlet channel 24301, so that steam can enter the accommodating space 2010 through the air outlet holes 24302 along the circumferential direction of the rod-shaped portion 2430 to heat the food material in a divergent manner, thereby facilitating the uniformity of heating the food material.

The water blocking piece 245 is positioned in the air inlet channel 24301, has a one-way ventilation reverse water blocking function and is high temperature resistant, so that the fluid in the boiling cup 20 is prevented from flowing out, meanwhile, the water blocking piece 245 cannot prevent steam from passing through, and the structure is simple. The water blocking member 245 and the air inlet rod 243 are fixed by welding or gluing. The water blocking member 245 is a waterproof and breathable film, which can allow steam to pass through and can prevent water from passing through.

The cover 244 is fixed to the first fixing member 240, and can further prevent the second fixing member 241 from being detached from the first fixing member 240.

Referring to fig. 4 to 7, when the cooking cup assembly 2 is placed on the supporting portion 14 of the main machine 1, the air inlet assembly 24 of the cooking cup assembly 2 is abutted to the air outlet rod 13 of the main machine, so that the steam generated by the steam generating device 11 can enter the accommodating space 2010 of the cooking cup assembly 2 to heat the cooked food.

The abutting portion 2431 of the air inlet rod 243 of the air inlet assembly 24 pushes the shielding plate 1320 of the first sealing member 132 away from the through hole and enters the air outlet passage 1301, so that the air inlet passage 24301 of the air inlet rod 243 is communicated with the air outlet passage 1301, and the steam generated by the steam generating device 11 can enter the accommodating space 2010 of the decocting cup assembly 2 through the air outlet passage 1301, the air inlet passage 24301 and the air outlet hole 24302. The air inlet assembly 24 is easily butted against the air outlet rod 13. The air inlet rod 243 of the air inlet assembly 24 is in fit sealing with the first sealing member 132 of the air outlet rod 13 to prevent steam from being exposed.

Because the pole 13 of breathing out can follow the casing 10 rotates from top to bottom, make admit air subassembly 24 with play pole 13 butt joint more easily, place more easily boil out cup subassembly 2.

In another embodiment, the first sealing member 132 may also be disposed on the air intake assembly 24, the end of the air outlet rod 13 is inserted into the air intake passage 24301, and the air outlet rod 13 is tightly sealed with the first sealing member 132.

In fig. 3, the steam generated by the steam generating device 11 enters the accommodating space 2010 to heat and boil the food in the accommodating space 2010. In another embodiment, the accommodating space 2010 includes a first space and a second space located below the first space. The first space is used for containing food materials. The intake assembly 24 communicates with the second space. Steam that steam generating device 11 produced gets into the second space to for the food material heating boil out in the first space. The steam enters the second space, so that the food materials can be uniformly heated, the phenomena of nonuniform heating and bottom pasting caused by local heating are avoided, and the food materials are heated in a slow boiling mode to have better taste; secondly, the arrangement of the second space can generate less slurry bubbles and reduce slurry overflow; and thirdly, the second space has the functions of heat preservation and heat storage.

In another embodiment, boil out cup subassembly 2 including the intercommunication the second space with the communicating pipe in first space, communicating pipe can pass through handle 22 makes steam in the second space can get into in the first space, is favorable to improving the efficiency of eating the material heating, shortens the heat time.

Fig. 16 to 19 show an intake assembly 24 of the second embodiment. The structure of the intake assembly 24 of the second embodiment can refer to the structure of the intake assembly 24 of the first embodiment, and the same parts are not described again. Differences of the intake assembly 24 of the second embodiment from the intake assembly 24 of the first embodiment will be described below. In the second embodiment, the intake assembly 24 includes a first fixed member 240, a second fixed member 241, a third sealing member 242, an intake rod 243, a cover 244, a first elastic member 246, a second elastic member 247, a second sealing member 248 and a moving member 249. The specific structures of the first fixing member 240, the second fixing member 241, the third sealing member 242, the air inlet rod 243, and the blocking cover 244 refer to the first embodiment, and are not described again.

The first resilient member 246 and the second sealing member 248 are received within the intake passage 24301 of the intake rod 243. The second seal 248 is provided with an air intake hole 2480. The intake holes 2480 communicate with the intake passage 24301. One end of the first elastic member 246 abuts against the rod portion 2430, and the other end abuts against the moving member 249. The moving member 249 is abutted by the first elastic member 246 to seal with the second sealing member 248, so as to disconnect the air inlet hole 2480 from the air outlet hole 24302 of the air inlet rod 243, and the fluid in the accommodating space 2010 of the boiling cup assembly 2 cannot flow out.

When steam needs to be fed, the pushing force of the steam pushes against the moving part 249 to move the moving part to open the air inlet holes 2480, and the steam can enter the accommodating space 2010 of the boiling cup assembly 2 through the air inlet holes 2480 and the air outlet holes 24302. The moving member 249 may be a steel ball or the like.

In another embodiment, the second seal 248 may be eliminated, and the moving member 249 seals against the intake rod 243 to close off the intake passage 24301. The moving member 249 may be made of silicone or rubber.

The intake rod 243 further includes a stopper 2432 unlike the first embodiment. The second elastic member 247 is received in the second receiving space 24110 of the second fixing member 241. One end of the second elastic member 247 abuts against the abutting portion 2432, and the other end abuts against the second bottom wall 2411 of the second fixing member 241, so that the assembly is easy.

The air intake rod 243 is movable between a first position and a second position under force. In the first position, the third sealing member 242 seals with the air inlet rod 243 to disconnect the air outlet hole 24302 of the air inlet rod 243 from the accommodating space 2010 of the brewing cup assembly 2, and the fluid in the accommodating space 2010 of the brewing cup assembly 2 cannot flow out. In the second position, the air outlet 24302 of the air inlet rod 243 is communicated with the accommodating space 2010 of the brewing cup assembly 2, and steam can enter the accommodating space 2010 of the brewing cup assembly 2.

When the brewing cup assembly 2 is placed on the supporting portion 14 of the main machine 1, the air outlet rod 13 abuts against the air inlet rod 243 to move the air inlet rod 243 towards the accommodating space 2010, so that the air inlet rod 243 moves from the first position to the second position, and steam can enter the accommodating space 2010 of the brewing cup assembly 2. When the decocting cup assembly 2 is taken away from the main machine 1, the abutting force of the air outlet rod 13 disappears, and the abutting force of the second elastic member 247 drives the air inlet rod 243 to move towards the direction away from the accommodating space 2010, so that the air inlet rod 243 moves to the first position, and the fluid in the accommodating space 2010 of the decocting cup assembly 2 cannot flow out. The air inlet rod 243 is forced to move between the first position and the second position, which further ensures that the fluid in the receiving space 2010 of the brewing cup assembly 2 does not flow out.

The intake assembly 24 of the first embodiment may also be provided with the second elastic member 247 such that the intake rod 243 is movable between the first position and the second position.

The air outlet rod 13 of the food processor of the embodiment of the application can rotate relative to the shell 10, so that the air inlet assembly 24 and the air outlet rod 13 can be more easily butted, and meanwhile, the cooking cup assembly 2 can be placed on the supporting part 14 of the main machine 1 in an inclined mode, and the cooking cup assembly 2 can be more easily placed; the air inlet component 24 of the boiling cup component 2 is provided with a water blocking component 245, so that water in the boiling cup component 2 can be prevented from flowing out, and meanwhile, steam can pass through the water blocking component, so that water leakage of the boiling cup component 2 can be prevented; the air inlet component 24 of the boiling cup component 2 is provided with a moving part 249 and a second sealing member 248, the second sealing member 248 is provided with an air inlet 2480, the moving part 249 and the second sealing member 248 are in fit sealing to prevent the boiling cup component 2 from leaking water, and steam abuts against the moving part 249 to open the air inlet 2480, so that the steam can enter the accommodating space 2010 of the boiling cup component 2; the air inlet rod 243 can move between a first position and a second position, in the first position, the third sealing member 242 is sealed with the air inlet rod 243 to disconnect the air outlet hole 24302 of the air inlet rod 243 from the accommodating space 2010 of the boiling cup component 2, fluid in the accommodating space 2010 of the boiling cup component 2 cannot flow out, in the second position, the air outlet hole 24302 of the air inlet rod 243 is communicated with the accommodating space 2010 of the boiling cup component 2, steam can enter the accommodating space 2010 of the boiling cup component 2, and the air inlet rod 243 has double sealing, so that the boiling cup component 2 is effectively prevented from water leakage.

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 (13)

1. The utility model provides a food processor, its characterized in that, includes host computer (1), water tank set spare (3), smashes cup set spare (4) and boils cup set spare (2), it is equipped with accommodation space (2010) to boil cup set spare (2) for be used for holding edible material, host computer (1) includes casing (10), is located motor (12) and steam generator (11) in the space that casing (10) enclose and with play gas pole (13) of steam generator (11) intercommunication, smash cup set spare (4) including smash cup (40) and set up in smash in cup (40) and pass through crushing sword (41) of motor (12) control, water tank set spare (3) can according to the cooking procedure to smash in cup (40) delivery water, host computer (1) or smash cup set spare (4) still including arranging thick liquid valve (42), arrange thick liquid valve (42) to be set up to smashing the thick liquid in steerable cup (40) according to cooking procedure inflow In accommodation space (2010), boil out cup subassembly (2) including admit air subassembly (24), admit air subassembly (24) with go out gas pole (13) intercommunication, make the steam that steam generating device (11) produced gets into in accommodation space (2010), in order to be used for giving eat material heating in accommodation space (2010), casing (10) are equipped with dodge hole (101), in order to be used for supplying go out gas pole (13) or the subassembly of admitting air passes, it can be relative to go out gas pole (13) casing (10) rotate.

2. The food processor of claim 1, wherein the air outlet rod (13) can rotate upwards along the horizontal direction by an angle less than or equal to 15 degrees, and the area of the avoiding hole (101) is greater than or equal to 20mm²Less than or equal to 800mm²。

3. The food processor of claim 1, wherein the air intake assembly (24) comprises an air intake rod (243), the air intake rod (243) is provided with an air intake passage (24301) and an air outlet hole (24302) communicated with the air intake passage (24301), the air outlet hole (24302) is arranged to be communicated with the accommodating space (2010) for steam to enter into the accommodating space (2010), the air outlet rod (13) is provided with an air outlet passage (1301), and one end of the air intake rod (243) is inserted into the air outlet passage (1301) or one end of the air outlet rod (13) is inserted into the air intake passage (24301).

4. The food processor of claim 3, wherein the air intake assembly (24) or the air outlet rod (13) comprises a first seal (132) for sealing in abutment with the air outlet rod (13) or the air inlet rod (243).

5. The food processor of claim 3, wherein the air intake assembly (24) comprises a water blocking member (245) disposed within the air intake passage (24301), the water blocking member (245) being permeable to steam and impermeable to water.

6. The food processor of claim 5, wherein the water-blocking member (245) comprises a waterproof, breathable membrane.

7. The food processor of claim 3, wherein the air intake assembly (24) comprises a first elastic member (246) and a moving member (249), the first elastic member (246) and the moving member (249) are both located in the air intake passage (24301), the first elastic member (246) abuts against the moving member (249), the abutting force of the first elastic member (246) causes the moving member (249) to close the air intake passage (24301), when air intake is required, the abutting force of steam abuts against the moving member (249) to open the air intake passage (24301), and steam can enter the accommodating space (2010) through the air intake passage (24301).

8. The food processor of claim 7, wherein the air intake assembly (24) further comprises a second sealing member (248), the second sealing member (248) is located in the air intake passage (24301), the second sealing member (248) is provided with an air intake hole (2480), the air intake hole (2480) is communicated with the air intake passage (24301), the abutting force of the first elastic member (246) enables the moving member (249) to be in abutting seal with the second sealing member (248) to block the air intake hole (2480), when air intake is needed, the abutting force of steam abuts against the moving member (249) to open the air intake hole (2480), and steam can enter the accommodating space (2010) through the air intake hole (2480).

9. The food processor of any one of claims 1 to 7, wherein the air intake assembly (24) further comprises a third seal (242), the air intake rod (243) being movable between a first position and a second position, the third seal (242) being in sealing engagement with the air intake rod (243) to disconnect the air outlet (24302) of the air intake rod (243) from the receiving space (2010) of the brewing cup assembly (2), the air outlet (24302) of the air intake rod (243) being in communication with the receiving space (2010) of the brewing cup assembly (2) in the second position, steam being able to enter the receiving space (2010) of the brewing cup assembly (2).

10. The food processor of claim 9, wherein the air intake assembly (24) further comprises a second elastic member (247), and the abutting force of the second elastic member (247) moves the air intake rod (243) away from the accommodating space (2010) to move the air intake rod (243) from the second position to the first position.

11. The food processor of claim 10, wherein when the cooking cup assembly (2) is placed on the main machine (1), the air inlet rod (243) is pushed by the pushing force of the air outlet rod (13) to move towards the accommodating space (2010) so that the air inlet rod (243) moves from the first position to the second position.

12. The food processor of claim 10, wherein the cooking cup assembly (2) comprises a cooking cup (20) and a cup holder (21) arranged on the cooking cup (20), the cup holder (21) is provided with a penetrating hole (2110), the air intake assembly (24) is arranged on the cup holder (21), the air intake assembly (24) further comprises a first fixing member (240), the first fixing member (240) comprises a first bottom wall (2401) and a first side wall (2402) extending from the first bottom wall (2401), the first bottom wall (2401) and the first side wall (2402) enclose a first accommodating space (24010), the first bottom wall (2401) is provided with an opening (24011) communicated with the first accommodating space (24010), the third sealing member (242) comprises a main body portion (2420), a first extending portion (2421) extending from the main body portion (2420) and a second extending portion (2422) extending from the first extending portion (2421), the main body part (2420) is accommodated in the first accommodating space (24010) and is in fit sealing with the first side wall (2402), the first extending part (2421) is accommodated in the opening (24011) and is in fit sealing with the cup base (21), and the second extending part (2422) is accommodated in the penetrating hole (2110) of the cup base (21) and is in fit sealing with the air inlet rod (243).

13. The food processor of claim 12, wherein the cooking cup assembly (2) further comprises a second fixing member (241), the second fixing member (241) comprises a second bottom wall (2411) and a second side wall (2412) extending from the second bottom wall (2411), the second bottom wall (2411) is pressed against the main body portion (2420), the air inlet rod (243) further comprises a resisting portion (2432), one end of the second elastic member (247) is contacted with the resisting portion (2432), and the other end of the second elastic member is contacted with the second bottom wall (2411).

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