CN109124281B - Method for making beverage by using multifunctional food processor and multifunctional food processor - Google Patents

Abstract

The invention provides a beverage making method of a multifunctional food processor, wherein the food processor comprises a base with a motor and a circuit board, a cup body assembly, a crushing cutter, a heating device and a vacuumizing device, the cup body assembly comprises a cup body and a cup cover, the circuit board is provided with an MCU module, a heating unit, a signal detection module and a sealing detection module, and the beverage making method comprises the following steps: A) powering on a machine; B) and (3) identifying the states of the cold cup and the hot cup: the MCU module controls the heating unit to be conducted, and judges the cold and hot cup state of the cup body according to the conducting signal; C) and (3) identifying the closed state: the sealing detection module collects a sealing signal, and the MCU module judges whether the cup body is in a sealing state or not according to the sealing signal; D) the beverage preparation steps are as follows: entering the beverage making process. The invention also provides a food processing machine with the processing method, which has higher intelligent degree, can realize multiple purposes by one cup and is greatly convenient for users to operate.

Description

Method for making beverage by using multifunctional food processor and multifunctional food processor

Technical Field

The invention relates to the field of food processing machines, in particular to a method for making drinks by using a multifunctional food processing machine and the multifunctional food processing machine.

Background

The existing food processor usually has a plurality of cup bodies, such as a hot cup, a cold cup with a crushing knife and a vacuum cup without a crushing knife, so as to meet various functions, such as a hot cup, which is provided with a heating device to facilitate making hot drinks; comprises a cold cup without a heating device and used for direct crushing; the vacuum cup is also provided, and the vacuum cup is vacuumized before crushing, but if a user installs the cold cup and presses the corresponding function of the hot cup, such as a heating function, the machine cannot be heated. If the user has installed the vacuum cup, press the heating function, also can lead to the unable heating that realizes of machine, this function that just needs the well-known different cups of user to use, intelligent degree is low, and this also causes the inconvenience of use for the user to make mistakes easily, also make the function singleness like this, the drink kind of preparation is limited, can not be fine satisfies user's needs.

In addition, the existing single cup body can not be used for hot drink, vacuum and stirring (the vacuum needs to be hermetically pumped, the hot drink needs to be communicated with the outside for heat dissipation, the stirring needs to meet the safety regulation requirement, and a body part is prevented from extending into the cup body), and if the cup body is in a closed state, the heating function is pressed, so that the machine can not realize heating; if the cup is in the non-airtight state, press the evacuation function and also can't form the negative pressure to the cup inside, can't keep fresh to the food in the cup, need the user to change the cup of different grade type according to different functions, the operation is inconvenient, and easily takes place dangerous incident.

Disclosure of Invention

The invention provides a beverage making method of a multifunctional food processor and the food processor, which can intelligently identify different types of cup bodies and sealing states of the cup bodies, can adaptively start and forbid related functions, and can realize multiple purposes of one cup.

The invention provides a method for making a beverage by a multifunctional food processor, wherein the food processor comprises a base with a motor and a circuit board, a cup body assembly, a crushing cutter, a heating device and a vacuumizing device, the cup body assembly comprises a cup body and a cup cover, the circuit board is provided with an MCU module, a heating unit, a signal detection module and a sealing detection module, and the method for making the beverage comprises the following steps:

A) powering on a machine;

B) and (3) identifying the states of the cold cup and the hot cup: the MCU module controls the heating unit to be conducted, the signal detection module collects conducting signals of the heating unit and sends the conducting signals to the MCU module, and the MCU module judges the cold and hot cup state of the cup body according to the conducting signals;

C) and (3) identifying the closed state: the sealing detection module collects a sealing signal and sends the sealing signal to the MCU module, and the MCU module judges whether the cup body is in a sealing state according to the sealing signal;

D) the beverage preparation steps are as follows: entering the beverage making process.

Preferably, in the step B), the signal detection module acquires whether the heating unit has a current conduction signal or a voltage conduction signal, and if so, the signal is sent to the MCU module, and the MCU module determines that the cup body is in a hot cup state; if not, the MCU module judges that the cup body is in a cold cup state.

Preferably, in the step B), a resistor is arranged at the bottom of the cup body, the resistor is electrically connected with the circuit board, and the conducting signal is generated in the heating unit; or the bottom of the cup body is provided with a heating pipe which is electrically connected with the circuit board, and the heating unit generates the conduction signal; or the bottom of the cup body is provided with a heating film, the heating film is electrically connected with the circuit board, and the conducting signal is generated in the heating unit.

Preferably, the cup body assembly comprises a cup cover, a feeding port is formed in the cup cover, a feeding cover capable of rotating relative to the cup cover is arranged at the feeding port, and in the step C), the sealing detection module detects whether the feeding cover has a sealing signal or not, if yes, the sealing signal is transmitted to the MCU module, and the MCU module judges that the cup body is in a sealing state; if not, the MCU module judges that the cup body is in a non-closed state.

Preferably, the sealing detection module comprises a reed switch electrically connected with the circuit board and a magnetic element arranged on the feeding cover, and when the magnetic element is opposite to the reed switch, the reed switch is closed and generates the sealing signal.

Preferably, the food processor further comprises a display module with a control panel, and step C) is followed by a functional display step: the MCU module sends an instruction to the control panel according to the current cup body sealing state, and the control panel controls the display module to display the corresponding function icon in the cup body state according to the instruction.

Preferably, the food processor further comprises an alarm module, and an alarm step is further provided after the function display step: and after triggering a function which does not correspond to the state of the cup body, the control panel sends an error instruction to the MCU module, the MCU module sends a command to the alarm module, and the alarm module starts alarming.

Preferably, the power-on time of the machine is T0, and T0 is within the range of 0 second < T0 ≦ 2 seconds.

Preferably, the heating unit is on for T1, and T1 is in the range of 0 second < T1 ≦ 3 seconds.

The invention also provides a multifunctional food processor, which comprises a base with a motor and a circuit board, a cup body assembly, a crushing cutter, a heating device and a vacuumizing device, wherein the cup body assembly comprises a cup body and a cup cover, the circuit board is provided with an MCU module, a heating unit, a signal detection module and a sealing detection module, the MCU module is provided with a control program, the control program comprises the beverage making method of the food processor, and the MCU module controls the motor, the vacuumizing device and the heating device to work.

The invention has the beneficial effects that: 1. the invention discloses a beverage making method of a multifunctional food processor, which is characterized in that after a cup body is identified whether to have a conducting signal of a heating unit, the closed state of the cup body is detected, so that an MCU module can self-adaptively provide corresponding functions according to the state of the cup body so as to be used by a user for making required beverages, thereby the food processor has multiple beverage making functions, the requirements of the user are met, programs can also self-adaptively avoid misoperation, and equipment is more intelligent. Through combining cold and hot cup state discernment and encapsulated situation discernment, realize the function to a cup operation heating, crushing and evacuation, solved a cup just can realize heating and evacuation simultaneously, solved the technical problem of trade (the heating need ventilate and the evacuation needs airtight can not be solved simultaneously), realize a cup is multi-purpose, need not the frequent change cup of user, very big has made things convenient for user's operation, has satisfied user's demand, has improved user's use and has experienced.

2. In the cold and hot cup state identification step, the signal detection module detects whether the heating unit has a conduction signal of current or voltage, and sends the conduction signal to the MCU module, and if the MCU module judges that the cup body is in a hot cup state according to whether the conduction signal exists, the cup body can be determined to have the heating device, so that the cup body does not need to be artificially judged to have the heating device, and the operation of a user is greatly facilitated.

3. In the cold and hot cup state identification step, after the machine is electrified for T0 time, the next step is started, and the electrifying time T0 is within the range of 0 second to T0 and 2 seconds, so that the overhigh equipment manufacturing cost caused by overhigh component precision can be avoided, the execution stability of the equipment components can be improved, and the reaction rate of the equipment can not give the user the feeling of low sensitivity. When the power-on time T0 is more than 2 seconds, the waiting time of the user is longer, the user may already operate, the misoperation may be generated, the safety event is generated, and the user is easy to feel that the system response speed is slow and the equipment sensitivity is low. The power-on time T0=0 seconds, i.e., the MCU module starts to operate as soon as it is powered on, requires the device to have a high response speed and components with high precision, resulting in an increase in manufacturing cost.

4. The conduction time T1 of the heating unit is in the range of more than 0 second and less than T1 and less than or equal to 3 seconds, and if the cup body is provided with the heating device, the heating time of the heating device on the cup body is short enough and is not enough to dry-burn the cup body; in addition, the conduction time is enough for the signal detection module to detect, high-precision components are not needed, the manufacturing cost is reduced, the equipment stability is improved, and the equipment is convenient to maintain and replace. In the present embodiment, the heating unit on time T1=1 second is controlled. T1 > 3 seconds, the time that heating unit switches on and carries out is longer, and if the cup has heating device, heating device preheats the time also longer, easily causes heating device to the dry combustion method of cup, and T1=0 seconds, can not produce the turn-on signal on the heating unit, and signal detection module can not detect the turn-on signal, and then can' T distinguish the cold and hot cup state of cup.

5. Through setting up the display module, forbid the function and be operated through hiding or becoming grey on the display module, so that the function icon that the function that is forbidden corresponds can not be selected, make the user in time know corresponding function failure, select other icons that do not become invalid, thereby promote the intelligent level of machine, avoid the user to select wrong function, reduce the risk probability of taking place, improve the security of user operation, improve user's use and experience.

6. When the feeding cover rotates to a first position relative to the cup body, the interior of the cup body is communicated with the outside, the cup body is in a non-closed state at the moment, when the feeding cover rotates to a second position relative to the cup body, the interior of the cup body is not communicated with the outside, and the cup body is in a closed state at the moment. Through throwing the material lid with magnet setting for magnet is rotatory along with throwing the rotation of material lid, with switch between primary importance and second position, and the cooperation tongue tube, the position of location magnet that can be accurate, thereby makes the MCU module combines to throw the material lid position and judges airtight state, and control starts corresponding heating function and evacuation function, has solved the potential safety hazard, has realized a glass is multi-purpose.

7. In the step of identifying the state of the cup body, when a forbidden program is operated, a peak sound alarm is generated, and the forbidden program cannot be operated at the same time so as to prompt a user to select a corresponding function.

In the invention, the hot cup state refers to a heatable state of the conduction of the heating unit; the cold cup state refers to a non-heating state that the heating unit is not conducted, wherein the non-conduction can be that the heating unit is not conducted because the cup body assembly does not have a heating device, or the cup body assembly has the heating device, and the MCU module does not send a power-on instruction to the heating unit so that the heating unit is not conducted; the vacuum cup state is a state that the vacuum pumping device can operate the vacuum pumping function.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a perspective view of the food processor of the present invention.

Fig. 2 is a front sectional view of the food processor of the present invention.

Fig. 3 is a first perspective exploded view of the lid and the lid of the food processor.

Fig. 4 is a second perspective exploded view of the lid and the lid of the food processor.

FIG. 5 is a flowchart illustrating a beverage making method of a food processor according to a first embodiment of the present invention.

FIG. 6 is a block diagram of a food processor according to the present invention.

Fig. 7 is a perspective view of a food processor according to a second embodiment of the present invention.

Wherein: the utility model discloses a machine top, the motor of 1, 11, 12 circuit boards, 13 extension arms, 2 cup body components, 3 crushing sword, 4 heating device, 5 evacuating device, 21 cups, 22 bowl covers, 221 dog-house, 222 throws the material lid, 223 magnet, 224 magnet recognition device, 2221 recess, 2222 body, 2223 extension, 2224 bulge, 2225 cavity, 2211 cooperation groove, 2212 protruding muscle, 2213 card muscle, 6 touch-sensitive screen subassembly, 61 operating panel, 62 control panels.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, 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 invention.

Example 1:

as shown in fig. 1-6, the invention discloses a multifunctional food processor, which comprises a machine base 1, a cup body assembly 2, a crushing cutter 3, a heating device 4 and a vacuumizing device 5, wherein the machine base 1 is provided with a motor 11 and a circuit board 12, the cup body assembly 2 is provided with a cup body 21 and a cup cover 22, the cup cover 22 is provided with a feeding port 221, and the feeding port is provided with a feeding cover 222 which can rotate relative to the cup cover. The feeding cover is provided with a magnet 223, and the machine base is provided with a magnet recognition device 224. The feeding cover 222 includes a body 2222 with a groove 2221, an extension 2223 protruding downward from the body, and a protrusion 2224 protruding horizontally outward from a sidewall of the extension, wherein a hollow cavity 2225 opposite to the feeding port is formed inside the body 2222 and the extension 2223. The side wall of the feeding port 221 is provided with a downward spiral matching groove 2211 and an annular convex rib 2212 arranged below the matching groove, the protruding portions 2224 are vertically arranged at intervals, when the feeding cover 222 is matched with the cup cover 22, the protruding portions 2224 are matched with the matching groove 2211 to rotate clockwise, the body 2222 moves downwards until the lower end face is tightly matched with the annular convex rib 2212 in an interference fit manner, when the feeding cover 222 rotates clockwise to the tail end of the matching groove, the feeding cover 222 reaches a first position, when the feeding cover 222 is at the first position, the position of the magnet 223 is opposite to that of the magnet identification device 224, and the magnet identification device 224 generates a sealing signal.

The side wall of the feeding port 221 is further provided with a spiral upward clamping rib 2213, the clamping rib 2213 is matched with a gap between the two protruding portions 2224, when the feeding cover 222 rotates counterclockwise from the first position, the feeding cover 222 moves upward and is separated from the annular protruding rib 2212, so that a gap is formed between the feeding cover 222 and the cup cover 22, the inside of the cup body is communicated with the outside through the gap between the feeding cover 222 and the cup cover 22, at the moment, the feeding cover 222 is located at the second position, the magnet 223 and the magnet recognition device 224 are staggered, and the magnet recognition device 224 does not generate the sealing signal.

One side of the machine base 1 extends upwards to form an extension arm 13, the magnet recognition device 224 is arranged on the extension arm, and the magnet recognition device 224 is arranged opposite to the cup cover 22 or the feeding cover 222. In the present embodiment, the magnet identification device 224 is a reed switch, and the principle of the reed switch cooperating with a magnet to generate a signal is prior art and will not be described here. It is understood that the magnet recognition device is a magnetic switch or a hall element.

In the present embodiment, the heating device 4 is a heating plate having a heating pipe, and is disposed at the bottom of the cup body. The vacuum pumping device 5 is an air pump and is arranged in the machine base, an air pumping pipe (not numbered) connected with the air pump is arranged in the extension arm 13, and the tail end of the air pumping pipe is opposite to the hollow cavity so as to carry out vacuum pumping work on the inner cavity of the cup body.

It can be understood that the food processor can also be configured to arrange the vacuum extractor 5 on the cup cover 22 without arranging the extension arm 13, so that the structure of the food processor is simplified and the cost is reduced.

The multifunctional food processor comprises a circuit board, wherein the circuit board is provided with an MCU module, a heating unit, a signal detection module, a closed detection module and an alarm module, and the beverage making method of the multifunctional food processor at least comprises the following steps:

A) powering on a machine: after the machine plug is plugged into the mains supply, the machine enters a standby state, and after the MCU module controls power-on T0 time, the next step is started to be executed. In the step, the electrifying time T0 is within the range of 0 second < T0 and less than or equal to 2 seconds, so that the manufacturing cost of the equipment is not too high due to too high precision of components, the execution stability of the components of the equipment can be improved, and meanwhile, the reaction rate of the equipment does not give the user a low sensitivity. In this embodiment, the power-on time T0=1 second.

B) And (3) identifying the states of the cold cup and the hot cup: the heating unit comprises a heating driving module, a signal detection module and a heating device 4 which are electrically connected with each other, if the cup body 21 is correctly installed on the base 1, the heating device 4, the heating driving module and the signal detection module form a heating loop, when the MCU module sends a conduction instruction to the heating driving module, the heating unit is conducted and has a conduction signal, the signal detection module detects the conduction signal on the heating unit and sends the conduction signal to the MCU module, the MCU module judges the cold and hot cup state of the cup body according to whether the conduction signal exists or not, if the MCU module identifies the conduction signal, the MCU module judges the cup body to be in a hot cup state, and at the moment, the cup body is provided with a heating device; if the MCU module does not recognize that the conduction signal exists, the MCU module judges that the cup body is in a cold cup state, and at the moment, the cup body does not have a heating device. The fact that the MCU module does not recognize the conduction signal means that the signal detection module does not recognize the conduction signal after the MCU module sends a power-on command to the heating driving module. In the step, the MCU module controls the heating unit to be conducted for T1 time, the time T1 is within the range of 0 second to T1 to 3 seconds, the time T1 is within the range of 0 second to T1 to 3 seconds, and if the cup body is in a hot cup state, the heating time of the heating device 4 on the cup body 21 is short enough and not enough to dry-burn the cup body; in addition, the conduction time is enough for the signal detection module to detect, high-precision components are not needed, the manufacturing cost is reduced, the equipment stability is improved, and the equipment is convenient to maintain and replace. In the present embodiment, the heating unit on time T1=1 second is controlled.

The specific conduction process of the heating loop is as follows: when the cup body 21 is correctly installed on the base 1, the heating pipe is electrically connected with the circuit board, and when the cup body 21 is correctly installed on the base 1, the heating pipe, the signal detection module and the heating driving module form the heating loop. The bottom of the cup body is provided with a resistor, when the cup body is correctly installed on the base, the resistor is electrically connected with the circuit board, and the resistor, the signal detection module and the heating driving module form the heating loop; the heating circuit comprises a base, a cup body, a heating film, a signal detection module, a heating driving module and a circuit board, wherein the base is provided with a base seat, the cup body is provided with a heating circuit, the heating circuit is arranged on the base seat, and the heating circuit is arranged on the base seat.

In this embodiment, the conducting signal is a current signal, and it is understood that the conducting signal may also be a voltage signal. It is to be understood that the on signal may also be a specific resistance value size parameter signal.

C) And (3) identifying the closed state: the sealing detection module collects a sealing signal on the feeding cover 222 and sends the sealing signal to the MCU module, the MCU module judges whether the cup body 21 is in a sealing state according to the sealing signal, if the MCU module detects the sealing signal, the cup body is judged to be not conducted with the outside, and the cup body 21 is in a cold cup state or a vacuum cup state; if the MCU module does not detect the sealing signal, the cup body is judged to be communicated with the outside, and the cup body 21 is in a hot cup state. The method specifically comprises the following steps: when the cup body 21 is conducted with the outside, the feeding cover 222 is not provided with a sealing signal, when the cup body 21 is not conducted with the outside, the feeding cover 222 generates a sealing signal, and the sealing detection module can acquire whether the sealing signal exists or not and transmit the signal to the MCU module for judgment.

The absence of the sealing signal on the feeding cover 222 is determined by whether the MCU module recognizes the sealing signal within a set time, and if the absence of the sealing signal within the set time is determined, the cup body 21 is connected to the outside. In this embodiment, the sealing detection module includes a reed switch electrically connected to the circuit board and a magnetic element disposed on the feeding cover 222, and when the feeding cover rotates relative to the cup cover and makes the magnetic element face the reed switch, the reed switch is closed and generates the sealing signal; when the feeding cover rotates relative to the cup cover and the magnetic element is staggered with the reed pipe, the reed pipe is disconnected and does not generate the sealing signal.

D) An alarming step: when a function which does not correspond to the sealing state of the cup body is triggered, the control panel sends an error instruction to the MCU module, the MCU module sends a starting command to the alarm module, and the alarm module starts alarming. In this embodiment, the alarm module is a buzzer, and the buzzer sounds intermittently when the alarm module starts alarming. It can be understood that the alarm module can also be a warning lamp, and when the alarm module is started, the warning lamp flashes and emits light.

E) The beverage preparation steps are as follows: entering the beverage making process. At the moment, the user selects the required beverage making function according to the prompt of the display module. After the cup body is identified to be in the hot cup state through the cold and hot cup state identification step, if the closed detection module detects that the cup body is in the closed state, the crushing and vacuumizing functions are allowed to operate, and the heating function is forbidden to operate; if the cup body is detected to be in an unsealed state, the functions of crushing, heating or vacuumizing are allowed to operate. The functional operation sequence can be combined in various ways, and when the cup body is detected to be in a closed state, the cup body can be independently vacuumized, independently crushed, firstly vacuumized and then crushed, simultaneously vacuumized and crushed, and firstly crushed and then vacuumized. If the cup body is detected to be in a non-closed state, the processes of independent vacuum pumping, independent crushing, independent heating, crushing after heating and crushing while heating can be carried out, but the processes are not limited to the above sequence operation. In this embodiment, if the sealing detection module detects that the cup body is in a sealing state, the cup body is vacuumized and then crushed; if the sealed detection module detects that the cup body is in a non-sealed state, the cup body is heated and then crushed.

Through the cold and hot cup state identification step and the closed state identification step, the closed state of the cup body of a specific type is automatically detected, and the cup body is identified to be in a hot cup state, a cold cup state or a vacuum cup state, so that the functions of heating, crushing and vacuumizing of one cup body assembly can be realized, the heating and vacuumizing of one cup body assembly can be realized simultaneously, the technical problems of the industry (the heating needs ventilation and the vacuumizing needs closing and cannot be solved simultaneously) are solved, the multi-purpose cup is realized, the frequent replacement of the cup body by a user is not needed, the operation of the user is greatly facilitated, the requirements of the user are met, and the use experience of the user is improved; the program can also be self-adaptive, misoperation is avoided, the equipment is more intelligent, and potential safety hazards are avoided.

Example 2:

as shown in fig. 7, the difference from the structure of example 1 is that the food processing also provides a cold cup, so that different beverage cups can be made, the taint of taste is prevented, and the taste of the beverage after making is improved. The cold cup is different from the cup body structure in the embodiment 1 only in the stirring cup with the cup body without a heating device, and in addition, a display module is arranged on the machine base. The beverage making method of the multifunctional food processor at least comprises the following steps:

A) powering on a machine: after the machine plug is plugged into the mains supply, the machine enters a standby state, and after the MCU module controls power-on T0 time, the next step is started to be executed.

B) And (3) identifying the states of the cold cup and the hot cup: the MCU module judges the cold and hot cup state of the cup body according to whether the conduction signal exists or not, and if the conduction signal is identified by the MCU module, the MCU module judges that the cup body is in a hot cup state and is provided with a heating device; if the MCU module does not recognize that the conduction signal exists, the MCU module judges that the cup body is in a cold cup state and does not have a heating device.

C) And (3) identifying the closed state: the closed detection module collects a closed signal on the feeding cover and sends the closed signal to the MCU module, the MCU module judges whether the cup body is in a closed state according to the closed signal, if the MCU module detects the closed signal, the cup body is judged to be not conducted with the outside, and the cup body is in a cold cup state or a vacuum cup state; if the MCU module does not detect the sealing signal, the cup body is judged to be communicated with the outside, and the cup body is in a hot cup state.

D) And a function display step: the display module comprises a control board 62, the MCU module sends an instruction to the control board according to the current cup body sealing state, and the control board controls the display module to display the corresponding function icon in the cup body state according to the instruction. The function icons comprise a hot drink making icon and a cold drink making icon, wherein the cup body state and the function icon correspond to each other, namely the hot cup state corresponds to the hot drink making icon, and the cold cup state corresponds to the cold drink making icon. The hot drink preparation refers to various functions of the cup body with the heating device, and the hot drink is soybean milk, porridge, soup base and the like. The preparation method of the cold drink does not use any action of a heating device, such as crushing, or vacuumizing and crushing, or simple vacuumizing and the like, and the cold drink comprises the smoothie, vegetables and fruits, sauce and the like.

E) An alarming step: when a function which does not correspond to the sealing state of the cup body is triggered, the control panel sends an error instruction to the MCU module, the MCU module sends a starting command to the alarm module, and the alarm module starts alarming.

F) The beverage preparation steps are as follows: entering the beverage making process.

When a user sets the cold cup on the base and the machine is powered on, the cold cup state identification step can identify that the cup body is in a cold cup state, and the cup body does not have a heating device. If the cup body is identified to be in the closed state identification step, the display module displays the function icon for making the cold drink through the function display step, and if the user selects the hot drink making function, the alarm module starts an alarm to prompt the user to replace the cup body or reselect other drink making function icons.

It can be understood that the food processor can also provide a vacuum cup separately, wherein the cup cover of the vacuum cup is provided with a sealing device, the sealing device can be matched and connected with a vacuum pumping pipeline on the extension arm, when the vacuum pumping device is started to operate, the sealing device can be opened, so that the inside of the cup body is communicated with the vacuum pumping pipeline, and when the vacuum cup is taken down, the sealing device can seal the inside of the cup body. If the user sets the vacuum cup on the base, the cold and hot cup state identification step identifies that the cup body is in a cold cup state, and when the MCU module sends a power-on command to the heating driving module and the signal detection module does not detect a power-on signal, the MCU module judges that the cup body is in the cold cup state and does not have a heating device. Then, the closed state identification step identifies that the cup body is in a closed state, and a user can select the function of only vacuumizing to make the beverage. It can be understood that the cold cup can also be used as a vacuum cup, and only the cup cover needs to be replaced by the cup cover with the sealing device, when the cold cup state identification step identifies that the cup body does not have the heating device, and the sealing state identification step identifies that the cup body is in the sealing state, the user can select the vacuumizing function to make the beverage.

In this embodiment, the display module is a touch screen assembly 6, the touch screen assembly includes an operation panel 61, and a user operates the device through the operation panel. The icon is not displayed and is specifically a hidden or grayed function icon, so that the user can timely know that the corresponding function is invalid and select other icons which are not invalid, the intelligent level of the machine is improved, and the operation safety of the user is improved.

It can understand ground, the touch-sensitive screen subassembly includes the function button, through set up stop gear in the frame of function button rear side, stop gear can prevent arbitrary function button from being pressed, stop gear's control end with MCU module electricity is even, works as the MCU module discerns the cup state and forbids corresponding function when being moved, and the function button that the function of forbidding corresponds can't be pressed to avoid the user to press wrong button, improve system operation stability, can also avoid child's unconscious operation, improve the security of machine operation. Here the limiting mechanism will be any mechanism that prevents the function key from being pressed. Preferably, the swinging link arranged at the rear side of the function key and the magnetic force source for attracting the link to swing so as to block the function key from being pressed down generate magnetic force after the magnetic force source is electrified so as to attract the link to swing so as to block the function key from being pressed down. After the magnetic source is powered off, the connecting rod is restored to the initial position under the action of the spring, and at the moment, the function key can be pressed down.

Example 3:

the structure difference from the embodiment 1 is as follows: the cup is a cup without a heating device, the closed detection module comprises a magnet arranged on the cup cover and a magnet recognition device arranged on the extension arm, the magnet recognition device can be arranged corresponding to the magnet, and the magnet recognition device generates the closed signal. When the cup cover is rotated to enable the magnetic element to face the reed switch, the reed switch is closed to generate a sealing signal, and the sealing detection module can acquire the sealing signal and transmit the sealing signal to the MCU module.

The beverage making method of the multifunctional food processor is different from the beverage making method of the embodiment 1 only in the identification step of the sealing state: the sealing detection module collects a sealing signal on the cup cover and sends the sealing signal to the MCU module, the MCU module judges whether the cup body is in a sealing state according to the sealing signal, if the MCU module detects the sealing signal, the cup body is judged to be not conducted with the outside, and the cup body is in a cold cup state or a vacuum cup state; if the MCU module does not detect the sealing signal, the cup body is judged to be communicated with the outside, and the cup body is in a hot cup state.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (8)

1. The utility model provides a method of multi-functional food preparation machine preparation drink, food preparation machine includes frame, cup subassembly, crushing sword, heating device and the evacuating device that has motor and circuit board, cup subassembly includes cup and bowl cover, be equipped with MCU module, heating unit, signal detection module and airtight detection module on the circuit board, its characterized in that, the method of preparation drink includes following step:

A) powering on a machine;

B) and (3) identifying the states of the cold cup and the hot cup: the MCU module controls the heating unit to be conducted, the signal detection module collects conducting signals of the heating unit and sends the conducting signals to the MCU module, and the MCU module judges the cold and hot cup state of the cup body according to the conducting signals;

C) and (3) identifying the closed state: the sealing detection module collects a sealing signal and sends the sealing signal to the MCU module, and the MCU module judges whether the cup body is in a sealing state according to the sealing signal;

D) the beverage preparation steps are as follows: entering a beverage making process;

the food processor further comprises a display module with a control panel, and a functional display step C1 is provided after step C): the MCU module sends an instruction to the control panel according to the current cup body sealing state, and the control panel controls the display module to display a corresponding function icon in the cup body state according to the instruction;

the food processor also comprises an alarm module, and an alarm step is also arranged after the function display step: and after triggering a function which does not correspond to the state of the cup body, the control panel sends an error instruction to the MCU module, the MCU module sends a command to the alarm module, and the alarm module starts alarming.

2. The method for making a beverage by using a multifunctional food processor according to claim 1, wherein in the step B), the signal detection module acquires whether the heating unit has a current conducting signal or a voltage conducting signal, if so, the signal is sent to the MCU module, and the MCU module judges that the cup body is in a hot cup state; if not, the MCU module judges that the cup body is in a cold cup state.

3. The method for preparing beverage by using multifunctional food processor as claimed in claim 1, wherein in step B), a resistor is arranged at the bottom of the cup body, the resistor is electrically connected with the circuit board, and the conducting signal is generated in the heating unit; or the bottom of the cup body is provided with a heating pipe which is electrically connected with the circuit board, and the heating unit generates the conduction signal; or the bottom of the cup body is provided with a heating film, the heating film is electrically connected with the circuit board, and the conducting signal is generated in the heating unit.

4. The method for making beverage by using multifunctional food processor as claimed in claim 1, wherein the cup lid is provided with a feeding port, the feeding port is provided with a feeding lid capable of rotating relative to the cup lid, in step C), the sealing detection module detects whether the feeding lid has a sealing signal, if yes, the sealing signal is transmitted to the MCU module, and the MCU module determines that the cup body is in a sealing state; if not, the MCU module judges that the cup body is in a non-closed state.

5. The method of claim 4, wherein the sealing detection module comprises a reed switch electrically connected to the circuit board and a magnetic element disposed on the feeding lid, wherein the reed switch is closed and generates the sealing signal when the magnetic element is opposite to the reed switch.

6. The method of claim 1, wherein the machine is powered on for a time T0, T0 is in the range of 0 seconds < T0 ≦ 2 seconds.

7. The method of claim 1, wherein the heating unit is turned on for T1, and T1 is in the range of 0 seconds < T1 ≦ 3 seconds.

8. A multifunctional food processor comprises a base with a motor and a circuit board, a cup body assembly, a crushing cutter, a heating device and a vacuumizing device, wherein the cup body assembly comprises a cup body and a cup cover, and the multifunctional food processor is characterized in that an MCU module, a heating unit, a signal detection module and a sealing detection module are arranged on the circuit board, a control program is arranged on the MCU module, the control program comprises the beverage making method of the multifunctional food processor as claimed in any one of claims 1 to 7, and the MCU module controls the motor, the vacuumizing device and the heating device to work.

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