CN105698894A

CN105698894A - A container mat, and a method and a device for determining the state of a solution in a container

Info

Publication number: CN105698894A
Application number: CN201410697273.6A
Authority: CN
Inventors: 吴寒潇; 张志鹏; 许利群
Original assignee: China Mobile Communications Group Co Ltd
Current assignee: China Mobile Communications Group Co Ltd
Priority date: 2014-11-26
Filing date: 2014-11-26
Publication date: 2016-06-22
Anticipated expiration: 2034-11-26
Also published as: CN105698894B

Abstract

The invention discloses a method and a device for determining the state of a solution in a container and a container mat. The method comprises the steps of obtaining a first state of the container mat in a time period of T1; judging whether the first state meets preset conditions to obtain a first judgment result; when the first judgment result shows that the first state meets the preset conditions, obtaining a first pressure borne by the container pad in a time period of T2, wherein the time period of T2 is adjacent to the time period of T1 and begins after the time period of T1; obtaining a second pressure borne by the container mat in a time period of T3, wherein the time period of T3 is adjacent to the time period of T1 and is earlier than the time period of T1, and the pressure borne by the container mat in the time period of T1 is different from the pressure borne by the container mat in the time period of T2; determining the change of the volume of the solution in the container according to the first pressure and the second pressure.

Description

A kind of container mat, the method determining solution state in container and device

Technical field

The present invention relates to electronic technology, particularly relate to a kind of container mat, the method determining solution state in container and device。

Background technology

Water way and the health of science are closely bound up, and therefore drinking water in right amount is important drinking habit。" Chinese residents dietary guidelines " advises, life, the light physical exertion adult when mild climate, it is proposed that minimum drinking-water 1200 milliliters every day (ml), the 200ml amount of about 6 glasss。If activity causes greatly perspiring many, then corresponding increase the amount of drinking water so that moisturizing in time。Additionally, drink water also is another important drinking habit in good time, such as should drink one glass of water after the meal half an hour, the digestive function of health, endocrine function need water, toxicant in metabolite also to rely on moisture, drink one glass of water after half an hour after meal and can strengthen the digestive function of health, it is to avoid gastrointestinal function is disorderly, help to maintain stature。

Modern's physical exertion ratio declines, and the especially personage of sitting office is in the environment that temperature humidity is all comfortable, it is easy to form bad drinking habit for a long time。This mainly includes two aspects: be first forget for a long time to drink water; long-term sitting and be absorbed in work; often forget to drink water; when wanting to drink water when feeling thirsty, the dehydration in body has reached 2%; thirsty itself is the performance of internal serious water shortage in fact, and this is one of fatal custom causing " subhealth state " state；Next to that the inappropriate water of consumption temperature, the too high water of long-term drink temperature can scald esophageal mucosa, cause oral mucositis, esophagitis etc., of long duration may even happen that canceration, the water capacity that long-term drink temperature is too low simultaneously easily stimulates bottleneck throat and the intestines and stomach, causes the diseases such as laryngalgia, hoarseness, diarrhoea, stomachache。

Explore and how to promote that the research method of healthy water mainly includes container mat method, container mat method is exactly a kind of technology utilizing container mat to carry out drinking-water metering, and the subject matter existed in existing container mat method includes: 1) container mat method also rests on the availability focusing on container mat design itself and system；2) container mat method is by materialogy method mostly when carrying out water temperature detection, it is impossible to obtain quantitative monitoring result；3) container mat method lacks long-term record, and the detection of drinking habit and intervention are dynamic, long-term processes, and the statistics of data is extremely important with trend analysis, and these are operated in existing achievement in research and do not embody。

Summary of the invention

In view of this, the embodiment of the present invention provides container mat for solving at least one problem of existence in prior art, determines method and the device of solution state in container, it is possible to the drinking behavior of monitoring user, promotes that user forms good drinking habit。

The technical scheme of the embodiment of the present invention is achieved in that

First aspect, the embodiment of the present invention provides a kind of and determines the method for solution state in container, and described container is positioned on container mat, and described method includes:

The first state residing for described container mat is obtained in the T1 period；

Judge whether described first state meets pre-conditioned, obtain the first judged result；

When described first judged result shows that described first state meets pre-conditioned, obtaining, in the T2 period, the first pressure that described container mat bears, the described T2 period is adjacent with the described T1 period and occurs after the described T1 period；

Obtaining the second pressure of bearing at container mat described in the T3 period, the described T3 period is adjacent with the described T1 period and described T3 period is before the described T1 period；

The pressure that the pressure that described container mat bears when the described T1 period bears from the described container mat when the described T2 period is different, and the pressure that the pressure that described container mat bears when the described T1 period bears from the described container mat when the described T3 period is different；

The volume change of solution in described container is determined according to described first pressure and described second pressure。

Second aspect, the embodiment of the present invention provides a kind of and determines the device of solution state in container, described container is positioned on container mat, and described device includes the first acquiring unit, the first judging unit, second acquisition unit, the 3rd acquiring unit and first determine unit, wherein:

Described first acquiring unit, for obtaining the first state residing for described container mat in the T1 period；

Described first judging unit, is used for judging whether described first state meets pre-conditioned, obtains the first judged result；

Described second acquisition unit, for when described first judged result shows that described first state meets pre-conditioned, obtaining, in the T2 period, the first pressure that described container mat bears, the described T2 period is adjacent with the described T1 period and occurs after the described T1 period；

Described 3rd acquiring unit, for obtaining the second pressure born at container mat described in the T3 period, the described T3 period is adjacent with the described T1 period and described T3 period is before the described T1 period；

Described first determines unit, for determining the volume change of solution in described container according to described first pressure and described second pressure。

The third aspect, the embodiment of the present invention provides a kind of container mat, described container mat is used for placing container, and described container pad attached bag draws together container cushion body, the first temperature sensor, the second temperature sensor, pressure transducer, acceleration transducer and processor, wherein:

Described first temperature sensor, is arranged in described container mat, for sensing the temperature bottom container mat upper container, and the temperature of described container bottom is sent to processor；

Described second temperature sensor, is arranged in described container mat, is used for sensing room temperature, and described room temperature is sent to processor；

Described pressure transducer, is arranged in described container mat, for sensing described container to the container mat the first pressure in the T2 period and the second pressure in the T3 period, and described first pressure and described second pressure is sent to described processor；

Described acceleration transducer, is arranged in described container mat, for sensing the acceleration information of described container mat, and described acceleration information is sent to processor；

Described processor, for according to described acceleration information correction the first pressure, and according to described acceleration information correction the second pressure, then determine the volume change of solution in described container according to revised first pressure and revised second pressure；It is additionally operable to the temperature according to described room temperature and described container bottom and determines the temperature of held solution in described container。

The container mat that the embodiment of the present invention provides, the method determining solution state in container and device, wherein, obtain the first state residing for described container mat in the T1 period；Judge whether described first state meets pre-conditioned, obtain the first judged result；When described first judged result shows that described first state meets pre-conditioned, obtain, in the T2 period, the first pressure that described container mat bears；Obtain the second pressure born at container mat described in the T3 period；The volume change of solution in described container is determined according to described first pressure and described second pressure；So, it is possible the drinking behavior of monitoring user, promote that user forms good drinking habit。

Accompanying drawing explanation

Fig. 1-1 is the composition structural representation of the embodiment of the present invention one container mat；

Fig. 1-2 is that the embodiment of the present invention one container is placed in the schematic diagram on container mat；

Fig. 2-1 be the embodiment of the present invention two determine the method for solution state in container realize schematic flow sheet；

Fig. 2-2 is the schematic diagram that in the embodiment of the present invention two, the three state of container plate mat is changed mutually；

Fig. 2-3 is that in the embodiment of the present invention two, user drinks water the schematic diagram of process；

Fig. 3 be the embodiment of the present invention three determine the method for solution state in container realize schematic flow sheet；

Fig. 4-1 be the embodiment of the present invention four determine the method for solution state in container realize schematic flow sheet；

Fig. 4-2 is the schematic diagram at the first inclination angle in the embodiment of the present invention four；

Fig. 5-1 be the embodiment of the present invention five determine the method for solution state in container realize schematic flow sheet；

Fig. 5-2 is the relation schematic diagram in the embodiment of the present invention five between container mat and client；

Fig. 6 be the embodiment of the present invention six determine the method for solution state in container realize schematic flow sheet；

Fig. 7-1 be the embodiment of the present invention seven determine the method for solution state in container realize schematic flow sheet；

Fig. 7-2 be in the embodiment of the present invention seven for revise pressure algorithm realize schematic flow sheet；

Fig. 8 is the composition structural representation that the embodiment of the present invention eight determines the device of solution state in container。

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the technical solution of the present invention is further elaborated。

Embodiment one

The embodiment of the present invention first provides a kind of container mat, described container mat is used for placing container, Fig. 1-1 is the composition structural representation of the embodiment of the present invention one container mat, as Figure 1-1, this container mat 10 includes the 11, first temperature sensor the 12, second temperature sensor 13 of container cushion body, pressure transducer 14, acceleration transducer 15 and processor 16, wherein:

Described first temperature sensor 12, is arranged in described container mat, for sensing the temperature bottom container mat upper container, and the temperature of described container bottom is sent to processor 16；

Described second temperature sensor 13, is arranged in described container mat, is used for sensing room temperature, and described room temperature is sent to processor 16；

Described pressure transducer 14, is arranged in described container mat, for sensing described container to the container mat the first pressure in the T2 period and the second pressure in the T3 period, and described first pressure and described second pressure is sent to described processor 16；

Described acceleration transducer 15, is arranged in described container mat, for sensing the acceleration information of described container mat, and described acceleration information is sent to processor 16；

Described processor 16, for determining the volume change of solution in described container according to described first pressure and described second pressure；

As preferred technical scheme, described processor 16, it is additionally operable to the first pressure according to described acceleration information correction, and according to described acceleration information correction the second pressure, then determine the volume change of solution in described container according to revised first pressure and revised second pressure。

Described processor 16, determines the temperature of held solution in described container for the temperature according to described room temperature and described container bottom；

It should be noted that processor 16 is determined the volume change of solution in container and determines the temperature of held solution in container, and correction the first pressure and the second pressure will be described in detail below in an example。

In the embodiment of the present invention, as Figure 1-1, the upper surface of this container cushion body 11 includes first area 111 and second area 112, described first area 111 is and the region contacted at the bottom of the cup of the container being positioned in described container cushion body, and described second area 112 is the region except described first area in described container cushion body；

Here, assume that container is water tumbler, accordingly, container mat is plate mat, as shown in Figure 1-2, the upper surface of this plate mat body 11 includes first area 111 and second area 112, wherein, first area 111 is placed at the bottom of the cup of cup and is covered, and second area 112 is the region except first area on plate mat；

In the embodiment of the present invention, as Figure 1-1, described first temperature sensor 12, pressure transducer 14 and acceleration transducer 15, it is arranged in the orthographic projection region of described first area 111；Described second temperature sensor 13 and described temperature sensor 16 are arranged in the orthographic projection region of described second area 112。

Here, the most important thing is the first temperature sensor and the second temperature sensor to be provided separately, institute the first temperature sensor and the second temperature sensor are provided separately when being because holding solution in container or during object, temperature in container is usually different with outdoor temperature, second temperature sensor is owing to sense room temperature, it is therefore preferred to be positioned over the second area except first area 111, and the first temperature sensor to sense temperature in container, therefore the first temperature sensor is arranged at first area 111。

When this container mat is plate mat, need for arranging each components and parts (namely above-mentioned each sensor and the processor) subregion in plate mat being because: when holding solution in cup, temperature in cup is usually different with outdoor temperature, second temperature sensor is owing to sense room temperature, it is therefore preferred to be positioned over the second area except first area 111, and the first temperature sensor to sense temperature in cup, therefore the first temperature sensor is arranged at first area 111, and in general, the solution held in cup is too high or too low for the operating temperature of processor, it is not as room temperature so constant, therefore, it is suitable for being arranged in second area processor。

In the embodiment of the present invention, described container mat also includes communication unit, and this communication unit is arranged at container cushion body 11, it is preferable that be arranged in second area by communication unit；This communication unit can adopt the mode such as short-range communication such as bluetooth, infrared, near-field communication (NFC) to realize, and certain communication unit can also utilize other subscriber equipmenies of various network such as Wireless Fidelity (wifi) real-time performance and outside or the mutual of server。

The embodiment of the present invention one provides a kind of intelligent container mat, this container mat can be plate mat, this container mat is owing to incorporating multiple sensors, and this container mat is provided with processor, therefore, this container mat can be terminal, and the data gathered by sensor are transferred to processor, even can issue server or subscriber equipment by the extra communication unit arranged after the process of processor；Wherein subscriber equipment includes smart mobile phone, desktop computer, notebook computer, panel computer etc., and server here can be one of in above-mentioned subscriber equipment。

Embodiment two

Based on the container mat that the embodiment of the present invention one provides, the embodiment of the present invention provides a kind of and determines the method for solution state in container, more specifically, the embodiment of the present invention provides a kind of determines the method for the volume change of solution in container, described container is positioned on container mat, the method that the embodiment of the present invention provides is applied to the processor in container mat, this container pad attached bag is drawn together one and is determined the device of solution state in container, this determines that the function that in container, the device of solution state realizes can be realized by the processor caller code in container mat, certain program code can be saved in computer-readable storage medium。It should be noted that this container mat is except including processor and storage medium, also include the various sensors described in embodiment one and communication unit。

Fig. 2-1 be the embodiment of the present invention two determine the method for solution state in container realize schematic flow sheet, as shown in Fig. 2-1, the method includes:

Step 201, obtains the first state residing for described container mat in the T1 period；

Here, described first state is likely to have blank state S0, empty cup stage S1 and have solution state S2, and wherein, blank state S0 is the state not being placed with container on container mat；Empty cup stage S1 is the state being placed with on container mat and not being contained with solution in container and described container；There is solution state S2 that container mat is placed with container, and in described container, be contained with the state of solution。

Container mat assumed below is plate mat, simultaneously, it is assumed that container is cup, so as shown in Fig. 2-2 and Fig. 2-3, three states and blank state S0, empty cup stage S1 and have between solution state S2 can mutually to convert, when user picks up cup, namely container mat is in blank state S0；Wherein, user picks up cup and potentially includes two kinds of situations, and one is to pick up cup to drink water, and one is to pick up cup to go to cup pouring。When user picks up cup and the water in the middle of cup is drunk up, and when empty cup is positioned on container mat, namely container mat is in empty cup stage S1；When user drinks the water in cup up, user will pick up cup and remove pouring, and then user is positioned over cup on container mat, and at this moment, namely container mat has been in solution state S2,；Then user picks up cup and drinks water, and within a period of time picking up cup, container mat is in blank state S0's；When user does not finish off the water in cup, when then cup being positioned on plate mat, at this moment container mat is in solution state S2's。

Step 202, it is judged that whether described first state meets pre-conditioned, obtains the first judged result；

Here, the described pre-conditioned state S0 not placing container for container mat。

Step 203, when described first judged result shows that described first state meets pre-conditioned, obtains, in the T2 period, the first pressure that described container mat bears；

Here, the described T2 period is different from the described T1 period, and the described T2 period is adjacent with the described T1 period and occurs after the described T1 period；

Step 204, obtains the second pressure born at container mat described in the T3 period；

Here, the described T3 period is adjacent with the described T1 period and described T3 period is before the described T1 period；The pressure that the pressure that described container mat bears when the described T1 period bears from the described container mat when the described T2 period is different, and the pressure that the pressure that described container mat bears when the described T1 period bears from the described container mat when the described T3 period is different；

Step 205, determines the volume change of solution in described container according to described first pressure and described second pressure。

In the embodiment of the present invention, step 201 to step 203 is judge whether the current state of container mat is blank state S0, when the state determining container mat is blank state S0, second pressure of the T3 period before the acquisition T1 period, and first pressure of T2 period after the acquisition T1 period；Example below three and embodiment four will provide for two kinds and determine that whether container mat current state is the method for blank state S0。

In the embodiment of the present invention, step 205, described determine the volume change of solution in described container according to described first pressure and described second pressure, including:

Step 2051, it is judged that the magnitude relationship between described first pressure and described second pressure, obtains the second judged result；

Step 2052, when described second judged result shows described second pressure less than described first pressure, then determines the first amount of solution according to described second pressure and described first pressure；

Here, described first amount of solution is the amount of solution reduced in this container；When container is cup, the first amount of solution may be considered the amount that user drinks water。

Step 2053, when described second judged result shows described second pressure more than described first pressure, then determines the second amount of solution according to described second pressure and described first pressure；

Here, described second amount of solution is the amount of solution increased in this container, and when container is cup, the second amount of solution may be considered user and pours the amount of water in cup into。

In the embodiment of the present invention, obtain the first state residing for described container mat in the T1 period；Judge whether described first state meets pre-conditioned, obtain the first judged result；When described first judged result shows that described first state meets pre-conditioned, obtain, in the T2 period, the first pressure that described container mat bears；Obtain the second pressure born at container mat described in the T3 period；The volume change of solution in described container is determined according to described first pressure and described second pressure；So, it is possible the drinking behavior of monitoring user, promote that user forms good drinking habit。

Embodiment three

Based on the container mat that the embodiment of the present invention one provides, the embodiment of the present invention provides a kind of and determines the method for solution state in container, described container is positioned on container mat, the method that the embodiment of the present invention provides is applied to the processor in container mat, this container pad attached bag is drawn together one and is determined the device of solution state in container, this determines that the function that in container, the device of solution state realizes can be realized by the processor caller code in container mat, and certain program code can be saved in computer-readable storage medium。It should be noted that this container mat is except including processor and storage medium, also include the various sensors described in embodiment one and communication unit。

Main in the embodiment of the present invention three provide a kind of step 201 that realizes in embodiment two to the mode of step 203, the mode provided in the embodiment of the present invention three is based on the pressure that container mat bears and realizes, Fig. 3 be the embodiment of the present invention three determine the method for solution state in container realize schematic flow sheet, as it is shown on figure 3, the method includes:

Step 301, in the T1 period, obtains the initial pressure that described container mat bears；

Here, initial pressure is the pressure that container mat bore in the T1 period, owing to the embodiment of the present invention is with the T1 period for a decision node (i.e. step 302), therefore, the pressure of T1 period is defined as initial pressure。

Step 302, it is judged that the magnitude relationship between described initial pressure and default pressure threshold, obtains the first judged result；

Here, when described default pressure threshold is in blank state S0 by container mat, container mat is sensed pressure, in the ideal case, the sensed pressure of container mat should be 0, it is contemplated that the reason such as the weight of container mat self and null offset, the pressure that container mat senses when blank state S0 is not 0, it is possible to be a smaller force value；Therefore, in the process being embodied as, the pressure threshold preset can have a pressure limit, and the maximum of this pressure limit can be equal to the force value sensed when container mat is in empty cup stage S1, and the minima of this pressure limit could be arranged to 0。

Step 303, when described first judged result shows described initial pressure less than described pressure threshold, obtains, in the T2 period, the first pressure that described container mat bears；

Step 304, obtains the second pressure born at container mat described in the T3 period；

Step 305, determines the volume change of solution in described container according to described first pressure and described second pressure。

Embodiment four

Main in the embodiment of the present invention four provide a kind of step 201 that realizes in embodiment two to the mode of step 203, the mode provided in the embodiment of the present invention four is based on the acceleration of container mat and realizes, Fig. 4-1 be the embodiment of the present invention four determine the method for solution state in container realize schematic flow sheet, as shown in Fig. 4-1, the method includes:

Step 401, in the T1 period, obtains the acceleration of described container mat；

Step 402, decomposes described acceleration on X-axis under the first coordinate system, Y-axis and three directions of Z axis, respectively obtains the acceleration of the acceleration of X-axis, the acceleration of Y-axis and Z axis；

Here, described first coordinate system is as shown in Figure 1-2, wherein it is mutually perpendicular to and intersects at initial point for X-axis, Y-axis and Z axis, described initial point may be considered the position at sensor place or the position of centre of gravity of container mat, X-axis and the plane that the determined plane of Z axis is container mat place, and Y-axis is vertical with the plane being perpendicular to container mat place。It should be noted that when the plane at container mat place is horizontal plane, then the direction of gravity acceleration g is contrary with Y-axis, and the pressure that container mat bears is equal with the gravity that container mat bears。When the plane at container mat place is inclined-plane, then between direction and the Y-axis opposite direction at gravity acceleration g place, there is certain angle, as shown in the Fig. 4-2, this angle is defined as the first inclination angle or the second inclination angle in embodiments of the present invention, at this moment, the pressure that container mat bears is less than the gravity that container mat bears。

Step 403, determines acceleration quadratic sum TFA according to the acceleration of described X-axis, the acceleration of Y-axis and the acceleration of Z axis；

Here, acceleration quadratic sum TFA can adopt formula (1) to calculate:

TFA = X_{ga}^{2} + Y_{ga}^{2} + Z_{ga}^{2} - - - (1);

Wherein,For decompose under the first coordinate system acceleration in X-axis square,For decompose under the first coordinate system acceleration in Y-axis square,For decompose under the first coordinate system acceleration on Z axis square。

Step 404, it is judged that the magnitude relationship between described acceleration quadratic sum TFA and default acceleration rate threshold, obtains the first judged result；

Step 405, when described first judged result shows described acceleration quadratic sum TFA less than described acceleration rate threshold, obtains, in the T2 period, the first pressure that described container mat bears；

Step 406, obtains the second pressure born at container mat described in the T3 period；

Step 407, determines the volume change of solution in described container according to described first pressure and described second pressure。

Reoffer below a kind of in conjunction with pressure and gravity speed to judge the method which kind of state container mat is in, determine several parameter first, first parameter Th is the container mat pressure that container mat senses when being in empty cup stage S1, second parameter Tst is the empirical value that container mat is in the 3-axis acceleration quadratic sum of the gravity sensor of container mat during empty cup stage S1, 3rd parameter TFA is the quadratic sum of 3-axis acceleration, wherein 3-axis acceleration is the acceleration decomposed in the X-axis of the first coordinate system by acceleration, acceleration in Y-axis and the quadratic sum of the acceleration of Z axis, employing formula expresses TFA:

TFA = X_{ga}^{2} + Y_{ga}^{2} + Z_{ga}^{2} - - - (1);

Wherein,Be decompose under the first coordinate system acceleration in X-axis square,Be decompose under the first coordinate system acceleration in Y-axis square,Be decompose under the first coordinate system acceleration on Z axis square。

When initial pressure is less than Th, and three axle quadratic sum TFA are less than empirical value Tst, then it is believed that container mat is in blank state S0；When initial pressure is equal to Th, it is determined that be in empty cup stage S1 for container mat；When initial pressure is more than Th, it is determined that be in solution state S2 for container mat。

Embodiment five

Fig. 5-1 be the embodiment of the present invention five determine the method for solution state in container realize schematic flow sheet, as shown in fig. 5-1, the method includes:

Step 501, obtains the first state residing for described container mat in the T1 period；

Container mat assumed below is plate mat, simultaneously, it is assumed that container is cup, so as shown in Fig. 2-2 and Fig. 2-3, three states and blank state S0, empty cup stage S1 and have between solution state S2 can mutually to convert, when user picks up cup, namely container mat is in blank state S0；Wherein, user picks up cup and potentially includes two kinds of situations, and one is to pick up cup to drink water, and one is to pick up cup to go to cup pouring。When user picks up cup and the water in the middle of cup is drunk up, and when empty cup is positioned on container mat, namely container mat is in empty cup stage S1；When user drinks the water in cup up, user will pick up cup and remove pouring, and then user is positioned over cup on container mat, and at this moment, namely container mat has been in solution state S2；Then user picks up cup and drinks water, and within a period of time picking up cup, container mat is in blank state S0's；When user does not finish off the water in cup, when then cup being positioned on plate mat, at this moment container mat is in solution state S2's。

Step 502, it is judged that whether described first state meets pre-conditioned, obtains the first judged result；

Step 503, when described first judged result shows that described first state meets pre-conditioned, obtains, in the T2 period, the first pressure that described container mat bears；

Step 504, obtains the second pressure born at container mat described in the T3 period；

Step 505, it is judged that the magnitude relationship between described first pressure and described second pressure, obtains the second judged result；

Step 506, when described second judged result shows described second pressure less than described first pressure, then determines the first amount of solution according to described second pressure and described first pressure；

Here, described first amount of solution is the amount of solution reduced in this container；When container is in cup, the first amount of solution may be considered the amount that user drinks water。

Step 507, when described second judged result shows described second pressure more than described first pressure, then determines the second amount of solution according to described second pressure and described first pressure；

Step 508, records the first amount of solution and very first time information, forms the first list；

Here, described very first time information is the temporal information corresponding to described first amount of solution；

Step 509, is uploaded to described first list the second equipment, or exports to user by described first list, in order to user understands the minimizing amount of solution in container。

Here, described second equipment can be subscriber equipment such as panel computer, smart mobile phone etc., it is also possible to for server, described server can be the computer that a Daepori is logical in the process implemented, and can also be smart mobile phone, panel computer etc. certainly。

In the embodiment of the present invention, as described in the previous embodiment, the first amount of solution may be considered the amount of solution consumed, and when container mat is plate mat, container is water tumbler accordingly, and the solution held in water tumbler is the amount that user drinks up。The water yield and the corresponding time user drunk up each time form the first list, it is possible to allow user recognize the period that user drinks water every time and the amount drunk water of correspondence。

The technical scheme that the embodiment of the present invention provides can be also used for following scene, the method that the embodiment of the present invention provides can apply in hospital, the amount of drinking water of such as patient every day in monitoring hospital after surgery, at this moment, described second equipment can be a computer in hospital, amount and the corresponding time that can patient be drunk water in every day in the embodiment of the present invention are sent to the second equipment, doctor can recognize the situation of drinking water of every day from the second equipment, thus providing suggestion to patient very targetedly, therefore, nurse can be dispensed and inquire situation about drinking water to patient every day heavyly。

In the embodiment of the present invention, described method also includes:

Step 510-1, the total amount of the first amount of solution in statistics preset time period；

Step 511-2, is uploaded to the total amount of described first amount of solution the second equipment, or exports to user by the total amount of the first amount of solution, in order to user understands minimizing amount or the increase amount of solution in container。

In the embodiment of the present invention, described method also includes:

Step 510-2, the total amount of the second amount of solution in statistics preset time period；

Step 511-2, is uploaded to the total amount of the second amount of solution the second equipment, or exports to user by the total amount of the second amount of solution, in order to user understands minimizing amount or the increase amount of solution in container。

In the embodiment of the present invention, described method also includes:

Step 510-3, the total amount of the first amount of solution and the total amount of the second amount of solution in the described preset time period of statistics in statistics preset time period；

Step 511-2, is uploaded to the total amount of the total amount of described first amount of solution and the second amount of solution the second equipment, or exports to user by the total amount of the first amount of solution and the total amount of the second amount of solution, in order to user understands minimizing amount or the increase amount of solution in container。

In above-described embodiment, described preset time period can be one day namely 24 hours, for instance from 0: 00: 00 on the same day start to the same day 23 time 59 minutes 59 seconds；Described preset time period also thinks point in morning 5 to morning 10。Preset time period can be arranged voluntarily by user, certainly can also be configured by the production firm of container mat, user setup, during the time period added up, container mat can with a display unit, such as the display unit of touch, such user can input the time period oneself thinking statistics；Certain container mat can not also have display unit, and as shown in Fig. 5-2, user can install an application software on user terminal such as mobile phone, and this application software is properly termed as client, and user can arrange the time period oneself thinking statistics on the client；In addition, user can also arrange age, sex and drinking-water target by this client, after user setup complete age, sex and drinking-water target, these parameters will be transferred to container mat by this client, then container mat can determine whether out drinking water the period of user, thus when the period of drinking water arrives, reminding user to drink water。Certain client can also determine the drinking-water period according to age, sex and drinking-water target, thus the drinking-water period is sent to container mat, container mat is thus need not self calculate, it is only necessary to remind user to drink water according to the period。User can also check historical data on the client, and this historical data can be the first list in the embodiment of the present invention and the second list in embodiment six。

Embodiment six

Fig. 6 be the embodiment of the present invention six determine the method for solution state in container realize schematic flow sheet, as shown in Figure 6, the method includes:

Step 601, obtains the first state residing for described container mat in the T1 period；

Step 602, it is judged that whether described first state meets pre-conditioned, obtains the first judged result；

Step 603, when described first judged result shows that described first state meets pre-conditioned, obtains, in the T2 period, the first pressure that described container mat bears；

Step 604, obtains the second pressure born at container mat described in the T3 period；

Step 605, determines the volume change of solution in described container according to described first pressure and described second pressure；

Step 606, obtains the heat conductivity k of the temperature of container bottom, room temperature and described container；

Step 607, the heat conductivity k according to the temperature of described room temperature and described container mat and container, it is determined that the temperature of held solution in described container；

Here, in step 607, it is assumed that room temperature is T0, the temperature assuming container mat is T1, removes interference after filtering, uses T0 to compensate T1 thus estimating the temperature of chamber wall, then referring to the heat conductivity k of container material, the temperature T of solution in container can be estimated according to formula (2)。

T=f (k, T1+ λ | T1-T0 |)

T=T1-log (1+k) * λ | T1-T0 | (2)；

In formula (2), f () is the function preset, and the span of λ is between 1.0 to 1.1。

Step 608, according to the solution temperature determined, reminds the temperature that user drinks water。

Above-mentioned step 606 to step 607 provides a kind of determines the method for the temperature of solution in container；Wherein, described step 608 includes:

Step 608-1, it is determined that when described temperature is more than the maximum of default temperature threshold scope, exports the first temperature information, and described first temperature information is for showing that temperature is higher than the maximum of temperature threshold scope；

Here, described default temperature threshold scope can be arranged voluntarily by user, the subscriber datas such as the age that can also be inputted by user, sex are determined, when being determined temperature threshold scope by subscriber data, a form can being pre-set, then passing through subscriber data enquiry form thus drawing temperature threshold scope。

Step 608-2, it is determined that when described temperature is within the scope of default temperature threshold, exports the second temperature information, and described second temperature information is for showing that temperature is within the scope of default temperature threshold；

Step 608-3, it is determined that during described temperature minima within the scope of default temperature threshold, exports the 3rd temperature information, and described 3rd temperature information is for showing the temperature minima less than described temperature threshold scope。

The technical scheme that the embodiment of the present invention provides, shown in Fig. 5-2, it is possible to use solution temperature is determined in the first temperature sensor and the second temperature sensor, thus when user drinks water, reminding whether the temperature that user drinks water is suitable for drinking。

In the embodiment of the present invention, comprise the following steps in step 605:

Step 605-1, it is judged that the magnitude relationship between described first pressure and described second pressure, obtains the second judged result；

Step 605-2, when described second judged result shows described second pressure less than described first pressure, then determines the first amount of solution according to described second pressure and described first pressure；

Step 605-3, when described second judged result shows described second pressure more than described first pressure, then determines the second amount of solution according to described second pressure and described first pressure；

Based on the first above-mentioned amount of solution and the second amount of solution, said method also includes:

Step 609, according to the first amount of solution, the first temperature and very first time information, forms the second list；

Here, described first temperature is the temperature corresponding to described first amount of solution, and described very first time information is the temporal information corresponding to described first amount of solution；

Step 610, is uploaded to described second list the second equipment, or exports to user by described second list, in order to user understands the minimizing amount of solution in container and the water temperature of correspondence。

Embodiment seven

Fig. 7-1 be the embodiment of the present invention seven determine the method for solution state in container realize schematic flow sheet, as shown in Fig. 7-1, the method includes:

Step 701, obtains the first state residing for described container mat in the T1 period；

Step 702, it is judged that whether described first state meets pre-conditioned, obtains the first judged result；

Step 703, when described first judged result shows that described first state meets pre-conditioned, obtains, in the T2 period, the first pressure and the first inclination angle theta 1 that described container mat bears；

Here, the described T2 period is different from the described T1 period, and the described T2 period is adjacent with the described T1 period and occurs after the described T1 period；Described first inclination angle theta 1 is the angle between T2 period container mat place plane and horizontal plane。

In the embodiment of the present invention, it is possible to obtain the first inclination angle theta 1 according to the acceleration of gravity that acceleration transducer senses；It should be noted that it is similar with obtaining the first inclination angle to obtain the second inclination angle, only describe how the first inclination angle obtains below。Owing to container from picking up container container mat or can be positioned on container mat by user, in picking up container or putting down the process of container, can cause that container mat rocks to some extent, this rocking also leads to plate mat and moves, namely plate mat displacement is thus producing acceleration, the data that the produced acceleration of plate mat displacement gathers on acceleration transducer show as high fdrequency component, in other words, the acceleration information that acceleration transducer gathers comprises some high fdrequency components, therefore, in embodiments of the present invention, first obtain the acceleration Xga in the X-axis of the first coordinate system, acceleration Yga in Y-axis and the acceleration Zga on Z axis, then low pass filter is adopted to filter out the high fdrequency component produced owing to rocking, then according to just obtaining in Y-axis in gravitational acceleration component Yg and X-axis gravitational acceleration component Zg on gravitational acceleration component Xg and Z axis after filtering, according to Yg, Xg and Zg can be obtained by the first inclination angle theta 1, specifically, the first inclination angle theta 1 can be determined according to equation below (3):

θ 1 = \arccos (\frac{Y_{g}}{\sqrt{X_{g}^{2} + Y_{g}^{2} + Z_{g}^{2}}}) - - - (3);

Wherein, subscript g is meant that the component of acceleration only produced by acceleration of gravity, and the implication of subscript ga is the component of acceleration that the acceleration sum produced by acceleration of gravity and object displacement produces。It should be noted that Y-axis has shown in following relation such as formula (4) between gravitational acceleration component Zg on gravitational acceleration component Xg and Z axis in gravitational acceleration component Yg, X-axis:

\sqrt{X_{g}^{2} + Y_{g}^{2} + Z_{g}^{2}} = 9.8 - - - (4);

Here, suppose that acceleration of gravity is 9.8 meter per second ^2 (m/s²), therefore, formula (3) can be deformed into formula (5):

θ 1=arccos (Y_g/ 9.8) (5)；

In the embodiment of the present invention, acceleration transducer is sensed acceleration when also having plate mat motion except acceleration of gravity。When determining the first inclination angle, it is necessary to produced for plate mat motion acceleration is filtered out, only retains gravitational acceleration component。

Step 704, is modified to P1 ' according to P1 '=P1/cos θ 1 by described first pressure P 1；

Step 705, obtains the second pressure and the second inclination angle theta 2 that bear at container mat described in the T3 period；

Here, the described T3 period is adjacent with the described T1 period and described T3 period is before the described T1 period；The pressure that the pressure that described container mat bears when the described T1 period bears from the described container mat when the described T2 period is different, and the pressure that the pressure that described container mat bears when the described T1 period bears from the described container mat when the described T3 period is different；Described second inclination angle is the angle when the T3 period between described container mat place plane and horizontal plane

Step 706, is modified to P2 ' according to P2 '=P2/cos θ 2 by described second pressure P 2；

Step 707, determines the volume change of solution in described container according to revised first pressure and revised second pressure。

The technical scheme that the embodiment of the present invention provides, can overcome in prior art and measure inaccurate defect, because prior art mostly only uses pressure transducer when Dosing Solution amount, carried out the metering drunk water by the change of pressure, can not measure accurately so in some conditions；Such as when mobile plate mat (as pick up, put down) can cause erroneous metrology；Metering on non-horizontal desktop can be less than normal than actual value。And the technical scheme that the embodiment of the present invention provides combines the metering that carries out drinking water by pressure transducer and acceleration transducer, as shown in Fig. 7-2, the technical scheme that the embodiment of the present invention provides, identify whether container mat is in blank state S0 by calculating three axle quadratic sum TFA of acceleration, when container mat is in blank state S0, acceleration is filtered out by low pass filter, the acceleration produced owing to user causes container mat to move when picking up container or putting down container, the angle of first direction and acceleration of gravity direction is obtained by low pass filter, wherein first direction is the direction perpendicular with container mat。The technical scheme that the embodiment of the present invention provides also will obtain different twice pressure, then utilize above-mentioned angle that different twice pressure is modified, last utilizing the situation of change of solution in revised twice pressure real time measure container, by the correction to pressure in the embodiment of the present invention, it is possible to overcome and prior art is measured inaccurate caused defect。

Embodiment eight

Based on above-mentioned embodiment of the method, the embodiment of the present invention provides a kind of and determines the device of solution state in container, described container is positioned on container mat, Fig. 8 is the composition structural representation that the embodiment of the present invention eight determines the device of solution state in container, as shown in Figure 8, this determines that the device 800 of solution state in container includes first acquiring unit the 801, first judging unit 802, second acquisition unit the 803, the 3rd acquiring unit 804 and first determines unit 805, wherein:

Described first acquiring unit 801, for obtaining the first state residing for described container mat in the T1 period；

Described first judging unit 802, is used for judging whether described first state meets pre-conditioned, obtains the first judged result；

Described second acquisition unit 803, for when described first judged result shows that described first state meets pre-conditioned, obtaining, in the T2 period, the first pressure that described container mat bears, the described T2 period is adjacent with the described T1 period and occurs after the described T1 period；

Described 3rd acquiring unit 804, for obtaining the second pressure born at container mat described in the T3 period, the described T3 period is adjacent with the described T1 period and described T3 period is before the described T1 period；

Here, the pressure that the pressure that described container mat bears when the described T1 period bears from the described container mat when the described T2 period is different, and the pressure that the pressure that described container mat bears when the described T1 period bears from the described container mat when the described T3 period is different；

Described first determines unit 805, for determining the volume change of solution in described container according to described first pressure and described second pressure。

In the embodiment of the present invention, described first acquiring unit, in the T1 period, obtaining the initial pressure that described container mat bears；

Accordingly, the first judging unit, for judging the magnitude relationship between described initial pressure and default pressure threshold, obtain the first judged result；

Accordingly, described first judged result shows that described first state meets pre-conditioned, including: described first judged result shows that described initial pressure is less than described pressure threshold。

In the embodiment of the present invention, described first acquiring unit includes the first acquisition module, decomposing module and first determines module, wherein:

Described first acquisition module, in the T1 period, obtaining the acceleration of described container mat；

Described decomposing module, for the X-axis decomposed under the first coordinate by described acceleration, Y-axis and three directions of Z axis, obtains the acceleration of X-axis, Y-axis and Z axis；

Described first determines module, determines acceleration quadratic sum TFA for the acceleration according to described X-axis, Y-axis and Z axis；

Accordingly, described first judging unit, for judging the magnitude relationship between described acceleration quadratic sum TFA and default acceleration rate threshold, obtain the first judged result；

Accordingly, described first judged result shows that described first state meets pre-conditioned, including: described first judged result shows that described acceleration quadratic sum TFA is less than described acceleration rate threshold。

In the embodiment of the present invention, described device also includes amending unit, and described amending unit includes the second acquisition module and correcting module, wherein:

Described second acquisition module, in the T2 period, obtaining the first inclination angle theta 1 of described container mat, described first inclination angle is the angle between T2 period container mat place plane and horizontal plane；

Described correcting module, for being modified to P1 ' according to P1 '=P1/cos θ 1 by described first pressure P 1；

Described second acquisition module, is additionally operable to obtain the second inclination angle theta 2 of described container mat when the T3 period, and described second inclination angle is the angle when the T3 period between described container mat place plane and horizontal plane；

Described correcting module, is additionally operable to, according to P2 '=P2/cos θ 2, described second pressure P 2 is modified to P2 '。

In the embodiment of the present invention, described first determines that unit includes the first judge module and the 3rd and determines module, wherein:

Described first judge module, for judging the magnitude relationship between described first pressure and described second pressure, obtains the second judged result；

Described 3rd determines module, for when described second judged result shows described second pressure less than described first pressure, then determine that the first amount of solution, described first amount of solution are the amount of solution reduced in this container according to described second pressure and described first pressure。

In the embodiment of the present invention, described first determines that unit also includes the 4th and determines module, for when described second judged result shows described second pressure more than described first pressure, then determine that the second amount of solution, described second amount of solution are the amount of solution increased in this container according to described second pressure and described first pressure。

In the embodiment of the present invention, described device also includes forming unit and processing unit, wherein:

Described formation unit, for according to the first amount of solution and very first time information, forming the first list；Described very first time information is the temporal information corresponding to described first amount of solution；

Described processing unit, for described first list is uploaded to the second equipment, or exports to user by described first list, in order to user understands the minimizing amount of solution in container and corresponding temporal information。

In the embodiment of the present invention, described device also includes statistic unit, for adding up the total amount of the first amount of solution in preset time period；And/or the total amount of the second amount of solution in statistics preset time period；

Described processing unit, it is additionally operable to the total amount of described first amount of solution and/or the total amount of the second amount of solution are uploaded to the second equipment, or the total amount of the total amount of the first amount of solution and/or the second amount of solution is exported to user, in order to user understands minimizing amount or the increase amount of solution in container。

In the embodiment of the present invention, described device also includes the 4th acquiring unit, second determines unit and output unit, wherein:

Described 4th acquiring unit, for obtaining the heat conductivity k of the temperature of container bottom, room temperature and described container；

Described second determines unit, for the heat conductivity k of the temperature according to described room temperature and described container mat and container, it is determined that the temperature of held solution in described container；

Described output unit, during for determining described temperature more than the maximum of default temperature threshold scope, exports the first temperature information, and described first temperature information is for showing that temperature is higher than the maximum of temperature threshold scope；

Described output unit, is additionally operable to determine when described temperature is within the scope of default temperature threshold, exports the second temperature information, and described second temperature information is for showing that temperature is within the scope of default temperature threshold；

Described output unit, when being additionally operable to determine described temperature minima within the scope of default temperature threshold, exports the 3rd temperature information, and described 3rd temperature information is for showing the temperature minima less than described temperature threshold scope。

In the embodiment of the present invention, described formation unit, it is additionally operable to, according to the first amount of solution, the first temperature and very first time information, form the second list；

Described processing unit, is additionally operable to be uploaded to described second list the second equipment, or exports to user by described second list, in order to user understands the minimizing amount of solution in container and corresponding temporal information and temperature。

It need to be noted that: the description of apparatus above embodiment item, it is similar for describing with said method, describes with the beneficial effect of method, does not repeat。For the ins and outs not disclosed in apparatus of the present invention embodiment, refer to the description of the inventive method embodiment。

In several embodiments provided herein, it should be understood that disclosed equipment and method, it is possible to realize by another way。Apparatus embodiments described above is merely schematic, such as, the division of described unit, it is only a kind of logic function to divide, actual can have other dividing mode when realizing, and as: multiple unit or assembly can be in conjunction with, or is desirably integrated into another system, or some features can ignore, or do not perform。It addition, the coupling each other of shown or discussed each ingredient or direct-coupling or communication connection can be through INDIRECT COUPLING or the communication connection of some interfaces, equipment or unit, it is possible to be electrical, machinery or other form。

The above-mentioned unit illustrated as separating component can be or may not be physically separate, and the parts shown as unit can be or may not be physical location；Both may be located at a place, it is also possible to be distributed on multiple NE；Part or all of unit therein can be selected according to the actual needs to realize the purpose of the present embodiment scheme。

It addition, each functional unit in various embodiments of the present invention can be fully integrated in a processing unit, it is also possible to be that each unit is individually as a unit, it is also possible to two or more unit are integrated in a unit；Above-mentioned integrated unit both can adopt the form of hardware to realize, it would however also be possible to employ hardware adds the form of SFU software functional unit and realizes。

One of ordinary skill in the art will appreciate that: all or part of step realizing said method embodiment can be completed by the hardware that programmed instruction is relevant, aforesaid program can be stored in computer read/write memory medium, this program upon execution, performs to include the step of said method embodiment；And aforesaid storage medium includes: the various media that can store program code such as movable storage device, read only memory (ReadOnlyMemory, ROM), magnetic disc or CDs。

Or, if the above-mentioned integrated unit of the present invention realizes using the form of software function module and as independent production marketing or when using, it is also possible to be stored in a computer read/write memory medium。Based on such understanding, the part that prior art is contributed by the technical scheme of the embodiment of the present invention substantially in other words can embody with the form of software product, this computer software product is stored in a storage medium, including some instructions with so that a computer equipment (can be personal computer, server or the network equipment etc.) performs all or part of of method described in each embodiment of the present invention。And aforesaid storage medium includes: the various media that can store program code such as movable storage device, ROM, magnetic disc or CDs。

The above; being only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, any those familiar with the art is in the technical scope that the invention discloses; change can be readily occurred in or replace, all should be encompassed within protection scope of the present invention。Therefore, protection scope of the present invention should be as the criterion with described scope of the claims。

Claims

1. determine the method for solution state in container for one kind, it is characterised in that described container is positioned on container mat, and described method includes:

2. method according to claim 1, it is characterised in that described the first state obtained in the T1 period residing for described container mat, including:

In the T1 period, obtain the initial pressure that described container mat bears；

Accordingly, described judge whether described first state meets pre-conditioned, obtain the first judged result, including:

Judge the magnitude relationship between described initial pressure and default pressure threshold, obtain the first judged result；

Accordingly, described first judged result shows that described first state meets pre-conditioned, including:

Described first judged result shows that described initial pressure is less than described pressure threshold。

3. method according to claim 1, it is characterised in that described the first state obtained in the T1 period residing for described container mat, including:

In the T1 period, obtain the acceleration of described container mat；

On X-axis, Y-axis and three directions of Z axis decomposed under the first coordinate by described acceleration, obtain the acceleration of X-axis, Y-axis and Z axis；

Acceleration according to described X-axis, Y-axis and Z axis determines acceleration quadratic sum TFA；

Judge the magnitude relationship between described acceleration quadratic sum TFA and default acceleration rate threshold, obtain the first judged result；

Described first judged result shows that described acceleration quadratic sum TFA is less than described acceleration rate threshold。

4. method according to claim 1, it is characterised in that described method also includes:

Revise described first pressure P 1, specifically,

In the T2 period, obtaining the first inclination angle theta 1 of described container mat, described first inclination angle theta 1 is the angle between T2 period container mat place plane and horizontal plane；

According to P1 '=P1/cos θ 1, described first pressure P 1 is modified to P1 '；

Revise described second pressure, specifically,

Obtaining the second inclination angle theta 2 of described container mat when the T3 period, described second inclination angle theta 2 is the angle when the T3 period between described container mat place plane and horizontal plane；

According to P2 '=P2/cos θ 2, described second pressure P 2 is modified to P2 '。

5. the method according to any one of Claims 1-4, it is characterised in that described determine the volume change of solution in described container according to described first pressure and described second pressure, including:

Judge the magnitude relationship between described first pressure and described second pressure, obtain the second judged result；

When described second judged result shows described second pressure less than described first pressure, then determine that the first amount of solution, described first amount of solution are the amount of solution reduced in this container according to described second pressure and described first pressure。

6. method according to claim 5, it is characterised in that described determine the volume change of solution in described container according to described first pressure and described second pressure, including:

When described second judged result shows described second pressure more than described first pressure, then determine that the second amount of solution, described second amount of solution are the amount of solution increased in this container according to described second pressure and described first pressure。

7. method according to claim 5, it is characterised in that described method also includes:

Record the first amount of solution and very first time information, form the first list；Described very first time information is the temporal information corresponding to described first amount of solution；

Described first list is uploaded to the second equipment, or described first list is exported to user, in order to user understands the minimizing amount of solution in container。

8. method according to claim 5, it is characterised in that described method also includes:

The total amount of the first amount of solution in statistics preset time period；And/or, the total amount of the second amount of solution in statistics preset time period；

The total amount of the total amount of described first amount of solution and/or the second amount of solution is uploaded to the second equipment, or the total amount of the first amount of solution and/or the total amount of the second amount of solution are exported to user, in order to user understands minimizing amount or the increase amount of solution in container。

9. the method according to any one of Claims 1-4, it is characterised in that described method also includes:

Obtain the heat conductivity k of the temperature of container bottom, room temperature and described container；

Temperature according to described room temperature and described container mat and the heat conductivity k of container, it is determined that the temperature of held solution in described container；

When determining described temperature more than the maximum of default temperature threshold scope, exporting the first temperature information, described first temperature information is for showing that temperature is higher than the maximum of temperature threshold scope；

Determining when described temperature is within the scope of default temperature threshold, export the second temperature information, described second temperature information is for showing that temperature is within the scope of default temperature threshold；

When determining described temperature minima within the scope of default temperature threshold, exporting the 3rd temperature information, described 3rd temperature information is for showing the temperature minima less than described temperature threshold scope。

10. method according to claim 9, it is characterised in that described method also includes:

According to the first amount of solution, the first temperature and very first time information, form the second list；Described first temperature is the temperature corresponding to described first amount of solution, and described very first time information is the temporal information corresponding to described first amount of solution；

Described second list is uploaded to the second equipment, or described second list is exported to user, in order to user understands the minimizing amount of solution in container。

11. one kind is determined the device of solution state in container, it is characterised in that described container is positioned on container mat, described device includes the first acquiring unit, the first judging unit, second acquisition unit, the 3rd acquiring unit and first determine unit, wherein:

12. device according to claim 11, it is characterised in that described first acquiring unit, in the T1 period, obtaining the initial pressure that described container mat bears；

13. device according to claim 11, it is characterised in that described first acquiring unit includes the first acquisition module, decomposing module and first determines module, wherein:

14. device according to claim 11, it is characterised in that described device also includes amending unit, and described amending unit includes the second acquisition module and correcting module, wherein:

15. according to the device described in any one of claim 11 to 14, it is characterised in that described first determines that unit includes the first judge module and the 3rd and determines module, wherein:

16. device according to claim 15, it is characterized in that, described first determines that unit also includes the 4th and determines module, for when described second judged result shows described second pressure more than described first pressure, then determine that the second amount of solution, described second amount of solution are the amount of solution increased in this container according to described second pressure and described first pressure。

17. device according to claim 15, it is characterised in that described device also includes forming unit and processing unit, wherein:

18. device according to claim 15, it is characterised in that described device also includes statistic unit, for adding up the total amount of the first amount of solution in preset time period；And/or, the total amount of the second amount of solution in statistics preset time period；

19. according to the device described in any one of claim 11 to 14, it is characterised in that described device also includes the 4th acquiring unit, second determines unit and output unit, wherein:

20. device according to claim 19, it is characterised in that described formation unit, it is additionally operable to, according to the first amount of solution, the first temperature and very first time information, form the second list；Described first temperature is the temperature corresponding to described first amount of solution, and described very first time information is the temporal information corresponding to described first amount of solution；

21. a container mat, described container mat is used for placing container, it is characterised in that described container pad attached bag draws together container cushion body, the first temperature sensor, the second temperature sensor, pressure transducer, acceleration transducer and processor, wherein:

22. container mat according to claim 21, it is characterized in that, the upper surface of described container cushion body includes first area and second area, described first area is and the region contacted at the bottom of the cup of the container being positioned in described container cushion body, and described second area is the region in described container cushion body except described first area；

Described first temperature sensor, pressure transducer and acceleration transducer, be arranged in the orthographic projection region of described first area；Described second temperature sensor and described temperature sensor are arranged in the orthographic projection region of described second area。

23. the container mat according to claim 21 or 22, it is characterised in that described container is cup, described container mat is plate mat。