CN204909086U - Drink dashes timing system that transfers machine - Google Patents

Abstract

The utility model provides a drink dashes timing system that transfers machine, include: timing server, timing device and drink dash the machine of transferring, wherein, the timing device is connected the drink and is dashed the accent machine, can acquire the strong individual bulk property of transferring the machine of drink erupts simultaneously and gives the timing server, and according to the timing information of timing server feedback is right the drink dash to be transferred dashing of machine to transfer the operation to carry out the timing, the timing server passes through the internet access the timing device can be received the drink dashes the individual bulk property parallel growth of transferring the machine and becomes the drink dashes the timing information of transferring the machine, the drink dashes transfers the press packed bale to draw together strong work actuating mechanism and the the control unit who uses.

Description

Adjustment system of beverage brewing machine

Technical Field

The utility model provides a timing system especially relates to a timing system of drink dashes machine of transferring.

Background

At present, when the beverage brewing machine is produced, a manufacturer of the beverage brewing machine can produce one or more prototype machines in advance, and a brewing parameter model is set according to the prototype machines. Once the models of the parameters such as water temperature, water quantity and the like in the prototype are determined, the manufacturer of the beverage brewing machine can produce other brewing machine equipment according to the prototype, set the brewing parameter models stored in the prototype in other brewing machines produced in the prototype, and then can leave the factory after the model is detected to be qualified. However, components inside the beverage brewing machine leaving the factory are usually different, so that the performance (brewing parameter model) of the produced beverage brewing machine is different to a certain extent. The differences can cause the overall performance and reliability of the brewing machine to be reduced, so that the brewing effect of a user when using the beverage machine is greatly reduced; in order to improve the brewing precision, the equipment debugging process before delivery becomes too complex and professional, so that the debugging cost is high; meanwhile, the user can not or hardly correct and adjust the brewing machine again in the using process, and the equipment maintenance difficulty of the brewing machine after leaving the factory is increased.

SUMMERY OF THE UTILITY MODEL

In order to overcome the technical problem above, the utility model provides a timing system of drink dashes machine of transferring, include: the adjusting server, the adjusting device and the beverage brewing machine are adjusted; the adjusting device is connected with the beverage brewing machine, can acquire individual characteristics of the beverage brewing machine and send the individual characteristics to the adjusting server, and adjusts the brewing operation of the beverage brewing machine according to the adjusting information fed back by the adjusting server; the adjusting server is connected with the adjusting device through a network and can receive the individual characteristics of the beverage brewing machine and generate the adjusting information of the beverage brewing machine; the beverage brewing machine comprises a brewing work executing mechanism and a control unit.

Preferably, the tuning device includes: a calibration sensor connectable to the beverage brewer and capable of collecting individual characteristics of the beverage brewer; and the setting device is used for setting the adjustment information of the beverage brewing machine according to the feedback of the adjustment server.

Preferably, the calibration server is capable of connecting to and cooperating with a plurality of calibration devices.

Preferably, the individual characteristics of the beverage brewing machine include a corresponding relationship between certain execution actions of the work execution mechanism and execution results.

Preferably, the working executing mechanism comprises one or more of a water heating mechanism, a water outlet mechanism and a pressurizing mechanism; the control unit controls the work of one or more of the water heating mechanism, the water outlet mechanism and the pressurizing mechanism; the operating parameters include one or more of water temperature, water volume, pressure, brew time.

Preferably, the calibration server is capable of fitting the correspondence to a function, and the calibration information of the calibration server includes the function.

Preferably, the function is one or more of a water temperature-time function, a water quantity-time function and a pressure-time function.

Preferably, a built-in sensor corresponding to the calibration sensor of the calibration device is arranged in the beverage brewing machine.

Preferably, the built-in sensor and the calibration sensor are one or more of a water temperature monitoring device, a water amount monitoring device, a pressure monitoring device and a brewing time monitoring device.

Preferably, the individual characteristics of the beverage brewing machine further comprise a correspondence between the readings of the built-in sensor and the readings of the sensor for calibration.

Preferably, during a factory commissioning process, the built-in sensor is calibrated by using the calibration sensor; in the using process of a user, the beverage brewing machine is connected with the adjusting server, and the working executing mechanism is adjusted by the built-in sensor.

Preferably, the calibration server can record a history of calibration of the beverage brewing machine, compare the calibrated history, and provide information related to the operating state of the work executing mechanism.

Preferably, when a difference between the current calibration result and the calibrated historical record reaches a certain threshold, the calibration server feeds back alarm information to the beverage brewing machine.

The utility model also provides a regulating system of the beverage preparing machine, which comprises a regulating server and the beverage preparing machine; the beverage brewing machine comprises a working execution mechanism for brewing and a sensor for adjusting, and can acquire the individual characteristics of the working execution mechanism through the sensor for adjusting and send the individual characteristics to the adjusting server, and adjust the brewing operation of the beverage brewing machine according to the adjusting information fed back by the adjusting server; the adjusting server is connected with the beverage brewing machine through a network and can receive the individual characteristics of the beverage brewing machine and generate the adjusting information of the beverage brewing machine.

The utility model provides a timing system of machine is transferred to drink can overcome traditional drink and dash transfers the machine and ignore the difference of transferring that its inside components and parts difference caused. The system is provided with a monitoring component which can monitor the state of the working component when the beverage brewing machine is brewed outside the beverage brewing machine, and can adjust the working component of the beverage brewing machine before leaving factory. Or a monitoring component capable of monitoring the state of the working component of the beverage brewing machine in real time is arranged in the beverage brewing machine, so that a fitting curve of brewing parameters can be updated in real time when a user uses the beverage brewing machine, and a background or the user can monitor whether the beverage brewing machine can work healthily or not in real time. The beverage brewing machine is interconnected with the cloud, the parameter monitoring device is arranged inside the beverage brewing machine, parameters of monitoring can be fed back to the cloud accurately, fitting and correction of a parameter curve are carried out through the cloud, and therefore the cost of the beverage brewing machine is reduced.

Drawings

Fig. 1 is a schematic structural view of a calibration system of a beverage brewing machine according to a first embodiment of the present invention before delivery;

fig. 2 is a flow chart illustrating the adjustment of the adjustment system before the beverage brewing machine leaves the factory according to the first embodiment of the present invention;

fig. 3 is a schematic structural view of a calibration system of a beverage brewing machine according to a second embodiment of the present invention before leaving the factory;

fig. 4 is a flow chart illustrating the adjustment of the adjustment system before the beverage brewing machine leaves the factory according to the second embodiment of the present invention;

fig. 5 is a schematic structural view of a calibration system of the beverage brewing machine according to the second embodiment of the present invention after leaving the factory;

fig. 6 is a flow chart illustrating the adjustment of the adjustment system after the beverage brewing machine leaves the factory according to the second embodiment of the present invention.

Detailed Description

The invention will be elucidated below on the basis of an embodiment shown in the drawing. The embodiments disclosed herein are to be considered in all respects as illustrative and not restrictive. The scope of the present invention is not limited by the following description of the embodiments, but is defined only by the scope of the claims, and includes all modifications that have the same meaning as the scope of the claims and are within the scope of the claims.

For solving the technical problem, the utility model provides a timing system of drink machine of dashing and transferring, the system includes drink machine of dashing and transferring, local timing module and timing server, and local timing module can be interconnected respectively with drink machine of dashing and timing server to can monitor the working element working value of drink machine of dashing and transferring, and send this working value to the timing server, the timing server can carry out parameter curve fitting according to the working value that local timing module was monitored, and the system can carry out the timing to the corresponding working element of drink machine of dashing and transferring according to the curve of fitting, so that make every drink machine of dashing and transferring can both be in better operating condition. In addition, can be in drink machine of making a beverage and preparing inside setting can monitor the inside monitoring devices of working element working value to make drink machine of making a beverage make a beverage and prepare a beverage machine after dispatching from the factory, the user can detect and the timing to drink machine of making a beverage by oneself.

Example 1

Fig. 1 is a schematic structural view of a calibration system before leaving factory of a beverage brewing machine according to embodiment 1 of the present invention. As shown in fig. 1, the system includes a beverage brewing machine 1, a background cloud module 2, and a local tuning module 3. The local adjusting module 3 can be in communication connection with the background cloud module 2 in a WIFI or Bluetooth mode and the like, and is in communication connection with the beverage brewing machine 1 in a wired or wireless mode.

The beverage brewing machine 1 comprises a communication unit 11, a control unit 12, a work execution unit 13, an input and output unit 15 and an information storage unit 16.

The communication unit 11 is responsible for communicating with the local calibration module 3 in a wired or wireless manner, and can receive information transmitted by the local calibration module 3.

The control unit 12 is a core control component of the beverage brewing machine, and is connected with the work execution unit 13, the input/output unit 15 and the information storage unit 16. The control unit 12 controls the work of each part of the beverage brewing machine connected with the control unit, can acquire an operation instruction input by a user and corresponding working parameters from the input and output unit 15, and controls the work of the work execution unit 13 of the beverage brewing machine according to the working parameters; meanwhile, parameter information of each part of the work execution unit 13 can be set according to a parameter fitting curve fed back by the background cloud module 2, so that each part of the work execution unit 3 can work accurately.

The operation executing unit 13 mainly includes a water heating mechanism, a water outlet mechanism, a pressurizing mechanism, etc., such as a water tank, a water supply device connected to the water tank, a heating and pressurizing device, a tubular needle opening of the puncture capsule, etc., and is controlled by the control unit 12 to perform various operations such as brewing, etc.: the processes of brewing coffee beverages, cleaning the brewing machine, etc. are performed according to set parameters (such as water temperature, water amount, etc.).

The input and output unit 15 may include a touch screen or a display screen, control keys, and a scanner, a camera, and the like. The unit can receive information such as parameters input by a user, can input information in modes such as scanning two-dimensional codes or bar code graphs through a bar code scanner, and can display information such as working parameter curves of the beverage brewing machine fitted by the background cloud module.

The information storage unit 16 is provided with a database, and the database stores brewing parameters corresponding to various capsules and brewing history records of a certain capsule brewed by the beverage brewing machine, including information such as the type of the capsule, the time for brewing the capsule, the water temperature, the water quantity, the pressure change in the beverage brewing machine and the like. In addition, the information storage unit 16 also stores curves of various parameters fitted by the background cloud module 2, such as a temperature-time curve, a water amount-time curve, and a pressure-time curve, and may also be relationship curves of temperature, water amount, and pressure with other variables.

The backend cloud module 2 includes a database unit 21, a communication unit 22, and a processing unit 23. The database unit 21 stores a parameter fitting curve of the beverage brewing machine which is obtained by fitting of the processing unit 23 and is interconnected with the background cloud module 2. The communication unit 22 is responsible for being interconnected with the local calibration module 3 through bluetooth or WIFI, feeding back curve information fitted by the processing unit 23 to the local calibration module 3, and receiving data information sent by the local calibration module 3. The processing unit 23 is responsible for performing curve fitting (such as a temperature-time curve, a water amount-time curve, a pressure-time curve, and the like) of the brewing parameters or updating the fitting curve of the brewing parameters by using the received parameter information of the beverage brewing machine 1 during operation.

The local tuning module 3 may be a workbench of a production workshop, or may also be a mobile terminal (such as a mobile phone with bluetooth or a tablet computer) capable of connecting a sensor and performing tuning, or may be any device capable of implementing a tuning function. The local tuning module 3 includes a communication unit 31, a main control unit 32, and a parameter obtaining unit 33. Wherein communication unit 31 can communicate with backstage cloud end module 2 through bluetooth or WIFI's communication mode, is connected with beverage brewing machine 1 through wired or wireless mode to can receive the information of backstage cloud end module 2 feedback. The parameter acquiring unit 33 includes calibration monitoring components such as sensors corresponding to the components of the work executing unit 13, for example, including a water temperature monitoring device (preferably, a thermocouple), a water amount monitoring device, a pressure monitoring device (such as a pressure sensor), a brewing time monitoring device, etc., and the above calibration monitoring components can accurately monitor the water temperature, the water amount, the pressure, etc. of the beverage brewing machine 1 during operation, so that the unit can accurately monitor the water temperature, the water amount, the pressure in the bin, the information of the working parameters such as the water heating mechanism, the water outlet mechanism, the water temperature of the pressurizing mechanism, the air pressure and the time during the operation of the beverage brewing machine. The main control unit 32 can send the working parameter information acquired by the parameter acquisition unit 33 to the background cloud module 2, and can send the information fed back by the background cloud module 2 to the beverage brewing machine 1 through the communication unit, so as to adjust the brewing machine.

The process of adjusting the beverage brewing machine through the background cloud module before leaving the factory is described below according to a specific flow.

Fig. 2 is a flow chart of the adjustment and calibration system of the beverage brewing machine before leaving the factory. As shown in fig. 2, first, the local tuning module 3 logs in the backend cloud module 2 through the cloud account, and the backend cloud module 2 is in communication connection with the local tuning module 3 (step S1). Connect local timing module 3 and drink brewing machine 1: calibration monitoring components such as a water temperature monitoring device (preferably a thermocouple), a water quantity monitoring device, a pressure monitoring device (such as a pressure sensor) and the like of a parameter acquisition unit 33 of the local calibration module 3 are respectively and correspondingly connected with components such as a water heating mechanism, a water outlet mechanism, a pressurizing mechanism and the like of a work execution unit 13 of the beverage brewing machine 1, and a main control unit 32 is connected with a control unit 12; then, the beverage brewing machine is powered on, so that the local calibration module 3 can know the device code (for example, the serial number and serial number of the beverage brewing machine, or other unique identification code of the beverage brewing machine) of the beverage brewing machine connected thereto, and the local calibration module 3 can identify the beverage brewing machine connected thereto (step S2). An operator inputs brewing parameters and a brewing operation instruction through the input and output unit 15 of the beverage brewing machine 1, or the operator sets a specific program to enable the beverage brewing machine to work under a certain brewing parameter and a brewing operation instruction, the control unit 12 controls the work of the work execution unit 13 according to the brewing parameters and the brewing operation, and meanwhile, the calibration system collects data information such as first parameters and the like required during modeling (step S3); for example, the data information such as the first parameter may be data information of changes of parameters such as the brewing water temperature, the water amount, and the pressure of the corresponding component of the working execution unit 13 from the beginning to the end of brewing, which are accurately monitored and recorded by calibration monitoring components such as the parameter acquisition unit 33 (preferably, a thermocouple), the water amount monitoring device, the pressure monitoring device (such as a pressure sensor), and the brewing time monitoring device of the local calibration module 3, the parameter acquisition unit 33 sends the recorded data information to the main control unit 32, and the main control unit 32 sends the received data information of the monitoring record and the device code corresponding to the beverage brewing machine to the background cloud module 2 through the communication unit 31: the data information of the monitoring record can be the data of water temperature, water quantity and pressure obtained when the time is increased by 0.1 second in the working process of the beverage brewing machine, and the time interval can be adjusted according to the actual brewing time. After receiving the data information such as the first parameter required for modeling, which is acquired in step S3, the background cloud module 2 establishes a parameter model (step S4); for example, after the background cloud module 2 receives the change data information of the water temperature, the water amount and the pressure along with the time and the corresponding device code, the processing unit 23 respectively fits the curves of the time, the water temperature, the water amount and the pressure according to the received parameter data information: the fitted curve is input by taking time information as a function, and the water temperature, the water quantity and the pressure are respectively output by taking the water temperature, the water quantity and the pressure as functions, so that a temperature-time curve, a water quantity-time curve, a pressure-time curve and the like are obtained. By means of the fitted curve, when a time point is given, the water temperature, the water amount and the pressure at the time point can be obtained. Then, the background cloud module 2 feeds back the parameter model obtained in the step S4 to the beverage brewing machine, and stores the parameter model in the local tuning module 3 (step S5); for example, when the parameter model obtained in step S4 is a temperature-time curve, a water volume-time curve, a pressure-time curve, etc., the device code of the beverage brewing machine corresponding to the fitting curve is stored in the database unit 21, and the obtained fitting curve is fed back to the main control unit 32 of the local calibration module 3. The main control unit 32 feeds back the parameter model and the control information corresponding to the model to the control unit 12 of the beverage brewing machine 1, and the control unit 12 adjusts and controls the work of each component such as the work execution unit 13 according to the parameter model and stores the parameter model in the information storage unit 16 (step S6); for example, the control unit 12 adjusts and controls the operations of the components of the corresponding operation execution unit 13 according to the fed-back fitting curve (temperature-time curve, water amount-time curve, pressure-time curve, etc.), and displays the fitting curve on the input/output unit 15 and stores the fitting curve in the information storage unit 16.

Example 2

The adjusting process of the adjusting system of the beverage brewing machine related to embodiment 1 is performed before the beverage brewing machine leaves the factory. Because the beverage brewing machine is not provided with a built-in parameter monitoring part, a user cannot detect the purchased beverage brewing machine after the beverage brewing machine after adjustment leaves a factory. In order to solve the problem that a user of the adjustment system of the beverage brewing machine in embodiment 1 cannot adjust the beverage brewing machine by himself, the brewing system according to this embodiment is provided with a state monitoring unit in the beverage brewing machine, so that the working conditions of each component of the working execution unit can be monitored in real time, and the user can check or adjust the beverage brewing machine by himself after the beverage brewing machine leaves the factory.

Fig. 3 is a schematic structural view of a pre-factory adjustment system of the beverage brewing machine according to this embodiment. As shown in fig. 3, the system also includes a beverage brewing machine 1, a background cloud module 2, and a local tuning module 3. The connection of the modules of the system is the same as that of the corresponding modules of embodiment 1, and the description is not repeated here.

The beverage brewing machine 1 comprises a communication unit 11, a control unit 12, a work execution unit 13, an input/output unit 15 and an information storage unit 16, and further comprises a state monitoring unit 14. The functions of the work execution unit 13 and the information storage unit 16 are the same as those of the corresponding modules in embodiment 1, and are not described herein again.

In this embodiment, the communication unit 11 of the beverage brewing machine 1 can communicate with the local calibration module 3, and can also be interconnected with the background cloud module 2 in a wireless communication manner, so as to receive information fed back by the background cloud module 2 and send capsule brewing parameter information to the background cloud module 2. In this embodiment, the control unit 12 has the same function as the control unit 12 in embodiment 1, and can display information such as water temperature, pressure, water amount, and corresponding time in the brewing process, which is actually monitored by the state monitoring unit 14, on the input/output unit 15, and send the information to the background cloud module 2, and store the monitored information in the information storage unit 16, and in addition, the unit can also perform matching judgment on the sampling point and the fitting curve. The state monitoring unit 14 includes built-in monitoring components such as sensors and the like arranged at various positions of the work execution unit 13, including a water temperature monitoring device (preferably a thermocouple), a water amount monitoring device, a pressure monitoring device (such as a pressure sensor), a brewing time monitoring device and the like, and is responsible for monitoring and recording data information such as water temperature, water amount, air pressure in the bin, extraction time and the like when the beverage is brewed, and feeding back the information recorded by monitoring to the control unit 12; the monitoring accuracy of the built-in monitoring component of this unit may be lower than that of the tuning monitoring component of the parameter acquisition unit 33 of the local tuning module 3, and may be one order of magnitude lower: because the higher price is higher for monitoring part monitoring accuracy, set up the monitoring part that the precision is lower inside the drink machine of making and concocting, can reduce the cost of drink machine of making and concocting. The input/output unit 15 of the present embodiment, besides having the same function as the control unit 12 of embodiment 1, can also display the information fed back by the state monitoring unit 14 so that the user can know the working state of the beverage brewing machine.

The backend cloud module 2 includes a database unit 21, a communication unit 22, and a processing unit 23. Wherein, the communication unit 22 can communicate with the local adjusting module and communicate with the beverage brewing machine in a wireless manner, so as to send the information fed back by the processing unit 23 to the beverage brewing machine and receive the information fed back by the beverage brewing machine 1. The database unit 21 has the same function as that of the database unit of embodiment 1, and stores a correspondence table between the parameter data monitored by the calibration monitoring unit of the parameter acquisition unit 33 of the local calibration module 3 and the parameter data monitored by the state monitoring unit 14. The processing unit 23 has the same function as the processing unit 23 of embodiment 1, and can adjust the fitting curve of the parameter data monitored by the state monitoring unit 14 by using the correspondence stored in the database unit 21.

The structure and function of the local tuning module 3 are the same as those of the corresponding module in embodiment 1, and are not described herein again.

Fig. 4 is a flowchart illustrating the calibration of the pre-factory calibration system of the beverage brewing machine according to this embodiment. As shown in fig. 4, the processes of step S11 and step S12 are the same as those of step S1 and step S2 in embodiment 1, and thus will not be described again. Next, step S13 is performed, step S13 performs the process of step S3 of embodiment 1, and the built-in monitoring component of the state monitoring unit 14 of the beverage brewing machine 1 also monitors and records data information such as the second parameter of the change of the parameters such as water temperature, water amount, pressure, etc. of the brewing water from the beginning to the end of the brewing water temperature, water amount, pressure, etc. of the corresponding working component of the working execution unit 13 with time, the control unit 12 sends the recorded data information such as the second parameter to the local calibration module 3, and stores the recorded data in the information storage unit 16, and the main control unit 32 of the local calibration module sends the recorded data to the background cloud module together with the parameter data and the device code information acquired by the parameter acquisition unit 33 (step S13). After receiving the data information such as the parameters required for modeling, which is acquired in step S13, the background cloud module 2 establishes a parameter model, which may be, for example, a function curve containing parameters (step S14); for example, after the background cloud module 2 receives two sets of data information (data information such as a first parameter and a second parameter) of the same beverage brewing machine about changes of water temperature, water amount, and pressure with time, the processing unit 23 respectively fits the two sets of data into parameter curves of time, water temperature, water amount, and pressure, that is, two sets of temperature-time curves, water amount-time curves, and pressure-time curves; one of the sets is a fitted curve of data monitored by the built-in monitoring means (monitoring means in the state monitoring unit 14), and the other set is a fitted curve of data monitored by the calibration monitoring means (monitoring means in the parameter acquisition unit 33). The processing unit 23 corrects and calibrates the parameter model of the parameter data monitored by the state monitoring unit 14 of the beverage brewing machine (for example, the parameter model is the fitting curve of the data monitored by the built-in monitoring component acquired in step S14) by using the correspondence (which refers to the correspondence table between the parameter data monitored by the calibration monitoring component of the parameter acquiring unit 33 and the parameter data monitored by the state monitoring unit 14) stored in the database unit 21 and the parameter model (which may be the fitting curve of the data monitored by the calibration monitoring component acquired in step S14) acquired in step S14 (step S15). Then, the background cloud module 2 stores the device code of the beverage brewing machine corresponding to the parameter model (fitting curve) corrected and adjusted in step S15 in the database unit 21, and simultaneously feeds back the corrected and adjusted parameter model to the main control unit 32 of the local adjustment module 3 (step S16). Next, step S17 is performed, which is the same as step S6 of embodiment 1 and will not be described again.

The adjustment process is completed by an operator in a factory, and after the beverage brewing machine leaves the factory and is purchased by a user, the user can adjust and calibrate each monitoring component of the internal state monitoring unit 14 of the beverage brewing machine under the condition that each component of the work execution unit 13 normally works.

Fig. 5 is a schematic structural view of the calibration system of the beverage brewing machine according to the present embodiment after leaving the factory. After the beverage brewing machine shown in fig. 5 leaves the factory, the calibration system does not include the local calibration module 3 any more, the beverage brewing machine 1 is directly interconnected with the background cloud module 2 in a wireless manner, and the structures and functions of the two are the same as those of the corresponding parts related to fig. 3, and are not described herein again.

Fig. 6 is a flowchart illustrating the calibration of the post-factory calibration system of the beverage brewing machine according to this embodiment. As shown in fig. 6, the beverage brewing machine after leaving the factory is interconnected with the background cloud module 2 through the cloud account, so that the background cloud module 2 obtains the device code of the beverage brewing machine (the identification code is a serial number, or another unique identification code of the beverage brewing machine) (step S21). A user can check the beverage brewing machine in the brewing process, the state monitoring unit 14 samples at a fixed time point in the checking process, (the fixed time interval is larger than 0.1 second and can be 0.2 second, 0.3 second or larger), the sampling point number in the checking process of the beverage brewing machine is one fifth to one tenth of the sampling point number (the sampling time interval is 0.1 second) in the adjusting process before the beverage brewing machine leaves the factory, the data of the checking sampling is the data of the water temperature, the water quantity and the bin pressure which are monitored by the state monitoring unit 14 in the brewing process and change along with the time, and the data of the checking sampling is sent to the input and output unit 15, so that the user can know the brewing condition; the control unit 12 matches the data of the check sample with the parameter curve stored in the information storage unit, and determines whether or not the data of the check sample matches the parameter model stored in the information storage unit (step S22). If the two match: and (4) checking that the error of the sampled data and the numerical value corresponding to the parameter model does not exceed a certain threshold (yes in the step S22), determining that the working execution unit in the beverage brewing machine works normally, and continuing to brew the beverage brewing machine (step S27). If not matched: the beverage brewing machine checks that the numerical error between the sampled data and the parameter model exceeds a certain threshold (no in step S22), the processing unit 23 of the background cloud module 2 sends a warning of matching failure to the beverage brewing machine (step S23). The user can recalibrate or execute a specific fault diagnosis procedure for the beverage brewing machine according to the warning message (step S24). Specifically, when the beverage brewing machine works, the state monitoring unit 14 obtains brewing parameters of the beverage brewing machine again, sends the obtained parameters and the device code corresponding to the beverage brewing machine to the background cloud module 2, the processing unit 23 performs modeling on the obtained parameters again, the processing unit 23 re-calibrates and newly establishes a parameter model according to the correspondence stored in the database unit 21 (which refers to a correspondence table between the parameter data monitored by the calibration monitoring component of the parameter obtaining unit 33 and the parameter data monitored by the state monitoring unit 14), and stores the re-established and calibrated parameter model under the device code corresponding to the database unit (step S25). Then, the background cloud module 2 feeds back the re-established parameter model to the control unit 12 of the beverage brewing machine 1, and the control unit 12 controls the work of each component of the corresponding work execution unit 13 according to the fed-back parameter model, and displays the parameter model in the input and output unit 15, and stores the parameter model in the information storage unit 16 (step S26). The next brewing process then proceeds (step S27).

The user can regularly adjust the beverage brewing machine. The periodic time interval for calibrating the beverage brewer may be a month, a quarter, a half year, or longer. The plurality of parameter models acquired according to the time interval of the adjustment and updating can be stored in the information storage unit of the beverage brewing machine and can be completely displayed in the input and output unit, and a user can predict the service life of the internal working device of the beverage brewing machine according to the displayed plurality of parameter models and the change trend of the parameter models; or the background cloud module judges the service life of the corresponding working device according to the change trend of the parameter models of the same beverage brewing machine and gives a prompt for a user whether to replace the working device. In addition, the database unit of the background cloud module also stores a parameter model of the beverage brewing machine, the background cloud module can adjust and calibrate the beverage brewing machine connected with the background cloud module at a fixed time point according to the stored parameter model, and the background cloud module can automatically acquire brewing parameters of the beverage brewing machine; and evaluating the acquired parameters according to the model parameters, thereby giving suggestions or prompts to the service life of the internal parts of the brewing machine and feeding back the suggestions or prompts to the brewing machine.

When the parameter monitored by the state monitoring unit fluctuates greatly along with time or does not change along with time, the state monitoring unit of the beverage brewing machine or the work execution unit cannot be definitely judged to have a problem, at the moment, a user needs to send the beverage brewing machine to an appointed place for overhauling, and the beverage brewing machine is precisely detected so as to judge whether the work execution unit or the corresponding state monitoring unit needs to be replaced or maintained.

The embodiment of the utility model provides a 2, the precision of the monitoring part of the state monitoring unit of drink machine of dashing and transferring is lower, is less than the precision of the monitoring part of the parameter acquisition unit of local timing module, so dash machine need carry out local timing in the mill now, acquires the state fitting curve of higher accuracy, but not only be limited to this. The precision of the monitoring part of the state monitoring unit of the beverage brewing machine can be improved, so that the beverage brewing machine does not need to be locally calibrated in a factory, a user can directly calibrate after purchasing the beverage brewing machine, and the factory calibration step can be omitted.

The utility model discloses an in the embodiment, the processing unit is according to temperature, water yield and the interior pressure in storehouse change with time's data that the state monitoring unit of drink machine of making a dash or the parameter acquisition unit of local timing module monitored, the corresponding time of fit and the curve of temperature, water yield and pressure, but not limited to this. Or obtaining a conversion relation table of time and parameters such as water temperature, water quantity, pressure and the like by utilizing an interpolation algorithm, or carrying out formula fitting on the conversion relation table to obtain a corresponding calculation formula, and calculating a result according to the formula.

Claims (14)

1. A tuning system for a beverage brewer, comprising: the adjusting server, the adjusting device and the beverage brewing machine are adjusted; wherein,

the adjusting device is connected with the beverage brewing machine, can acquire individual characteristics of the beverage brewing machine and send the individual characteristics to the adjusting server, and adjusts the brewing operation of the beverage brewing machine according to the adjusting information fed back by the adjusting server;

the adjusting server is connected with the adjusting device through a network and can receive the individual characteristics of the beverage brewing machine and generate the adjusting information of the beverage brewing machine;

the beverage brewing machine comprises a brewing work executing mechanism and a control unit.

2. The tuning system of claim 1, wherein:

the tuning device includes: a calibration sensor connectable to the beverage brewer and capable of collecting individual characteristics of the beverage brewer; and

and the setting device is used for setting the adjustment information of the beverage brewing machine according to the feedback of the adjustment server.

3. The tuning system of claim 2, wherein:

the adjusting server can be connected with a plurality of adjusting devices and matched with the connected adjusting devices to work.

4. The tuning system of claim 3, wherein:

the individual characteristics of the beverage brewing machine comprise the corresponding relation between certain execution actions of the work execution mechanism and execution results.

5. The tuning system of claim 4, wherein:

the working executing mechanism comprises one or more of a water heating mechanism, a water outlet mechanism and a pressurizing mechanism;

the control unit controls the work of one or more of the water heating mechanism, the water outlet mechanism and the pressurizing mechanism;

the operating parameters include one or more of water temperature, water volume, pressure, brew time.

6. The tuning system of claim 4, wherein:

the calibration server can fit the corresponding relationship to a function, and the calibration information of the calibration server includes the function.

7. The tuning system of claim 6, wherein:

the function is one or more of a water temperature-time function, a water volume-time function, and a pressure-time function.

8. The tuning system of claim 4, wherein:

the beverage brewing machine is provided with a built-in sensor corresponding to the calibration sensor of the calibration device.

9. The tuning system of claim 8, wherein:

the built-in sensor and the calibration sensor are one or more of a water temperature monitoring device, a water quantity monitoring device, a pressure monitoring device and a brewing time monitoring device.

10. The tuning system of claim 8, wherein:

the individual characteristics of the beverage brewing machine further comprise the corresponding relation between the reading of the built-in sensor and the reading of the sensor for calibration.

11. The tuning system of claim 10, wherein:

in the process of factory debugging, the built-in sensor is calibrated by using the calibration sensor; in the using process of a user, the beverage brewing machine is connected with the adjusting server, and the working executing mechanism is adjusted by the built-in sensor.

12. The tuning system of claim 11, wherein:

the adjustment server can record the history of adjustment of the beverage brewing machine, can compare the history of adjustment and give information related to the running state of the working execution mechanism.

13. The tuning system of claim 12, wherein:

and when the difference value between the current adjusting result and the adjusted historical record reaches a certain threshold value, the adjusting server feeds back alarm information to the beverage brewing machine.

14. A regulating system of a beverage brewing machine comprises a regulating server and the beverage brewing machine; wherein,

the beverage brewing machine comprises a working execution mechanism for brewing and a sensor for adjusting, and can acquire the individual characteristics of the working execution mechanism through the sensor for adjusting and send the individual characteristics to the adjusting server, and adjust the brewing operation of the beverage brewing machine according to the adjusting information fed back by the adjusting server;

the adjusting server is connected with the beverage brewing machine through a network and can receive the individual characteristics of the beverage brewing machine and generate the adjusting information of the beverage brewing machine.