CN215838529U

CN215838529U - Food processing machine

Info

Publication number: CN215838529U
Application number: CN202121974767.6U
Authority: CN
Inventors: 于洋
Original assignee: Hangzhou Tuya Information Technology Co Ltd
Current assignee: Hangzhou Tuya Information Technology Co Ltd
Priority date: 2021-08-19
Filing date: 2021-08-19
Publication date: 2022-02-18
Anticipated expiration: 2031-08-19

Abstract

The application discloses food preparation machine, this food preparation machine includes: the water tank is arranged in the accommodating cavity; the food processor also comprises a first water purifying device, and the first water supply pipeline is sequentially connected with the water tank, the first water purifying device and the accommodating cavity. In this way, this application can carry out purification treatment to the water in the water tank to avoid producing food potential safety hazard problem.

Description

Food processing machine

Technical Field

The application relates to the technical field of household appliances, in particular to a food processing machine.

Background

Currently, food processors are increasingly functioning, for example, food processors that are capable of automatic pulping and automatic cleaning. Although the food processor can realize automatic pulping and automatic cleaning, water used for automatic pulping and automatic cleaning is water in a water tank in the food processor, and the water in the water tank is a fixed storage water source, so bacteria are easy to breed under the condition of long-time storage. Therefore, the problem of potential food safety hazard can exist when water in the water tank stored for a long time is used for pulping.

SUMMERY OF THE UTILITY MODEL

The main technical problem who solves of this application provides a food preparation machine, can carry out purification treatment to the water in the water tank to avoid producing food potential safety hazard problem.

In order to solve the technical problem, the application adopts a technical scheme that: there is provided a food processor comprising: the water tank is arranged in the accommodating cavity; the food processor also comprises a first water purifying device, and the first water supply pipeline is sequentially connected with the water tank, the first water purifying device and the accommodating cavity.

The food processor also comprises at least one second water supply pipeline, and the second water supply pipeline is connected with the accommodating cavity and the water tank; the first water supply pipeline and the second water supply pipeline are both provided with control devices; the food processor also comprises a processor, the control device is connected with the processor, and the processor controls the corresponding control device to be opened or closed according to the set mode, so that the first water supply pipeline and the second water supply pipeline are controlled to be communicated or closed.

Wherein the control device comprises an electromagnetic valve.

The food processor also comprises a heating device, and the heating device is connected with the first water supply pipeline and the second water supply pipeline; the heating device is also electrically connected with the processor; the processor controls the heating device to be switched on or switched off according to the set mode.

The heating device comprises a first heating device and a second heating device, and the first heating device and the second heating device are both electrically connected with the processor; wherein the first heating device is connected with the first water supply pipeline; the second heating device is connected with a second water supply pipeline.

The temperature sensors are arranged on the first water supply pipeline and the second water supply pipeline and electrically connected with the processor, and the processor controls the heating device to be turned on or turned off according to the sensed temperature corresponding to the temperature sensors.

The food processor also comprises a selection terminal which is electrically connected with the processor; the processor performs control according to a setting mode in the selection terminal.

The selection terminal further comprises a selection screen, and a plurality of function buttons are arranged on the selection screen.

The food processor also comprises a water quantity detector and an alarm device, wherein the water quantity detector and the alarm device are both electrically connected with the processor, and the processor selects whether to control the control device and the alarm device according to the detection result of the water quantity detector.

Wherein, be provided with the water pump on first water supply pipeline and the second water supply pipeline respectively.

The water tank is provided with a main water outlet pipeline, and the first water supply pipeline and the second water supply pipeline are both connected with the main water outlet pipeline; a water pump is arranged on the water outlet main pipeline.

The beneficial effect of this application is: in contrast to the state of the art, the present application provides a food processor comprising: the water tank is arranged in the accommodating cavity; the food processor also comprises a first water purifying device, and the first water supply pipeline is sequentially connected with the water tank, the first water purifying device and the accommodating cavity. Because the water in the water tank is fixedly stored water, the water in the water tank can have bacteria, viruses and the like under the condition of long-time storage, and if the food processor directly uses the water in the water tank, the problem of potential food safety hazard can be caused. Consequently, be connected with first purifier through first water supply pipeline, first purifier can carry out purification treatment to the water of introducing to the holding intracavity through first water supply pipeline to filter such as bacterium, virus or chlorine residue to the aquatic and get rid of, thereby avoid producing food potential safety hazard problem.

In addition, through the setting of first purifier, the water in the water tank can directly use the running water, and need not the higher pure water of use cost, has reduced user's use cost.

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 creative efforts. Wherein:

FIG. 1 is a simplified block diagram of one embodiment of a food processor provided herein;

fig. 2 is a schematic structural diagram of an embodiment of a control method of a food processor according to the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that if descriptions related to "first", "second", etc. exist in the embodiments of the present application, the descriptions of "first", "second", etc. are only used for descriptive purposes, and are not to be construed as indicating or implying relative importance or implicitly indicating the number of indicated technical features. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present application.

For a better understanding of the present application, a food processor as provided herein will be described in more detail with reference to the accompanying drawings and specific examples.

In summary, the present application provides a food processor comprising: the water tank is arranged in the accommodating cavity; the food processor also comprises a first water purifying device, and the first water supply pipeline is sequentially connected with the water tank, the first water purifying device and the accommodating cavity. Because the water in the water tank is fixedly stored water, the water in the water tank can have bacteria, viruses and the like under the condition of long-time storage, and if the food processor directly uses the water in the water tank, the problem of potential food safety hazard can be caused. Consequently, be connected with first purifier through first water supply pipeline, first purifier can carry out purification treatment to the water of introducing to the holding intracavity through first water supply pipeline to filter such as bacterium, virus or chlorine residue to the aquatic and get rid of, thereby avoid producing food potential safety hazard problem.

Referring to fig. 1, fig. 1 is a simplified structural schematic diagram of an embodiment of a food processor according to the present application. The present application provides a food processor 100, wherein the food processor 100 is configured to cut, crush, etc. food to a desired degree of crush for ease of consumption by a user. In one embodiment, the food processor 100 is a wall breaking machine, which is a food processing product that uses a high-speed motor to drive a blade to cut and crush food at an ultra-high speed, thereby breaking cell walls of cells in the food and fully releasing vitamins, minerals, phytochemicals, proteins and moisture in the cells. For example, the food processor 100 may be a hands-free wall breaking machine that enables automatic pulping, automatic discharging of pulp, automatic cleaning after automatic discharging of pulp, automatic discharge of waste water after cleaning, and the like. It is understood that, in other embodiments, the food processor 100 may also be other types of food processors such as a soymilk machine, a juice machine, etc., and may be specifically configured according to actual use requirements, which is not specifically limited herein.

Hereinafter, for convenience of description, the present application will describe a hand-free wall breaking machine as an example of the food processor 100, but it is understood that such description is not limited to the type of the food processor 100.

Referring to fig. 1, the food processor 100 includes a housing chamber 10, a water tank 20, a first water supply pipeline 30 and a first water purifying device 40. The receiving cavity 10 can be used for receiving food to be processed, that is, the cutting, crushing, grinding and other processes of the food are all completed in the receiving cavity 10 of the food processor 100. The water tank 20 is used for containing and storing water required by the food processor 100, such as water for preparing milk or water for washing the food processor 100, that is, the water in the water tank 20 is a water supply of the food processor 100.

The first water supply line 30 is connected to the water tank 20, the first water purifying device 40 and the accommodating chamber 10 in sequence. The first water supply line 30 connects the water tank 20 and the accommodating chamber 10, so that water in the water tank 20 can be introduced into the accommodating chamber 10 to add water required for pulping or cleaning into the accommodating chamber 10, i.e., the first water supply line 30 is a water supply line used when the food processor 100 is in the pulping mode or the cleaning mode, thereby realizing the pulping function or the cleaning function of the food processor 100. In addition, the first water supply pipeline 30 is further connected to the first water purifying device 40, the first water purifying device 40 can purify the water introduced into the accommodating chamber 10 through the first water supply pipeline 30, for example, the first water purifying device 40 can filter and remove bacteria, viruses, residual chlorine and the like in the water, so as to purify the water introduced into the accommodating chamber 10 through the first water supply pipeline 30. The first water purifying device 40 actually performs a purifying function by using a filter element (not shown in the figure), which may be a super filter element, an RO reverse osmosis filter element, or a nano filter element, and the like, and is not specifically limited herein, and may be specifically configured according to actual use requirements.

In one embodiment, the water in the water tank 20 may be tap water, and since there may be residual chlorine in the tap water, and since the tap water in the water tank 20 is water stored fixedly, bacteria, viruses, etc. may exist in the tap water in the water tank 20 when the tap water is stored for a long time, the water in the water tank 20 cannot be directly used for the pulping operation of the food processor 100, and there is a food safety problem when the food processor 100 directly pulps by the water in the water tank 20. Therefore, the first water purifying device 40 can filter bacteria, residual chlorine and the like from tap water introduced into the accommodating cavity 10 through the first water supply pipeline 30, so that water introduced into the accommodating cavity 10 through the first water purifying device 40 is purified water, and can be used for pulping operation of the food processor 100, thereby preventing potential food safety hazards and ensuring the health of users; on the other hand, through the arrangement of the first water purifying device 40, tap water can be directly used by water in the water tank 20, and purified water with higher use cost is not needed, so that the use cost of a user is reduced.

It is understood that, in other embodiments, the water in the water tank 20 may also be pure water, which can be directly used for the pulping operation of the food processor 100, but since the water in the water tank 20 is the water that is fixedly stored, bacteria, viruses, etc. may exist in the pure water in the water tank 20 when the water is stored for a long time, and there is a food safety problem when the food processor 100 directly pulps by the pure water in the water tank 20. Therefore, when the water in the water tank 20 is purified water, the arrangement of the first water purifying device 40 can filter the purified water introduced into the accommodating cavity 10 through the first water supply pipeline 30 to remove bacteria and the like, so that the problem of potential food safety hazards is prevented, and the health of the user is ensured.

Referring to fig. 1, in one embodiment, the food processor 100 further includes at least one second water supply pipeline 50, and the second water supply pipeline 50 is connected to the accommodating chamber 10 and the water tank 20. That is, the food processor 100 includes at least two water supply lines to enable the food processor 100 to employ different water usage strategies in different operating modes. In order to avoid the problem of potential food safety hazards due to the disqualified water for the preparation of milk, the first water supply line 30 provided with the first water purification device 40 is used as a water supply line for the preparation mode, and the second water supply line 50 is used as a water supply line for other functions such as the cleaning mode.

In a particular embodiment, the food processor 100 includes a first water supply line 30 and a second water supply line 50. The first water supply line 30 is a water supply line used by the food processor 100 in the milk making mode, and the first water supply line 30 connects the water tank 20 and the accommodating chamber 10, so that water in the water tank 20 can be introduced into the accommodating chamber 10 to realize the milk making function of the food processor 100; the second water supply line 50 is a water supply line used by the food processor 100 in the cleaning mode, and the second water supply line 50 connects the water tank 20 and the accommodating chamber 10, so that water in the water tank 20 can be introduced into the accommodating chamber 10 to perform a cleaning function of the food processor 100. Different water supply pipelines are arranged corresponding to the pulping mode and the cleaning mode of the food processor 100, so that the food processor 100 can adopt different water using strategies under the pulping mode and the cleaning mode; in addition, the first water purifying device 40 is arranged on the first water supply pipeline 30 used in the pulping mode, so that the first water purifying device 40 only purifies pulping water, water purification in other water supply pipelines is not needed, and the service life of the first water purifying device 40 is prolonged. It is understood that in other embodiments, the second water supply line 50 may be a line for performing other functions, and is not limited thereto. In addition, the number of the second water supply lines 50 is not specifically limited, and may be 1, 2 or more, and may be specifically set according to actual use requirements, wherein when there are a plurality of second water supply lines 50, the plurality of second water supply lines 50 may be used to realize the same functional mode, for example, for introducing cleaning water into the accommodating chamber 10; a plurality of second water supply lines 50 may also be used to implement different functional modes, respectively. It should be noted that, for convenience of description, the first water supply line 30 is used as a water supply line in the slurry mode and the second water supply line 50 is used as a water supply line in the cleaning mode, but the present invention is not limited thereto. In addition, since the food processor 100 can prepare juice, soy milk, etc. in the pulping mode, the first water supply line 30 can be provided in plurality, and each first water supply line 30 corresponds to one pulping mode.

Alternatively, in an embodiment, the water tank 20 may include two cavities, i.e., a first cavity and a second cavity, the first water supply line 30 is connected to the first cavity, and the second water supply line 50 is connected to the second cavity, that is, the first cavity of the water tank 20 is a water source supply place in the pulping mode, and the second cavity of the water tank 20 is a water source supply place in the cleaning mode. In other embodiments, two water tanks 20, i.e., a first water tank connected to the first water supply line 30 as a water source supply for the pulping mode and a second water tank connected to the second water supply line 50 as a water source supply for the washing mode, may be provided. The water supply parts of the washing mode and the pulping mode of the food processor 100 are separated to enable a detergent or the like to be added in the water supply parts of the washing mode to improve the degree of cleaning of the receiving chamber 10.

Referring to fig. 1-2, fig. 2 is a schematic structural diagram of an embodiment of a control method of a food processor according to the present application. In an embodiment, the first water supply line 30 and the second water supply line 50 are both provided with a control device 210, the food processor 100 further comprises a processor 200, the control device 210 is connected with the processor 200, and the processor 200 can control the corresponding control device 210 to open or close according to a set mode, so as to control the connection or the disconnection of the first water supply line 30 and the second water supply line 50, and realize the switching of the water supply lines. That is, by providing the processor 200 and the control device 210, the control of the water supply line can be realized, and the water supply line can be selected according to the setting mode, so that different setting modes can correspond to different water use strategies. It will be appreciated that in other embodiments, the first water supply line 30 and the second water supply line 50 may be controlled by a single control device 210.

For example, the first water supply line 30 is the water supply line used by the food processor 100 in the brew mode and the second water supply line 50 is the water supply line used by the food processor 100 in the cleaning mode. When the processor 200 acquires that the setting mode is the pulping mode, the processor 200 controls the control device 210 on the first water supply pipeline 30 to open, so as to control the first water supply pipeline 30 to be conducted, so that the water in the water tank 20 enters the accommodating cavity 10 through the first water supply pipeline 30 and the first water purifying device 40; when the set mode is the cleaning mode after the pulping process is finished, the processor 200 controls the control device 210 on the first water supply line 30 to be closed and controls the control device 210 on the second water supply line 50 to be opened, so that the water in the water tank 20 enters the accommodating cavity 10 through the second water supply line 50.

Optionally, in one embodiment, the control device 210 is a solenoid valve. Specifically, the solenoid valve is provided with a solenoid coil, and when the solenoid valve receives a control signal from the processor 200, the solenoid coil is energized, and the valve body is attracted to move, thereby opening the water supply line. It is understood that in other embodiments, the control device 210 can be other elements capable of controlling the on/off of the water supply line, and can be specifically configured according to the actual use requirement.

Referring to fig. 1-2, in one embodiment, the food processor 100 further includes a water detector 220, the water detector 220 is electrically connected to the processor 200, and the processor 200 can select whether to control the control device 210 according to the detection result of the water detector 220. That is, the water amount detector 220 detects the amount of water in the water tank 20, and when the amount of water in the water tank 20 is sufficient to perform the setting mode acquired by the processor 200, the water amount detector 220 feeds back the detection result to the processor 200, and the processor 200 controls the control device 210 to turn on the water supply line corresponding to the setting mode; when the amount of water in the water tank 20 is less than the amount of water required for the setting mode, the water amount detector 220 feeds back the detected water amount to the processor 200, and the processor 200 does not control the control device 210, i.e., does not conduct the water supply line.

In order to inform the user that the setting mode acquired by the processor 200 cannot be performed due to the insufficient amount of water in the water tank 20, in one embodiment, the food processor 100 further includes an alarm device 230, and the alarm device 230 is electrically connected to the processor 200. When the processor 200 receives that the amount of the water tank in the water tank 20 is less than the amount of the water required for the setting mode, the processor 200 does not control the control device 210, but controls the alarm device 230 to issue an alarm to alert the user that the amount of the water in the water tank 20 is insufficient.

Referring still to fig. 1-2, in one embodiment, the food processor 100 further includes a heating device 60, the heating device 60 is connected to both the first water supply line 30 and the second water supply line 50, and the heating device 60 is further connected to the processor 200, and the processor 200 can control the heating device 60 to be turned on or off according to a set mode to control whether to heat the water in the water supply line passing through the heating device 60.

For example, the food processor 100 generally includes a juice mode and other modes requiring heating, such as a non-heating mode and a soymilk mode, so when the setting mode acquired by the processor 200 is a soymilk mode and other modes requiring heating, the processor 200 controls the heating device 60 to be turned on, so that the heating device 60 heats water flowing through the first water supply pipeline 30, and the water finally introduced into the accommodating chamber 10 is hot water required for preparing soymilk and the like; when the setting mode acquired by the processor 200 is a mode in which heating is not needed for juice or the like, the processor 200 controls the heating device 60 to be turned off, so that the heating device 60 does not heat the water flowing through the first water supply line 30, and the water finally introduced into the accommodating cavity 10 is unheated water needed for juice or the like preparation.

In addition, the food processor 100 may also need heated water during cleaning, and the heated water has high temperature, and water molecules move randomly and diffuse fast, so that the water molecules are easy to diffuse into the residue in the accommodating cavity 10 to loosen the residue, thereby cleaning and flushing the residue. Therefore, the operating state of the heating device 60 corresponding to the washing mode of the food processor 100 may be set to be on in advance. Therefore, when the setting mode acquired by the processor 200 is the cleaning mode, the processor 200 controls the heating device 60 to be turned on, so that the heating device 60 heats the water flowing through the second water supply pipeline 50, and the water finally introduced into the accommodating chamber 10 is the hot water required for cleaning, so as to clean the accommodating chamber 10. In addition, in order to ensure that the accommodating cavity 10 is cleaned more thoroughly, a second cleaning process can be provided, wherein the second cleaning process is to simply wash the accommodating cavity 10 after the first cleaning process, and the second cleaning process is to simply wash the accommodating cavity 10 without using hot water because the second cleaning process is to avoid residue, and at the moment, the processor 200 controls the heating device 60 to be closed, so that the energy consumption is reduced. Of course, the second washing may also use heated water, and is not particularly limited herein.

Referring to fig. 2, in one embodiment, the temperature sensors 240 are mounted on the first water supply line 30 and the second water supply line 50, the temperature sensors 240 are electrically connected to the processor 200, and the processor 200 can control the heating device 60 to be turned on or off according to the temperature sensed by the temperature sensors 240. Each working mode in which the heating device 60 needs to be turned on is correspondingly provided with a preset temperature, so that the heating device 60 can heat water to the preset temperature, and the temperature of the water meets the requirements of the corresponding working mode. In order to avoid the situation that the temperature of the heating device 60 is too high and the temperature of the heated water is too high, the temperature sensor 240 is arranged, so that the temperature sensor 240 can sense the temperature of the water in the water supply pipeline after passing through the heating device 60, and the processor 200 can control the heating device 60 to be turned on or off according to the sensed temperature of the temperature sensor 240 in time. The preset temperature of the hot water required for starting the operation mode of the heating device 60 is not specifically limited, and may be specifically set according to actual use requirements. For example, in the soymilk mode, the corresponding preset temperature of the heating device 60 is 90 ℃; in the cleaning mode, the preset temperature corresponding to the heating device 60 is 30 ℃.

For example, taking the setting mode acquired by the processor 200 as the soymilk making mode as an example, after the setting mode acquired by the processor 200 is the soymilk making mode, the processor 200 controls the heating device 60 to be turned on, so that the heating device 60 heats the water passing through the first water supply line 30. Since the preset temperature corresponding to the heating device 60 is 90 ℃ in the soymilk mode, which means that the water temperature required for making soymilk is 90 ℃, when the temperature sensor 240 senses that the water in the first water supply pipeline 30 exceeds 90 ℃, which means that the temperature of the heating device 60 exceeds the preset temperature 90 ℃, the processor 200 controls the heating device 60 to be turned off according to the sensing result of the temperature sensor 240, so as to avoid that the water in the first water supply pipeline 30 is excessively heated due to the excessively high temperature of the heating device 60, and the actual requirement for the water temperature in the soymilk mode cannot be met.

In a specific embodiment, the heating device 60 includes a first heating device (not shown) and a second heating device (not shown), both of which are electrically connected to the processor 200. The first heating device is connected to the first water supply pipeline 30, and the second heating device is connected to the second water supply pipeline 50, that is, a heating device 60 is correspondingly disposed on each water supply pipeline, and each heating device 60 is responsible for heating water in the water supply pipeline connected to the heating device 60.

With continued reference to fig. 2, in one embodiment, the food processor 100 further includes a selection terminal 250, the selection terminal 250 is electrically connected to the processor 200, and the processor 200 can control according to a setting mode in the selection terminal 250. That is, the processor 200 can acquire the setting mode in the selection terminal 250 and perform corresponding control on the control device 210, the heating device 60, and the like according to the acquired setting mode.

In a specific embodiment, the selection terminal 250 is a selection screen, a plurality of function buttons are disposed on the selection screen, and a user can press a function button on the selection screen by himself/herself, where the function button pressed by the user is a setting mode, and after the processor 200 obtains the setting mode, the control device 210, the heating device 60, and the like are controlled according to the setting mode.

Referring to fig. 1, in order to enable the water in the water tank 20 to enter the water supply lines when the processor 200 controls the control device 210 to open to conduct the water supply lines, in one embodiment, the water pumps 70 are respectively disposed on the first water supply line 30 and the second water supply line 50. The type of the water pump 70 is not particularly limited, and may be specifically set according to actual use requirements. For example, the water pump 70 may be a gear pump, teeth of two gears of the gear pump are separated from each other to form a low pressure, and the air pressure in the water tank 20 is greater than the air pressure in the gear pump, so that the water in the water tank 20 is pressurized into the gear pump, that is, the gear pump sucks the water in the water tank 20 into the pump, and thus the water in the water tank 20 can be delivered into the water supply pipeline.

It is to be understood that in other embodiments, the first and second

water supply lines

30 and 50 may also draw water from the water tank 20 through the same water pump 70. Specifically, a main water outlet pipeline is provided on the water tank 20, the first water supply pipeline 30 and the second water supply pipeline 50 are both connected to the main water outlet pipeline, and the water pump 70 is provided on the main water outlet pipeline, so that water in the water tank 20 is extracted to the main water outlet pipeline and then is transmitted to the first water supply pipeline 30 or the second water supply pipeline 50 through the main water outlet pipeline.

Referring to fig. 1, in one embodiment, the food processor 100 further includes a lid 80, a blending knife assembly 81, a first drain line 82, a second drain line 83, a slurry receiving cup 84, a waste water cup 85, a motor 86, and a cup body 87. Specifically, the accommodating cavity 10 is arranged in the cup body 87, and the cup cover 80 is arranged on the cup body 87 in a covering manner, so that liquid in the accommodating cavity 10 is prevented from overflowing outwards when the food processor 100 is in a pulping mode or a cleaning mode; the stirring knife set 81 is connected with the motor 86, and the motor 86 can drive the stirring knife set 81 to rotate, so that the stirring knife set 81 can crush and grind the food materials in the accommodating cavity 10; one end of the second drainage pipeline 83 is connected with the accommodating cavity 10, and the opposite end of the second drainage pipeline 83 is provided with the slurry receiving cup 84, so that after the food processor 100 finishes pulping, the slurry flows into the slurry receiving cup 84 through the second drainage pipeline 83; one end of the first drainage pipeline 82 is connected to the accommodating chamber 10, and a waste water cup 85 is disposed under the other end of the first drainage pipeline 82, so that after the food processor 100 is cleaned, waste water and residues in the accommodating chamber 10 flow into the waste water cup 85 through the first drainage pipeline 82, thereby cleaning and flushing the accommodating chamber 10.

Being distinguished from the prior art, the present application provides a food processor comprising: the water tank is arranged in the accommodating cavity; the food processor also comprises a first water purifying device, and the first water supply pipeline is sequentially connected with the water tank, the first water purifying device and the accommodating cavity. Because the water in the water tank is fixedly stored water, the water in the water tank can have bacteria, viruses and the like under the condition of long-time storage, and if the food processor directly uses the water in the water tank, the problem of potential food safety hazard can be caused. Consequently, be connected with first purifier through first water supply pipeline, first purifier can carry out purification treatment to the water of introducing to the holding intracavity through first water supply pipeline to filter such as bacterium, virus or chlorine residue to the aquatic and get rid of, thereby avoid producing food potential safety hazard problem. And, through the setting of first purifier, the water in the water tank can directly use the running water, and need not the higher pure water of use cost, has reduced user's use cost.

In addition, the food processor also comprises a heating device, the heating device is connected with the water supply pipeline and can heat the water in the water supply pipeline passing through the heating device so as to meet the requirements of different working modes of the food processor on the water temperature.

The above description is only for the purpose of illustrating embodiments of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application or are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.

Claims

1. A food processor, the food processor comprising:

an accommodating cavity;

a first water supply line and a water tank; it is characterized in that the preparation method is characterized in that,

still include first purifier, first water supply line connects gradually the water tank, first purifier with the holding chamber.

2. The food processor of claim 1,

the food processor also comprises at least one second water supply pipeline, and the second water supply pipeline is connected with the accommodating cavity and the water tank;

the first water supply pipeline and the second water supply pipeline are both provided with control devices;

the food processor also comprises a processor, the control device is connected with the processor, and the processor controls the corresponding control device to be opened or closed according to a set mode, so that the first water supply pipeline and the second water supply pipeline are controlled to be connected or disconnected.

3. The food processor of claim 2,

the control device comprises a solenoid valve.

4. The food processor of claim 2,

the food processor also comprises a heating device, and the heating device is connected with the first water supply pipeline and the second water supply pipeline;

the heating device is also electrically connected with the processor;

the processor controls the heating device to be switched on or switched off according to the set mode.

5. The food processor of claim 4,

the heating device comprises a first heating device and a second heating device, and the first heating device and the second heating device are both electrically connected with the processor; wherein,

the first heating device is connected with the first water supply pipeline;

the second heating device is connected with the second water supply pipeline.

6. The food processor of claim 4,

the first water supply pipeline and the second water supply pipeline are both provided with temperature sensors, the temperature sensors are electrically connected with the processor, and the processor controls the heating device to be opened or closed according to the sensed temperature corresponding to the temperature sensors.

7. A food processor as claimed in any one of claims 2 to 6,

the food processor further comprises a selection terminal electrically connected with the processor;

the processor controls according to the setting mode in the selection terminal.

8. The food processor of claim 7,

the selection terminal comprises a selection screen, and a plurality of function buttons are arranged on the selection screen.

9. The food processor of claim 2,

10. The food processor of claim 2,

and the first water supply pipeline and the second water supply pipeline are respectively provided with a water pump.

11. The food processor of claim 2,

the water tank is provided with a main water outlet pipeline, and the first water supply pipeline and the second water supply pipeline are both connected with the main water outlet pipeline;

and a water pump is arranged on the water outlet main pipeline.