CN214231058U - Food processor - Google Patents

Abstract

The application provides a cooking machine. The cooking machine includes cooking cup subassembly and be used for to the watered subassembly of intaking of cooking cup subassembly. The water inlet assembly comprises a water supply tank, a water storage tank, a water pump, a heating module and a water outlet. The water pump comprises a first water pump and a second water pump, the water supply tank, the first water pump and the heating module are respectively connected with the water storage tank and the water outlet through connecting pipelines, and the water storage tank and the second water pump are connected with the water outlet through connecting pipelines. The application provides a cooking machine can provide the water of various different temperatures, satisfies the preparation demand of various drinks, enriches the product function, promotes consumer experience.

Description

Food processor

Technical Field

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

Background

A food processor is a common kitchen appliance. Traditional cooking machine needs the user to add water according to manual the cooking cup of cooking machine of adding in of recipe, uses to some extent inconveniently. Moreover, the traditional food processor can only make the finished drink such as fruit juice, soybean milk and the like by simply stirring and heating. The beverages in real life are various, and different beverages are often brewed by using water with different temperatures, some beverages need boiling water, and some beverages need warm water. The existing food processers can not meet the diversified demands of consumers.

Based on this, the prior art is in need of improvement.

SUMMERY OF THE UTILITY MODEL

The application provides a cooking machine can provide the water of different temperatures in real time to satisfy the preparation demand of different drinks.

The application provides a cooking machine, including cooking cup subassembly with be used for to the watered subassembly of intaking of cooking cup subassembly, the subassembly of intaking includes feed water tank, storage water tank, water pump, heating module and delivery port, the water pump includes first water pump and second water pump, the feed water tank first water pump with heating module through connecting tube with the storage water tank with the delivery port is connected respectively, the storage water tank with the second water pump through connecting tube with the delivery port is connected.

The application provides a cooking machine has the subassembly of intaking, can add water according to the procedure is automatic in the course of working of cooking cup subassembly, with the preparation that realizes more diversified drinks, especially the subassembly of intaking has heating module, can provide the boiling water fast, shorten the heat time of eating the material in the cooking cup subassembly, be equipped with the cold boiling water of storage water tank prestore in addition, the water that can be quick and heating module instant heating mixes in order to provide the water of various different temperatures, satisfy the preparation demand of various drinks, enrich the product function, promote consumer experience.

Optionally, a refrigerating device and a temperature sensing device are arranged on the water storage tank. The water storage tank is provided with a refrigerating device which can quickly cool water in the water storage tank so as to be mixed with water instantly heated by the heating module to provide water with various temperatures; the water storage tank is provided with a temperature sensing device for detecting the temperature of water in the water storage tank so as to calculate the mixing proportion and provide water meeting the temperature required by a user.

Optionally, the refrigeration device comprises a semiconductor refrigeration piece. The semiconductor refrigerating sheet is small and exquisite, easy to install and good in refrigerating effect.

Optionally, the water storage tank and the water supply tank are arranged in a manner of being attached to each other. The water storage tank and the water supply tank are mutually attached to be arranged, so that heat can be mutually transferred between the water storage tank and the water supply tank, on one hand, the cooling of water in the water storage tank can be accelerated, and on the other hand, the water temperature in the water supply tank can be increased to save the heating electric energy of the heating module.

Optionally, the water inlet assembly further comprises a first flow meter connected to the first water pump and a second flow meter connected to the second water pump. The first flow meter and the second flow meter are designed to meter the water amount passing through the first water pump and the second water pump so as to mix out the water meeting the temperature required by the user.

Optionally, the heating module is an instant heating type heater. The heating module can provide boiled water for the instant heating type heater.

Optionally, the water inlet assembly further comprises a three-way valve having a water inlet port connected to the water supply tank, a first water outlet port connected to the water storage tank, and a second water outlet port connected to the water outlet. The switching between water storage and water outlet can be realized through the three-way valve.

Optionally, the subassembly of intaking has normal atmospheric temperature water mode of water play, under normal atmospheric temperature water mode of water play, the storage water tank the second water pump with the delivery port warp connecting line intercommunication just the feed water tank with the delivery port does not communicate, the second water pump extraction water in the storage water tank extremely the delivery port. Has a normal temperature water outlet mode, and can provide normal temperature water.

Optionally, the water inlet assembly has a boiled water outlet mode, in the boiled water outlet mode, the water supply tank, the first water pump, the heating module and the water outlet are communicated through the connecting pipeline, the water storage tank is not communicated with the water outlet, and the first water pump pumps water in the water supply tank to the heating module for heating and conveying to the water outlet. Has a boiled water outlet mode and can provide high-temperature boiled water.

Optionally, the water inlet assembly has a warm water outlet mode, in the warm water outlet mode, the water supply tank, the first water pump, the heating module and the water outlet are communicated through the connecting pipeline, the water storage tank, the second water pump and the water outlet are communicated through the connecting pipeline, the first water pump pumps water in the water supply tank to the heating module for heating and conveying to the water outlet, and the second water pump pumps water in the water storage tank to the water outlet. Has warm boiled water outlet mode, and can provide warm boiled water.

Optionally, the water inlet assembly has a water storage mode, in the water storage mode, the water supply tank, the first water pump, the heating module and the water storage tank are communicated through the connecting pipeline, the first water pump pumps water in the water supply tank to the heating module for heating and conveying to the water storage tank, and the second water pump does not work. The water storage mode is provided, and water in the water supply tank can be boiled and cooled to be stored in the water storage tank.

Optionally, the subassembly of intaking includes into water cover head, arrange the cup subassembly and place into water cover head below, the delivery port sets up on the intake cover head. Establish on cooking cup subassembly through the caping lid of intaking, can realize intaking from the cup oral area to need not to change the cup structure of current cooking machine, promote the commonality, reduction in production cost.

Optionally, the cooking machine is still including installing receive the water dish on the subassembly of intaking, receive the water dish and install intake the subassembly with the relative one side of the caping that intakes, receive the water dish with the subassembly that intakes encloses into "Contraband" shape structure, cooking cup unit mount be in intake the caping with receive between the water dish. The water collecting tray and the water inlet assembly are enclosed into an Contraband-shaped structure, the cooking cup assembly is arranged between the water inlet cover head and the water collecting tray, namely the cooking cup assembly is placed in a frame of the Contraband-shaped structure for use, so that the cooking cup assembly and the main body part of the water inlet assembly are transversely arranged side by side, and the height of the cooking machine can be reduced; in addition, receive the water tray and enclose into "Contraband" shape structure with the subassembly of intaking, the position that should place when reminding user's cooking cup subassembly to use that can be fine, multiplicable user's use experience.

Optionally, the subassembly of intaking is including being close to arrange the preceding shell of cup subassembly and install preceding shell is kept away from arrange the backshell of cup subassembly one side, the cover head that intakes is located on the preceding shell. The water inlet assembly comprises a front shell and a rear shell which are arranged in a closed mode, and the installation of internal components of the water inlet assembly can be facilitated.

Optionally, the rear housing includes a first sidewall and a second sidewall protruding from a lower portion of the first sidewall toward a direction away from the front housing, a step surface is formed between the second sidewall and the first sidewall, and the water supply tank is mounted on the step surface. The water supply tank is installed on the step face that the back shell formed for the water supply tank has the support, and the installation and dismantlement are all more convenient and connect firmly, and the water supply tank is installed back and second lateral wall can the parallel and level on the back shell moreover, does not lead to too evagination, can strengthen the aesthetic property in the outward appearance.

Optionally, the first water pump, the second water pump and the heating module are disposed in a space enclosed by the second side wall and the front shell, and a connection pipeline connecting the first water pump and the second water pump to the water outlet upwardly passes through the space enclosed by the first side wall and the front shell to convey water to the water outlet. Because the second lateral wall is evagination setting for first lateral wall for the space between second lateral wall and the preceding shell is great, can make things convenient for water pump and heating module to install here, and the space between first lateral wall and the preceding shell is narrower relatively, can supply water route subassembly pass can, make the space that preceding shell and backshell formed can by make full use of.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive labor.

Fig. 1 is a combined cross-sectional view of an embodiment of the food processor of the present application.

Fig. 2 is an exploded perspective view of an embodiment of the food processor of the present application.

Fig. 3 is a perspective view of a water supply tank and a water storage tank in an embodiment of the food processor of the present application.

Fig. 4 is a perspective view of a water pump and a heating module in an embodiment of the food processor of the present application.

Fig. 5 is a perspective view of a three-way valve in an embodiment of the food processor of the present application.

Fig. 6 is a schematic connection diagram of a water inlet assembly in an embodiment of the food processor of the present application.

Reference numerals:

100-food processor; 10-a cooking cup assembly; 11-a cooking cup; 111-a crushing member; 112-a heat generating member; 12-a cup holder assembly; 121-a motor; 122-a coupler; 13-a cup cover; 131-water through holes; 20-a water intake assembly; 21-front shell; 211-an operating panel; 212-water inlet cover head; 213-a base plate; 22-a rear shell; 221-a first sidewall; 222-a second sidewall; 223-step surface; 231-a water supply tank; 2311-tank cover; 232-a water storage tank; 2321-a refrigeration device; 2322-temperature sensing means; 241-a first water pump; 2411-a first flow meter; 242-a second water pump; 2421-a second flow meter; 243-heating module; 244-three-way valve; 2441-first outlet port; 2442-a second water outlet port; 2443-water inlet port; 25-a one-way valve; 261-water storage tank interface one; 262-water storage tank interface two; 263-water supply tank interface; 27-a control circuit board; 30-water collecting tray.

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 implementations described in the exemplary embodiments below do not represent all implementations consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with aspects of the present application.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in this application, 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.

The application provides a cooking machine, including cooking cup subassembly with be used for to the watered subassembly of intaking of cooking cup subassembly. The water inlet assembly comprises a water supply tank, a water storage tank, a water pump, a heating module and a water outlet. The water pump comprises a first water pump connected with the water supply tank and a second water pump connected with the water storage tank, and the first water pump is used for pumping water in the water supply tank to the heating module for heating and conveying the water to the water storage tank for cooling and storage or conveying the water to the water outlet. The second water pump is used for pumping water in the water storage tank to the water outlet. The first water pump and the second water pump work alternatively or simultaneously to flow water with different temperatures from the water outlet.

The application provides a cooking machine has the subassembly of intaking, can add water according to the procedure is automatic in the course of working of cooking cup subassembly, with the preparation that realizes more diversified drinks, especially the subassembly of intaking has heating module, can provide the boiling water fast, shorten the heat time of eating the material in the cooking cup subassembly, be equipped with the cold boiling water of storage water tank prestore in addition, the water that can be quick and heating module instant heating mixes in order to provide the water of various different temperatures, satisfy the preparation demand of various drinks, enrich the product function, promote consumer experience.

A food processor according to the present application will be described in detail below with reference to the accompanying drawings. Features in the embodiments described below may be combined with each other without conflict.

Referring to fig. 1, the food processor 100 includes a food cup assembly 10 and a water inlet assembly 20. The cooking cup assembly 10 and the water inlet assembly 20 are arranged side by side in the transverse direction. In other words, the food cup assembly 10 is placed beside the water inlet assembly 20 instead of being placed up and down during use. It should be noted that the term "laterally side by side" or "lateral side" as used herein may include all components of the water inlet assembly 20 being located at the lateral side of the cooking cup assembly 10, and may also include the main body of the water inlet assembly 20 or most components of the water inlet assembly 20 being located at the lateral side of the cooking cup assembly 10, allowing some components or structures of the water inlet assembly 20 to extend above, below or around the cooking cup assembly 10. Referring to fig. 2, in order to prevent the liquid in the food processing cup assembly 10 from flowing down to the table top on which the food processing cup assembly 100 is placed during the operation of the food processing machine 100, the food processing machine 100 further includes a water collecting tray 30 padded under the food processing cup assembly 10. The water collecting tray 30 is detachably connected to the lower portion of the water inlet assembly 20. In some embodiments, the water inlet assembly 20 is also a main assembly of the food processor 100, and an operation circuit board for operating the food processor 100 is disposed therein, and an operation panel 211 for a user to operate is disposed on a housing of the water inlet assembly 20 corresponding to the operation circuit board. One or more of a power supply circuit board for supplying power to the food processing cup assembly 10, a main control circuit board for controlling the work of the food processing cup assembly 10 and the like can be further arranged in the water inlet assembly 20. The operation circuit board, the power supply circuit board and the main control circuit board can be respectively independent circuit boards or can be integrated circuit boards. For example, the power circuit board and the main control circuit board may be a circuit board, which has a power circuit for converting the commercial power into different power voltages to satisfy the requirement of the power consumption component in the food cup assembly 10 and a control circuit for controlling the power consumption component in the food cup assembly 10 to operate. The cooking cup assembly 10 and the water inlet assembly 20 will be described in detail below.

With continued reference to fig. 1, the cooking cup assembly 10 includes a cooking cup 11 and a cup holder assembly 12 mounted below the cooking cup 11. The cooking cup 11 is usually a glass cup or a stainless steel cup, and has a containing cavity for containing materials, water and other raw materials and processing the materials into a beverage. The upper portion of cooking cup 11 has the rim of a cup, and rim of a cup department lid is equipped with bowl cover 13. Be equipped with crushing piece 111 in cooking cup 11, crushing piece 111 is driven by motor 121 and is rotated in order to realize smashing, stirring the material of cooking cup 11 holding intracavity. The bottom of cooking cup 11 is equipped with the piece 112 that generates heat, the piece 112 that generates heat is used for heating the edible material in the cooking cup 11. The crushing member 111 is generally connected to the central opening of the heat generating member 112 through a tool seat. In order to prevent the liquid in the cooking cup 11 from exposing, a sealing member is disposed at the joint of the knife holder and the heating member 112 and the joint of the heating member 112 and the cooking cup 11. The middle part of the cup cover 13 is provided with a water through hole 131 so that water of the water inlet assembly 20 can be added into the food processing cup 11 through the water through hole 131. The cup holder assembly 12 includes a cup holder housing (not numbered) and a motor 121 disposed within the cup holder housing. The motor 121 has a motor shaft that can be connected directly to the shredder 111 or can be connected to the shredder 111 via a coupling. In some embodiments, the upper end of the motor shaft passes through the tool seat mounted on the heating member 112 upward, and then is fixed to the crushing member 111 by means of a threaded connection, a nut, a screw, a pin, or the like; in other embodiments, the crushing member 111 has a blade and a downwardly extending shaft, and the shaft passes through a tool seat installed on the heating member 112 and then is fixed to the upper end of the motor shaft by means of screw connection, nuts, screws, pins, etc.; in still other embodiments, the crushing member 111 has a blade and a downwardly extending shaft, the shaft passes through the blade seat mounted on the heat generating member 112 and is connected with a coupling, and the upper end of the motor shaft is connected with the coupling or usually another coupling is connected with the coupling on the shaft to connect the motor shaft and the shaft of the crushing member 111. The cooking cup assembly 10 comprises the main electric components of the motor 121 and the heating element 112, and certainly comprises other electric components, such as a temperature sensor, an anti-overflow probe and the like. The power utilization component in the food cup assembly 10 is connected to the circuit component in the water inlet assembly 20 through the coupler 122, so as to obtain power from the circuit component in the water inlet assembly 20 or perform signal transmission with the circuit component. The couplers 122 are a pair that are plugged into each other and used in a mating manner, and specifically include a first coupler mounted on the cup holder assembly 12 and a second coupler mounted on the water inlet assembly 20. The first coupler is mounted on the side of the cup holder assembly 12 near the lower portion and has a horizontally outwardly facing spigot or socket, and the second coupler is mounted on the side of the water intake assembly 20 near the lower portion and has a horizontally outwardly facing spigot or socket. The first coupler is electrically connected with the motor 121 and the heating element 112, the second coupler is electrically connected with one or two of a power circuit board, a main control circuit board and the like in the water inlet assembly 20, when the first coupler and the second coupler are laterally inserted together, the power circuit board, the main control circuit board and the like in the water inlet assembly 20 can be electrically connected with the motor 121, the heating element 112 and the like in the food processing cup assembly 10, so that power supply to the motor 121, the heating element 112 and other electric components and transmission of control signals are realized. The power circuit board can also be referred to as a power board for short, and the main control circuit board can also be referred to as a main control board for short. Through setting up circuit boards such as power strip, main control board in subassembly 20 of intaking to realize the power supply or the signal transmission to motor 121, piece 112 that generates heat through coupler 122, thereby need not to set up these some circuit boards in cooking cup subassembly 10, can reduce the setting of the circuit part in the cooking cup subassembly 10, make things convenient for taking off, washing etc. of cooking cup subassembly 10. The first coupler and the second coupler are matched in a lateral plugging mode, so that the risk of water entering the couplers is reduced.

Referring to fig. 1 and 2, the water inlet assembly 20 includes a main housing, a water tank mounted on the main housing, a water pump mounted in the main housing, a heating module 243 and a connecting pipeline. The main chassis comprises a front chassis 21 and a rear chassis 22 which are covered in front and rear. Preceding shell 21 is close to cooking cup subassembly 10, backshell 22 is installed preceding shell 21 is kept away from one side of cooking cup subassembly 10. After the front shell 21 and the rear shell 22 are installed, a space is formed inside the front shell 21 and the rear shell 22, and the water pump, the heating module 243 and the connecting pipeline are arranged in the space enclosed by the front shell 21 and the rear shell 22. The subassembly 20 of intaking is still including locating the upper portion of preceding shell 21 and towards the cooking cup subassembly 10 protruding cover 212 of intaking that sets up, the cover 212 of intaking has the delivery port. The water inlet cover head 212 is covered above the cup cover 13 of the food cup assembly 10, and the water outlet of the water inlet cover head is communicated with the water passing hole 131 on the cup cover 13. Establish on bowl cover 13 through the lid 212 lid that intakes, realize intaking from cooking cup 11 oral area to need not to change the cooking cup 11 structure of current cooking machine, promote the commonality, reduction in production cost. The water inlet cover head 212 of the water inlet assembly 20 and the water collecting tray 30 are arranged oppositely up and down, so that the water collecting tray 30 and the water inlet assembly 20 form an Contraband-shaped structure. The cooking cup assembly 10 is installed between the water inlet cover head 212 and the water collecting tray 30, that is, the cooking cup assembly 10 is placed in a frame of an Contraband-shaped structure for use, so that the cooking cup assembly 10 and the main body part of the water inlet assembly 20 are transversely arranged side by side, and the height of the cooking machine can be reduced; in addition, receive water tray 30 and intake assembly 20 and enclose into "Contraband" shape structure, its novel structure, pleasing to the eye, and the position that should place when reminding user cooking cup subassembly 10 to use that can be fine can promote user's use and experience. Be equipped with operating circuit board in the preceding shell 21, preceding shell 21 does not correspond on one side that is blockked by cooking cup subassembly 10 operating circuit board is equipped with and is used for operating the operating panel 211 of cooking machine 100 work. An operation panel 211 is provided above the front case 21 for user operation. The bottom of the front case 21 is also mounted with a bottom plate 213. In this embodiment, the rear case 22 includes a first sidewall 221 positioned at an upper portion and a second sidewall 222 protrudingly provided from a lower portion of the first sidewall 221 in a direction away from the front case 21, a step surface 223 is formed between the first sidewall 221 and the second sidewall 222, and the water tank is detachably mounted on the step surface 223 of the rear case 22. So set up and make the water tank have the support, the water tank with the installation of detachable mode in the outside of backshell 22, can make things convenient for taking off of water tank to add water, the installation and dismantle all more convenient and connect firmly. And the water tank is attached to the first sidewall 221 and the height of the water tank is set to be equal to the height of the first sidewall 221 by setting the width of the water tank to be equal to the width of the step surface 223, so that the upper part of the water tank does not protrude out of the upper part of the main chassis, the rear part of the water tank does not protrude out of the second sidewall 222, and the water tank can be flush with the second sidewall 222, so that the water tank and the main chassis are integrally formed into a regular shape, such as a rectangular parallelepiped or a cube, and the aesthetic property of the appearance can be enhanced. Since the second sidewall 222 of the rear shell 22 protrudes from the first sidewall 221, which makes the space enclosed by the second sidewall 222 and the front shell 21 larger than the space enclosed by the first sidewall 221 and the front shell 21, the water pump and the heating module 243 can be disposed in the space enclosed by the second sidewall 222 and the front shell 21, so that the connecting pipeline connects the water pump and the heating module 243 and passes upward through the space enclosed by the first sidewall 221 and the front shell 21 to be connected to the water outlet of the water inlet cover head 212, and thus the space enclosed by the front shell 21 and the rear shell 22 can be fully utilized.

In this embodiment, the water tank includes a water supply tank 231 and a water storage tank 232, the water supply tank 231 is attached to the outer side of the first sidewall 221 of the rear case, an opening is formed on the first sidewall 221, and the water storage tank 232 is installed in the opening. The upper portion of the water supply tank 231 has a tank opening, and a tank cover 231 is covered at the tank opening of the water supply tank 231. A cover plate extending horizontally is arranged on the first side wall 221 corresponding to the tank opening at the upper part of the water storage tank 232. The water storage tank 232 and the water supply tank 231 are attached to each other, so that heat can be transferred between the water storage tank 232 and the water supply tank 231, cooling of water in the water storage tank 232 can be accelerated, and water temperature in the water supply tank 231 can be increased to save heating electric energy of the heating module 243. Referring to fig. 3, a refrigeration device 2321 and a temperature sensing device 2322 are disposed on the water storage tank 232. The cooling device 2321 can rapidly cool the water in the water storage tank 232 so as to mix with the water instantly heated by the heating module 243 to provide water at various temperatures; the temperature sensing device 2322 is used to detect the temperature of the water in the water storage tank 232 so as to calculate the mixing ratio to provide the water at the temperature required by the user. In some embodiments, the cooling device 2321 comprises a semiconductor cooling plate. The semiconductor refrigerating sheet is small and exquisite, easy to install and good in refrigerating effect. The water storage tank 232 is connected with a first water storage tank connector 261 and a second water storage tank connector 262, one of the two water storage tank connectors is used for water inlet, and the other water storage tank connector is used for water outlet. A water supply tank port 263 is connected to the water supply tank 231.

Referring also to fig. 4, the water pump includes a first water pump 241 connected to the water supply tank 231 and a second water pump 242 connected to the water storage tank 232. The first water pump 241 is used for pumping water in the water supply tank 231 to the heating module 243 for heating, and conveying the water to the water storage tank 232 for cooling and storing or conveying the water to the water outlet. The second water pump 242 is used for pumping the water in the storage tank 232 to the water outlet. The water stored in the water storage tank 232 is normal temperature water cooled to normal temperature after being boiled. The water supply tank 231 is supplied with water at normal temperature without boiling. According to different beverages, one or both of the first water pump 241 and the second water pump 242 are controlled to work simultaneously, so that hot water with different temperatures can be mixed, and the making requirements of different beverages can be met. The heating module 243 is an instantaneous heater, that is, the normal temperature water is heated to a set temperature immediately after flowing through the heating module 243. The instant heating type heater has high heating speed, can provide hot water with various set temperatures in real time, can enrich the types of beverages which can be made by the food processor 100, can greatly shorten the time for heating the heating piece 112 of the food cup assembly 10, and can shorten the time for making the beverages by the food processor 100. The water intake assembly 20 further includes a first flow meter 2411 connected to the first water pump 241 and a second flow meter 2421 connected to the second water pump 242. The first and second flow meters 2411 and 2421 are designed to meter the amount of water passing through the first and second water pumps 241 and 242 so as to mix the water to meet the temperature required by the user. Referring also to fig. 5, the water inlet assembly 20 further includes a three-way valve 244 and a one-way valve 25. The three-way valve 244 has an inlet port 2443 connected to the tank port 263 of the water supply tank 231, a first outlet port 2411 connected to the tank port one 261 of the water supply tank 231, and a second outlet port 2442 connected to the outlet. In this embodiment, the three-way valve 244 is an electromagnetic three-way valve, and the conduction switching of the water outlet port can be realized through electric control, so as to realize the switching between the water storage and the water outlet. The check valve 25 is connected to a connecting pipeline close to the water outlet.

Referring to fig. 6, the connection relationship between the components of the water inlet assembly 20 of the food processor 100 of the present application is described with reference to fig. 6: the first water pump 241, the first flow meter 2411, the second water pump 242, the second flow meter 2421, the heating module 243, the three-way valve 244, the refrigerating device 2321 and the temperature sensing device 2322 are all connected with the control circuit board 27; the water supply tank interface 263 of the water supply tank 231 is sequentially connected with the first water pump 241, the heating module 243, the first flow meter 2411 and the water inlet port 2443 of the three-way valve 244 through connecting pipelines, the first water outlet port 2441 of the three-way valve 244 is connected with the first water storage tank interface 261 of the water storage tank 232, and the second water outlet port 2442 of the three-way valve 244 is connected with the water outlet through the one-way valve 25; the second water tank interface 262 of the water tank 232 is connected with the second water pump 242 and the second flow meter 2421 in sequence through connecting pipelines and is connected to the water outlet through the one-way valve 25.

The water outlet mode of the water inlet assembly 20 of the food processor 100 of the present application will be described with reference to fig. 6. The water inlet assembly 20 has a water storage mode in which the water supply tank 231, the first water pump 241, the heating module 243 and the water storage tank 232 are connected through a connection pipe and the second water pump 242 is not operated to implement the water storage mode, the first water pump 241 pumps water in the water supply tank 231 into the heating module 243 to be heated and transferred to the water storage tank 232, and the second water pump 242 is not operated to implement the water storage mode in which water in the water supply tank 231 is boiled and cooled and stored in the water storage tank 232. The water inlet assembly has a normal-temperature water outlet mode, the water storage tank 232, the second water pump 242 and the water outlet are communicated through a connecting pipeline, the water supply tank 231 is not communicated with the water outlet to realize the normal-temperature water outlet mode, the second water pump 242 pumps water which is cooled to room temperature in the water storage tank 232 to the water outlet, and the first water pump 241 does not work to realize the normal-temperature water outlet mode and can provide normal-temperature water. The water inlet assembly 20 has a boiled water outlet mode, the water supply tank 231, the first water pump 241, the heating module 243 and the water outlet are connected through a connection pipe, and the water storage tank 232 and the water outlet are not connected to realize the boiled water outlet mode, the first water pump 241 pumps water in the water supply tank 231 to the heating module 243 for heating and delivering to the water outlet, and the second water pump 242 does not operate to realize the boiled water outlet mode, which can provide high-temperature boiled water. The water inlet assembly 20 has a warm boiled water outlet mode, the water supply tank 231, the first water pump 241, the heating module 243 and the water outlet are conducted through a connecting pipeline, and the water storage tank 232, the second water pump 242 and the water outlet are conducted through a connecting pipeline to be mixed to realize the warm boiled water outlet mode, the first water pump 241 pumps water in the water supply tank 231 to the heating module 243 to be heated and conveyed to the water outlet, and the second water pump 242 pumps water in the water storage tank 232 to be conveyed to the water outlet to be mixed to realize the warm boiled water outlet mode, which can provide warm boiled water.

Can know through the above description to specific embodiment, the food processer 100 that this application provided has into water subassembly 20, can add water according to the procedure is automatic in the course of working of cooking cup subassembly 10, in order to realize the preparation of more diversified drink, especially, it has heating module 243 to advance water subassembly 20, can provide the boiling water fast, shorten the heat time to eating material in the cooking cup subassembly 10, it stores cool boiled water in advance to be equipped with storage water tank 232 in addition, the water that can be quick and heat module 243 instant heating mixes in order to provide the water of various different temperatures, satisfy the preparation demand of various drinks, enrich the product function, promote consumer experience.

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 (16)

1. The food processor is characterized by comprising a food processing cup assembly (10) and a water inlet assembly (20) for adding water into the food processing cup assembly (10), wherein the water inlet assembly (20) comprises a water supply tank (231), a water storage tank (232), a water pump (241), a heating module (243) and a water outlet, the water pump (241) comprises a first water pump (241) and a second water pump (242), the water supply tank (231), the first water pump (241) and the heating module (243) are respectively connected with the water storage tank (232) and the water outlet through connecting pipelines, and the water storage tank (232) and the second water pump (242) are connected with the water outlet through connecting pipelines;

the first water pump (241) is used for pumping water in the water supply tank (231) to the heating module (243) for heating, and conveying the water to the water storage tank (232) for cooling and storing or conveying the water to the water outlet, the second water pump (242) is used for pumping water in the water storage tank (232) to the water outlet, and the first water pump (241) and the second water pump (242) work alternatively or simultaneously to flow water with different temperatures from the water outlet.

2. The food processor as claimed in claim 1, wherein a refrigerating device (2321) and a temperature sensing device (2322) are provided on the water storage tank (232).

3. The food processor of claim 2, wherein the cooling device (2321) comprises a semiconductor cooling plate.

4. The food processor of claim 2, wherein the water storage tank (232) and the water supply tank (231) are disposed against each other.

5. The food processor of claim 1, wherein the water intake assembly (20) further comprises a first flow meter (2411) connected to the first water pump (241) and a second flow meter (2421) connected to the second water pump (242).

6. The food processor of claim 1, wherein the heating module (243) is an instant heater.

7. The food processor of claim 1, wherein the water intake assembly (20) further comprises a three-way valve (244), the three-way valve (244) having a water intake port (2443) connected to the water supply tank (231), a first water outlet port (2441) connected to the water storage tank (232), and a second water outlet port (2442) connected to the water outlet.

8. The food processor of any one of claims 1 to 7, wherein the water inlet assembly (20) has a normal temperature water outlet mode, in which the water storage tank (232), the second water pump (242) and the water outlet are communicated through the connecting pipe and the water supply tank (231) is not communicated with the water outlet, and the second water pump (242) pumps water in the water storage tank (232) to the water outlet.

9. The food processor of any one of claims 1 to 7, wherein the water inlet assembly (20) has a boiled water outlet mode in which the water supply tank (231), the first water pump (241), the heating module (243) and the water outlet are communicated via the connecting line and the water storage tank (232) is not communicated with the water outlet, the first water pump (241) pumping water in the water supply tank (231) into the heating module (243) for heating and delivering to the water outlet.

10. The food processor of any one of claims 1 to 7, wherein the water inlet assembly (20) has a warm water outlet mode in which the water supply tank (231), the first water pump (241), the heating module (243) and the water outlet are in communication via the connecting line and the water storage tank (232), the second water pump (242) and the water outlet are in communication via the connecting line, the first water pump (241) pumps water in the water supply tank (231) into the heating module (243) for heating and delivery to the water outlet, and the second water pump (242) pumps water in the water storage tank (232) for delivery to the water outlet.

11. The food processor of any one of claims 1 to 7, wherein the water inlet assembly (20) has a water storage mode in which the water supply tank (231), the first water pump (241), the heating module (243) and the water storage tank (232) are communicated through the connecting pipeline, the first water pump (241) pumps water in the water supply tank (231) into the heating module (243) for heating and conveying to the water storage tank (232), and the second water pump (242) is not operated.

12. The food processor of claim 1, wherein the water inlet assembly (20) comprises a water inlet cover head (212), the food cup assembly (10) is placed under the water inlet cover head (212), and the water outlet is arranged on the water inlet cover head (212).

13. The food processor of claim 12, further comprising a water collecting tray (30) mounted on the water inlet assembly (20), wherein the water collecting tray (30) is mounted on a side of the water inlet assembly (20) opposite to the water inlet cover head (212), the water collecting tray (30) and the water inlet assembly (20) enclose an "Contraband" shaped structure, and the food cup assembly (10) is mounted between the water inlet cover head (212) and the water collecting tray (30).

14. The food processor of claim 12, wherein the water inlet assembly (20) comprises a front shell (21) close to the food cup assembly (10) and a rear shell (22) installed at one side of the front shell (21) far away from the food cup assembly (10), and the water inlet cover head (212) is arranged on the front shell (21).

15. The food processor of claim 14, wherein the rear case (22) comprises a first side wall (221) and a second side wall (222) convexly provided from a lower portion of the first side wall (221) toward a direction away from the front case (21), a step surface (223) is formed between the second side wall (222) and the first side wall (221), and the water supply tank (231) is mounted on the step surface (223).

16. The food processor of claim 15, wherein the first water pump (241), the second water pump (242) and the heating module (243) are disposed in a space enclosed by the second side wall (222) and the front shell (21), and a connecting pipeline connecting the first water pump (241), the second water pump (242) to the water outlet upwardly passes through the space enclosed by the first side wall (221) and the front shell (21) to deliver water to the water outlet.

Images