CN105763656A - Smoke monitoring method, moxibustion container and terminal - Google Patents

Abstract

The embodiment of the invention provides a smoke monitoring method, a moxibustion container and a terminal, and relates to the technical field of the Internet of things. According to the smoke monitoring method, the smoke amount generated during moxibustion can be determined for a user, so that the user achieves safety protection and heath management. The method comprises the steps that smoke data output by the moxibustion container during at least one time of moxibustion is acquired and used for indicating the smoke amount generated in the moxibustion container; health management information is generated according to the smoke data output by the moxibustion container during at least one time of moxibustion and used for sending out a health tip related to the smoke amount to the user. The smoke monitoring method can be applied to the moxibustion process.

Description

A kind of smog monitoring method, moxa-moxibustion container and terminal

Technical field

The present invention relates to technology of Internet of things field, particularly relate to a kind of smog monitoring method, moxibustion bag and terminal.

Background technology

Moxaburner device is the medical apparatus and instruments adopting the mode of burning moxa roll that human body specific part carries out moxa-moxibustion.When moxa-moxibustion, Folium Artemisiae Argyi imperfect combustion can produce substantial amounts of smog, after the smog produced when user too much sucks moxa-moxibustion, can the health of user be worked the mischief.

To this, a moxibustion bag with adsorption function can be overlapped outside moxaburner device, i.e. moxa-moxibustion container, can to moxa-moxibustion time produce smog be filtered, but, this method can only the smog of filter some amount, when smog is excessive or user sucks smog for a long time, still the health of user can be worked the mischief, and, easily cause the condition of a fire during Folium Artemisiae Argyi vigorous combustion, cause potential safety hazard.

Summary of the invention

Embodiments of the invention provide a kind of smog monitoring method, moxa-moxibustion container and terminal, it is possible to the amount of smoke produced when determining moxa-moxibustion for user, in order to user carries out safety precaution and health control.

For reaching above-mentioned purpose, embodiments of the invention adopt the following technical scheme that

On the one hand, embodiments of the invention provide a kind of smog monitoring method, including: obtaining the smoke data of moxa-moxibustion container output during moxa-moxibustion at least one times, described smoke data is for indicating the amount of smoke produced in described moxa-moxibustion container；During according to described moxa-moxibustion at least one times, the smoke data of moxa-moxibustion container output, generates health management information, and described health management information is for issuing the user with the health prompt relevant to described amount of smoke.

Further, the Real-time Smoke data that described smoke data produces when being this moxa-moxibustion of described user；Wherein, during according to described moxa-moxibustion at least one times, the smoke data of moxa-moxibustion container output, generates health management information, including: if the amount of smoke indicated by described Real-time Smoke data is more than default smog threshold value, then generate warning instruction for described user.

Further, when obtaining moxa-moxibustion at least one times after the smoke data of moxa-moxibustion container output, also include: record obtains the moment of described Real-time Smoke data；By described Real-time Smoke data and the moment obtaining described Real-time Smoke data, preserve as history smoke data.

Further, the Real-time Smoke data produced when described smoke data is n times moxa-moxibustion in described user at the appointed time section, N is the integer more than 1；Wherein, during according to described moxa-moxibustion at least one times, the smoke data of moxa-moxibustion container output, generates health management information, including: the Real-time Smoke data produced during according to described n times moxa-moxibustion, it was predicted that described user is in the described smoke inhalation amount specified in the time period；If described smoke inhalation amount is more than default smoke inhalation threshold value, then generate health control strategy for described user.

Further, obtain the smoke data of moxa-moxibustion container output during moxa-moxibustion at least one times, including: obtaining the current amount of smoke characterization information that the Smoke Sensor in described moxa-moxibustion container generates, described current amount of smoke characterization information is for characterizing the amount of smoke produced in presently described moxa-moxibustion container；According to the variation relation between the amount of smoke characterization information and the amount of smoke that prestore, amount of smoke corresponding for described current amount of smoke characterization information is defined as described smoke data.

On the other hand, embodiments of the invention provide a kind of terminal, including: acquiring unit, for the smoke data exported from moxa-moxibustion container when obtaining moxa-moxibustion at least one times, described smoke data is for indicating the amount of smoke produced in described moxa-moxibustion container；Decision package, for the smoke data of moxa-moxibustion container output during according to described moxa-moxibustion at least one times, generates health management information, and described health management information is for issuing the user with the health prompt relevant to described amount of smoke.

Further, the Real-time Smoke data that described smoke data produces when being this moxa-moxibustion of described user；Wherein, described decision package, if specifically for the amount of smoke indicated by described Real-time Smoke data more than default smog threshold value, then generate warning instruction for described user.

Further, described terminal also includes: record unit, for recording the moment obtaining described Real-time Smoke data；Storage unit, for by described Real-time Smoke data and the moment obtaining described Real-time Smoke data, preserving as history smoke data.

Further, the Real-time Smoke data produced when described smoke data is n times moxa-moxibustion in described user at the appointed time section, N is the integer more than 1；Wherein, described decision package, specifically for: the Real-time Smoke data produced during according to described n times moxa-moxibustion, it was predicted that described user is in the described smoke inhalation amount specified in the time period；If described smoke inhalation amount is more than default smoke inhalation threshold value, then generate health control strategy for described user.

Further, described acquiring unit, specifically for: obtaining the current amount of smoke characterization information that the Smoke Sensor in described moxa-moxibustion container generates, described current amount of smoke characterization information is for characterizing the amount of smoke produced in presently described moxa-moxibustion container；According to the variation relation between the amount of smoke characterization information and the amount of smoke that prestore, amount of smoke corresponding for described current amount of smoke characterization information is defined as described smoke data.

On the other hand, embodiments of the invention provide a kind of moxa-moxibustion container, are used for being coated with moxaburner device, including:

Smoke Sensor, described Smoke Sensor is arranged on the inner side of described moxa-moxibustion container outer surface, for sensing the amount of smoke in described moxa-moxibustion container, to generate smoke data, described smoke data includes described amount of smoke or for characterizing the amount of smoke characterization information of described amount of smoke；

Output module, for exporting the described smoke data that described Smoke Sensor generates.

Further, described moxa-moxibustion container includes: patch skin layers and the cover body connected with described patch skin layers, is provided with described Smoke Sensor in described cover body.

Further, described cover body includes: thermal insulation layer, particulate filter and top layer, is provided with described Smoke Sensor between described particulate filter and described top layer.

Further, the making material of described thermal insulation layer is cotton, and the making material of described particulate filter is activated carbon, and the making material on described top layer is velvet.

Further, described patch skin layers includes moxa-moxibustion region and non-moxa-moxibustion region, and described moxa-moxibustion region constitutes cavity with the interlayer in described moxa-moxibustion container, and described cavity is for limiting the position that described moxaburner device is placed；Wherein, the making material in described moxa-moxibustion region is flaxen fiber, and the making material in described non-moxa-moxibustion region is velvet.

Further, one end of described moxa-moxibustion container is provided with elastic reducing-fixing band, and described elastic reducing-fixing band can be connected with the other end of described moxa-moxibustion container.

Embodiments of the invention provide a kind of smog monitoring method, moxa-moxibustion container and terminal, and wherein, terminal can obtain the smoke data of moxa-moxibustion container output, and this smoke data is for indicating the amount of smoke produced in moxa-moxibustion container；And then, the smoke data of moxa-moxibustion container output when terminal is according to above-mentioned moxa-moxibustion at least one times, generate health management information, this health management information is for issuing the user with the health prompt relevant to this amount of smoke, so that user carries out health control according to this health management information, such as change moxibustion column, reduce moxibustion time etc., can be seen that, the smog monitoring method that the embodiment of the present invention provides, mutual by terminal and moxa-moxibustion container, can be that user accurately determines the amount of smoke of generation during moxa-moxibustion, and generate, according to this amount of smoke, instruction of reporting to the police, so that user carries out safety precaution and health control.

Accompanying drawing explanation

Application scenarios schematic diagram during a kind of moxa-moxibustion that Fig. 1 provides for the embodiment of the present invention；

The mutual schematic diagram one of a kind of smog monitoring method that Fig. 2 provides for the embodiment of the present invention；

The mutual schematic diagram two of a kind of smog monitoring method that Fig. 3 provides for the embodiment of the present invention；

The schematic diagram of the history smoke data that the user that Fig. 4 provides for the embodiment of the present invention preserves in nearest month；

The structural representation one of a kind of moxa-moxibustion container that Fig. 5 provides for the embodiment of the present invention；

The structural representation two of a kind of moxa-moxibustion container that Fig. 6 provides for the embodiment of the present invention；

The structural representation three of a kind of moxa-moxibustion container that Fig. 7 provides for the embodiment of the present invention；

The structural representation of a kind of terminal that Fig. 8 provides for the embodiment of the present invention；

The structural representation of a kind of computer equipment that Fig. 9 provides for the embodiment of the present invention.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the present invention, rather than whole embodiments.

It addition, term " first ", " second " are only for descriptive purposes, and it is not intended that indicate or imply relative importance or the implicit quantity indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can express or implicitly include one or more these features.In describing the invention, except as otherwise noted, " multiple " are meant that two or more.

Embodiments of the invention provide a kind of smog monitoring method, can be applicable to application scenarios during moxa-moxibustion as shown in Figure 1, wherein, moxa-moxibustion container 02 is used for being coated with moxaburner device 03, user can be carried out moxa-moxibustion by the mode of the moxa roll that burns by moxaburner device 03, wherein, the inner side on moxa-moxibustion container 02 top layer is provided with Smoke Sensor, can be used for sensing the amount of smoke produced in moxa-moxibustion container 02 during moxa-moxibustion, to generate smoke data, this smoke data is specifically as follows above-mentioned amount of smoke, or, for being used for characterizing the amount of smoke characterization information of above-mentioned amount of smoke.

And terminal 01 can interact with moxa-moxibustion container 02, the amount of smoke produced when accurately determining moxa-moxibustion for user, and generate health management information according to this amount of smoke, this health management information is for issuing the user with the health prompt relevant to above-mentioned amount of smoke, such as, this health management information is specifically as follows warning instruction or health control strategy etc..

Concrete, based on the application scenarios shown in Fig. 1, embodiments of the invention provide a kind of smog monitoring method, as in figure 2 it is shown, include:

101, the moxa-moxibustion container amount of smoke by producing in Smoke Sensor detection moxa-moxibustion container, to generate smoke data.

102, terminal obtains the smoke data of moxa-moxibustion container output during moxa-moxibustion at least one times, and this smoke data is for indicating the amount of smoke produced in moxa-moxibustion container.

If 103 these amount of smoke are more than default smog threshold value, then terminal generates instruction of reporting to the police.

Concrete, in a step 101, when user's moxa-moxibustion, the moxa roll in moxaburner device can be lighted, and moxaburner device being placed in moxa-moxibustion container, in order to user moves this moxaburner device to corresponding acupuncture point place and carries out moxa-moxibustion, owing to being provided with Smoke Sensor in the top layer of moxa-moxibustion container, therefore, the amount of smoke that moxa-moxibustion container produces when can pass through moxa roll burning in this Smoke Sensor detection moxa-moxibustion container.

Exemplary, this Smoke Sensor is specifically as follows ion type smog sensor, under normal conditions, the electric current of the inside and outside ionization chamber in ion type smog sensor, voltage is all stable, the smog produced when moxa-moxibustion enters outer ionization chamber, the proper motion of the indoor charged particle of outer ionization can be disturbed, now, curtages in ion type smog sensor etc. can change for the amount of smoke characterization information characterizing amount of smoke, now, this amount of smoke characterization information can as above-mentioned smoke data, this smoke data can be sent to terminal by the output module of this Smoke Sensor.

Certainly, Smoke Sensor can also directly according to this amount of smoke characterization information, it is determined that the amount of smoke produced in moxa-moxibustion container, and this amount of smoke determined is sent directly to terminal, and this is not limited by the embodiment of the present invention.

In a step 102, owing in step 101, moxa-moxibustion container has generated smoke data, therefore, terminal can obtain, from moxa-moxibustion container, the smoke data that user generates when moxa-moxibustion at least one times.

Exemplary, as mentioned above, the smog produced when moxa-moxibustion enters outer ionization chamber, can disturb the proper motion of the indoor charged particle of outer ionization, now, current value in ion type smog sensor can change, now, this current value (i.e. present current value) can be sent to terminal by ion type smog sensor, then, amount of smoke corresponding for this present current value according to the variation relation between the current value prestored and amount of smoke, can be defined as this smoke data by terminal.

Such as, variation relation between the current value and the amount of smoke that prestore is specifically as follows: for positive correlation functional relationship between current value and amount of smoke, namely current value is more big, then amount of smoke is more many, so, according to this positive correlation functional relationship, terminal just can obtain the concrete value of the amount of smoke corresponding with present current value.

Need exist for illustrate be, in a step 102, when user carries out moxa-moxibustion each time, terminal can obtain the currently smoke data of moxa-moxibustion container output (namely during this moxa-moxibustion), now, the smoke data obtained during this this moxa-moxibustion is Real-time Smoke data, and subsequent terminal can continue executing with following step 103-108.

Or, terminal can also be at any time, the Real-time Smoke data produced when obtaining n times moxa-moxibustion in user's at the appointed time section from moxa-moxibustion container, such as, obtain the Real-time Smoke data produced each time when user amounted to 5 moxa-moxibustions in nearest month, now, terminal can according to this n times moxa-moxibustion got time produce Real-time Smoke data, it was predicted that user's smoke inhalation amount within the above-mentioned appointment time period；So, if the smoke inhalation amount doped is more than default smoke inhalation threshold value, then health control strategy is generated for user.Wherein, it was predicted that the smoke inhalation amount of user and the method for production health control strategy will elaborate in subsequent embodiment, so place repeats no more.

In step 103, the amount of smoke indicated by Real-time Smoke data obtained during above-mentioned this moxa-moxibustion of terminal judges and the magnitude relationship between default smog threshold value, if this amount of smoke is more than default smog threshold value, then illustrate that the smog that the moxaburner device in now moxa-moxibustion container produces is excessive, likely cause the condition of a fire or endanger the healthy of user, therefore, now terminal can generate warning instruction (namely this warning is designated as above-mentioned health management information), in order to user carries out health control according to warning instruction.

Such as, this warning instruction is specifically as follows word prompting, voice reminder or buzzing alarm lamp etc., and this is not limited by the embodiment of the present invention, for instance, user can arrange the concrete form of this warning instruction voluntarily.

After user obtains this warning instruction, namely know that the smog that the moxaburner device in now moxa-moxibustion container produces is excessive, so, user can perform to change moxibustion column, reduce the health control measure such as moxibustion time, and the excessive smoke impact produced during to avoid moxa-moxibustion is healthy.

It is understandable that, when moxa-moxibustion, Smoke Sensor can detect the amount of smoke produced in moxa-moxibustion container in real time, and terminal periodically can obtain above-mentioned Real-time Smoke data from moxa-moxibustion container, and then the amount of smoke produced when accurately determining moxa-moxibustion for user, and generating, according to this amount of smoke, instruction of reporting to the police, in order to user carries out safety precaution and health control.

Further, method is monitored based on the smog shown in Fig. 2, when the smoke data described in step 102, during the Real-time Smoke data produced during for this moxa-moxibustion of user, then after performing above-mentioned steps 101-102, as it is shown on figure 3, can also carry out following step 104-108.

104, terminal record obtains the moment of these Real-time Smoke data.

105, terminal is by these Real-time Smoke data and the moment obtaining these Real-time Smoke data, preserves as history smoke data.

106, terminal obtains the interior history smoke data preserved of at the appointed time section.

107, terminal is according to history smoke data, it was predicted that user's smoke inhalation amount within this appointment time period.

If 108 these smoke inhalation amounts are more than default smoke inhalation threshold value, then terminal generates health control strategy for user, and this health control strategy is for reducing the smoke inhalation amount of user.

Concrete, at step 104, after terminal gets Real-time Smoke data from moxa-moxibustion container, terminal can record the moment getting these Real-time Smoke data, for instance, the moment getting these Real-time Smoke data is 19: 10 on the 1st May in 2016.

Owing to when moxa-moxibustion, terminal can obtain current Real-time Smoke data from moxa-moxibustion container in real time, then, by recording the moment getting these Real-time Smoke data every time, just may determine that the duration of this moxa-moxibustion of user.

In step 105, Real-time Smoke data that step 102 is obtained by terminal and step 104 obtain the moment of these Real-time Smoke data, preserve as history smoke data, so, terminal just can record the time of each moxa-moxibustion of user, and the amount of smoke produced during each moxa-moxibustion, and user can also check the history smoke data of oneself at any time from terminal, thus the amount of smoke situation produced when fully understanding the time of oneself moxa-moxibustion and each moxa-moxibustion.

It should be noted that above-mentioned history smoke data can be preserved to the memorizer of terminal local by terminal, it is also possible to being preserved to the high in the clouds memorizer of user by this history smoke data, this is not intended to be limited in any by the embodiment of the present invention.

And then, in step 106, when the smog introduction volume forecast function arranged in user's triggering terminal, terminal can obtain the interior history smoke data preserved of at the appointed time section, for instance, obtain nearest one month interior history smoke data.

Exemplary, as described in Figure 4, for the history smoke data preserved in nearest one month of user, namely the time of moxa-moxibustion is carried out in nearest one month, and the amount of smoke produced during each moxa-moxibustion, so, terminal just can count, according to these history smoke data, the amount of smoke produced altogether in the above-mentioned appointment time period.

But, the smog produced during due to moxa-moxibustion can disseminate with certain speed in atmosphere, the amount of smoke that the above-mentioned appointment time period produces altogether, and it is not equal to the amount of smoke that user really sucks, therefore, in step 107, terminal can according to above-mentioned history smoke data, it was predicted that user's smoke inhalation amount within the above-mentioned appointment time period.

Such as, terminal can first according to the history smoke data obtained in step 106, statistics specifies the amount of smoke of time period generation altogether, and then by the part in the amount of smoke of generation altogether, such as, in the amount of smoke produced altogether 20%, it was predicted that for user's smoke inhalation amount within the above-mentioned appointment time period.

Or, terminal can disseminate speed according to smog, amount of smoke in conjunction with a certain moment in history smoke data, the amount of smoke that prediction user sucked in this moment, and then obtain the amount of smoke that each moment user sucks within the above-mentioned appointment time period, by each moment user suck amount of smoke be added, just measurable go out user's smoke inhalation amount within the above-mentioned appointment time period.

So, if this smoke inhalation amount of prediction is more than default smoke inhalation threshold value in step 107, then illustrate that the smoke inhalation amount that user sucks has exceeded the human body manageable amount of its purification ability, now, similar with step 103, terminal can generate warning instruction, in order to user carries out health control according to this warning instruction.

Or, as described in step 108, terminal directly can generate health control strategy for user, this health control strategy is for reducing the smoke inhalation amount of user, such as, this health control strategy can be reduce moxa-moxibustion number of times or time, the edible food etc. with dustproof function, to help user to reduce smoke inhalation amount.

So far, embodiments of the invention provide a kind of smog monitoring method, and wherein, terminal can obtain the smoke data of moxa-moxibustion container output, and this smoke data is for indicating the amount of smoke produced in moxa-moxibustion container；And then, the smoke data of moxa-moxibustion container output when terminal is according to above-mentioned moxa-moxibustion at least one times, generate health management information, this health management information is for issuing the user with the health prompt relevant to this amount of smoke, so that user carries out health control according to this health management information, such as change moxibustion column, reduce moxibustion time etc., can be seen that, the smog monitoring method that the embodiment of the present invention provides, mutual by terminal and moxa-moxibustion container, can be that user accurately determines the amount of smoke of generation during moxa-moxibustion, and generate, according to this amount of smoke, instruction of reporting to the police, so that user carries out safety precaution and health control.

The structural representation of a kind of moxa-moxibustion container 02 that Fig. 5 provides for the embodiment of the present invention, the moxa-moxibustion container 02 that the embodiment of the present invention provides may be used for implementing the method that the various embodiments of the present invention shown in above-mentioned Fig. 1-Fig. 3 realize, for the ease of explanation, illustrate only the part relevant to the embodiment of the present invention, concrete ins and outs do not disclose, and refer to the various embodiments of the present invention shown in Fig. 1-Fig. 3.

Wherein, as it is shown in figure 5, moxa-moxibustion container 02 can be used for being coated with moxaburner device 03, moxa-moxibustion container 02 includes output module (not shown) and the Smoke Sensor 11 that the inner side of moxa-moxibustion container 02 outer surface is arranged.

Wherein, Smoke Sensor 11, for sensing the amount of smoke in described moxa-moxibustion container 02, to generate smoke data, described smoke data includes described amount of smoke or for characterizing the amount of smoke characterization information of described amount of smoke；Output module, for exporting the described smoke data that described Smoke Sensor generates.

Further, as shown in Figure 6, described moxa-moxibustion container 02 includes: patch skin layers 200 and the cover body 100 connected with described patch skin layers 200, is provided with described Smoke Sensor 11 in described cover body 100.

Concrete, described cover body 100 includes: thermal insulation layer 12, particulate filter 13 and top layer 14, is provided with described Smoke Sensor 11 between described particulate filter 13 and described top layer 14.

Wherein, the making material of described thermal insulation layer 12 is cotton, the making material of described particulate filter 13 is activated carbon, it is possible to dust granules in filter smoke and Folium Artemisiae Argyi oil molecule, and the activated carbon in this particulate filter 13 can periodic replacement, the making material on described top layer 14 is velvet, due to velvet good permeability, and poor thermal conductivity, therefore, when moxa-moxibustion can be slowed down in top layer 14, heat distributes the speed in air, strengthens moxa-moxibustion effect.

Additionally, the position at meeting moxaburner device 03 top can be made to produce high temperature during due to use moxaburner device 03, the sensitivity of Smoke Sensor 11 may be affected when temperature is too high, therefore, for ensureing the sensitivity of mist sensor 11, it is possible to Smoke Sensor 11 to be arranged on the edge at moxaburner device 03 top.

Further, still as shown in Figure 6, described patch skin layers 200 includes territory, moxa-moxibustion district 21 and non-moxa-moxibustion region 22, and described moxa-moxibustion region 21 constitutes cavity with the interlayer 23 in described moxa-moxibustion container 02, and described cavity is for limiting the position that described moxaburner device 03 is placed.

Wherein, the making material in described moxa-moxibustion region 21 can be flaxen fiber, is conducive to heat to conduct, and the making material in described non-moxa-moxibustion region 22 can be velvet.

It addition, moxa-moxibustion container 02 can also arrange slide fastener, so, moxaburner device 03 or the activated carbon of displacement particulate filter 13 can be placed after being pulled open by slide fastener, and after slide fastener drawing, form the cavity for placing moxaburner device 03.

Further, as it is shown in fig. 7, one end of moxa-moxibustion container 02 is provided with elastic reducing-fixing band 24, described elastic reducing-fixing band 24 can be fixed with the other end of described moxa-moxibustion container 02, to regulate the moxa-moxibustion position of moxaburner device 03 in moxa-moxibustion container 02.

For example, it is possible to by modes such as stickup, snap closes, the other end of elastic reducing-fixing band 24 with moxa-moxibustion container 02 is fixed, facilitates user to wear, and regulate the moxa-moxibustion position of moxaburner device 03 in moxa-moxibustion container 02.

Further, the structural representation of a kind of terminal 01 that Fig. 8 provides for the embodiment of the present invention, the terminal 01 that the embodiment of the present invention provides may be used for implementing the method that the various embodiments of the present invention shown in above-mentioned Fig. 1-Fig. 3 realize, for the ease of explanation, illustrate only the part relevant to the embodiment of the present invention, concrete ins and outs do not disclose, and refer to the various embodiments of the present invention shown in Fig. 1-Fig. 3.

Wherein, described terminal 01 is specifically as follows the equipment such as mobile phone, panel computer, PC, and this is not limited by the embodiment of the present invention.

Concrete, as shown in Figure 8, terminal 01 includes:

Acquiring unit 31, for the smoke data exported from moxa-moxibustion container when obtaining moxa-moxibustion at least one times, described smoke data is for indicating the amount of smoke produced in described moxa-moxibustion container；

Decision package 32, for the smoke data of moxa-moxibustion container output during according to described moxa-moxibustion at least one times, generates health management information, and described health management information is for issuing the user with the health prompt relevant to described amount of smoke.

Further, the Real-time Smoke data that described smoke data produces when being this moxa-moxibustion of described user；Wherein, described decision package 32, if specifically for the amount of smoke indicated by described Real-time Smoke data more than default smog threshold value, then generate warning instruction for described user.

Further, still as shown in Figure 8, described terminal 01 also includes:

Record unit 33, for recording the moment obtaining described Real-time Smoke data；

Storage unit 34, for by described Real-time Smoke data and the moment obtaining described Real-time Smoke data, preserving as history smoke data.

Or, the Real-time Smoke data produced when described smoke data is n times moxa-moxibustion in described user at the appointed time section, N is the integer more than 1；Wherein, described decision package 32, specifically for: the Real-time Smoke data produced during according to described n times moxa-moxibustion, it was predicted that described user is in the described smoke inhalation amount specified in the time period；If described smoke inhalation amount is more than default smoke inhalation threshold value, then generate health control strategy for described user.

Further, described acquiring unit 31, specifically for: obtaining the current amount of smoke characterization information that the Smoke Sensor in described moxa-moxibustion container generates, described current amount of smoke characterization information is for characterizing the amount of smoke produced in presently described moxa-moxibustion container；According to the variation relation between the amount of smoke characterization information and the amount of smoke that prestore, amount of smoke corresponding for described current amount of smoke characterization information is defined as described smoke data.

Exemplary, as it is shown in figure 9, the terminal 01 in Fig. 8 can realize in the way of the computer equipment (or system) in Fig. 9.

Fig. 9 show the computer equipment schematic diagram that the embodiment of the present invention provides.Computer equipment 100 includes at least one processor 41, communication bus 42, memorizer 43 and at least one communication interface 44.

Wherein, the function of above-mentioned acquiring unit 31 can the communication interface 44 shown in Fig. 9 realize；The function of above-mentioned decision package 32 can realize by the processor 41 shown in Fig. 9；The function of above-mentioned record unit 33 and storage unit 34 can realize by the memorizer 43 shown in Fig. 9.

Concrete, processor 41 can be a general central processor (CPU), microprocessor, ASIC (application-specificintegratedcircuit, ASIC), or one or more for control the present invention program program perform integrated circuit.

Communication bus 42 can include a path, transmits information between said modules.Described communication interface 44, uses the device of any transceiver one class, is used for and other equipment or communication, such as Ethernet, wireless access network (RAN), WLAN (WirelessLocalAreaNetworks, WLAN) etc..

nullMemorizer 43 can be read only memory (read-onlymemory，ROM) the other kinds of static storage device of static information and instruction can maybe be stored，Random access memory (randomaccessmemory，Or the other kinds of dynamic memory of information and instruction can be stored RAM)，Can also be EEPROM (ElectricallyErasableProgrammableRead-OnlyMemory，EEPROM)、Read-only optical disc (CompactDiscRead-OnlyMemory，Or other optical disc storage CD-ROM)、Laser disc storage (includes compression laser disc、Laser dish、Laser disc、Digital Versatile Disc、Blu-ray Disc etc.)、Magnetic disk storage medium or other magnetic storage apparatus、Or can be used in carrying or store the desired program code with instruction or data structure form can by any other medium of computer access，But it is not limited to this.Memorizer can be individually present, and is connected with processor by communication bus.Memorizer can also integrate with processor.

Wherein, described memorizer 43 is for storing the application code performing the present invention program, and is controlled to perform by processor 41.Described processor 41 is for performing the application code of storage in described memorizer 43.

In implementing, as a kind of embodiment, processor 41 can include one or more CPU, for instance CPU0 and the CPU1 in Fig. 9.

In implementing, as a kind of embodiment, computer equipment 100 can include multiple processor, for instance processor 41 in Fig. 9 and processor 48.Each in these processors can be monokaryon (single-CPU) processor, it is also possible to be multinuclear (multi-CPU) processor.Here processor can refer to one or more equipment, circuit and/or for processing the process core of data (such as computer program instructions).

In implementing, as a kind of embodiment, computer equipment 100 can also include outut device 45 and input equipment 46.Outut device 45 communicates with processor 41, it is possible to show information in many ways.Such as, outut device 45 can be liquid crystal display (liquidcrystaldisplay, LCD), Light-Emitting Diode (lightemittingdiode, LED) display device, cathode ray tube (cathoderaytube, CRT) display device, or projector (projector) etc..Input equipment 46 communicates with processor 41, it is possible to accept the input of user in many ways.Such as, input equipment 46 can be mouse, keyboard, touch panel device or sensing equipment etc..

Above-mentioned computer equipment 100 can be a general purpose computing device or a dedicated computing machine equipment.In implementing, computer equipment 100 can be desktop computer, portable computer, the webserver, palm PC (PersonalDigitalAssistant, PDA), cell phone, panel computer, wireless terminal device, communication equipment, embedded device or have the equipment of similar structures in Fig. 9.The embodiment of the present invention does not limit the type of computer equipment 100.

So far, embodiments of the invention provide a kind of terminal and moxa-moxibustion container, and wherein, terminal can obtain the smoke data of moxa-moxibustion container output, and this smoke data is for indicating the amount of smoke produced in moxa-moxibustion container；And then, the smoke data of moxa-moxibustion container output when terminal is according to above-mentioned moxa-moxibustion at least one times, generate health management information, this health management information is for issuing the user with the health prompt relevant to this amount of smoke, so that user carries out health control according to this health management information, such as change moxibustion column, reduce moxibustion time etc., can be seen that, the smog monitoring method that the embodiment of the present invention provides, mutual by terminal and moxa-moxibustion container, can be that user accurately determines the amount of smoke of generation during moxa-moxibustion, and generate, according to this amount of smoke, instruction of reporting to the police, so that user carries out safety precaution and health control.

In the description of this specification, specific features, structure, material or feature can combine in an appropriate manner in any one or more embodiments or example.

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 scope of the claims.

Claims (16)

1. a smog monitoring method, it is characterised in that including:

Obtaining the smoke data of moxa-moxibustion container output during moxa-moxibustion at least one times, described smoke data is for indicating the amount of smoke produced in described moxa-moxibustion container；

During according to described moxa-moxibustion at least one times, the smoke data of moxa-moxibustion container output, generates health management information, and described health management information is for issuing the user with the health prompt relevant to described amount of smoke.

2. method according to claim 1, it is characterised in that the Real-time Smoke data produced when described smoke data is this moxa-moxibustion of described user；

Wherein, during according to described moxa-moxibustion at least one times, the smoke data of moxa-moxibustion container output, generates health management information, including:

If the amount of smoke indicated by described Real-time Smoke data is more than default smog threshold value, then generate warning instruction for described user.

3. method according to claim 2, it is characterised in that when obtaining moxa-moxibustion at least one times after the smoke data of moxa-moxibustion container output, also include:

Record obtains the moment of described Real-time Smoke data；

By described Real-time Smoke data and the moment obtaining described Real-time Smoke data, preserve as history smoke data.

4. method according to claim 1, it is characterised in that the Real-time Smoke data produced when described smoke data is n times moxa-moxibustion in described user at the appointed time section, N is the integer more than 1；

Wherein, during according to described moxa-moxibustion at least one times, the smoke data of moxa-moxibustion container output, generates health management information, including:

The Real-time Smoke data produced during according to described n times moxa-moxibustion, it was predicted that described user is in the described smoke inhalation amount specified in the time period；

If described smoke inhalation amount is more than default smoke inhalation threshold value, then generate health control strategy for described user.

5. the method according to any one of claim 1-4, it is characterised in that obtain the smoke data of moxa-moxibustion container output during moxa-moxibustion at least one times, including:

Obtaining the current amount of smoke characterization information that the Smoke Sensor in described moxa-moxibustion container generates, described current amount of smoke characterization information is for characterizing the amount of smoke produced in presently described moxa-moxibustion container；

According to the variation relation between the amount of smoke characterization information and the amount of smoke that prestore, amount of smoke corresponding for described current amount of smoke characterization information is defined as described smoke data.

6. a terminal, it is characterised in that including:

Acquiring unit, for the smoke data exported from moxa-moxibustion container when obtaining moxa-moxibustion at least one times, described smoke data is for indicating the amount of smoke produced in described moxa-moxibustion container；

Decision package, for the smoke data of moxa-moxibustion container output during according to described moxa-moxibustion at least one times, generates health management information, and described health management information is for issuing the user with the health prompt relevant to described amount of smoke.

7. terminal according to claim 6, it is characterised in that the Real-time Smoke data produced when described smoke data is this moxa-moxibustion of described user；Wherein,

Described decision package, if specifically for the amount of smoke indicated by described Real-time Smoke data more than default smog threshold value, then generates warning instruction for described user.

8. terminal according to claim 7, it is characterised in that described terminal also includes:

Record unit, for recording the moment obtaining described Real-time Smoke data；

Storage unit, for by described Real-time Smoke data and the moment obtaining described Real-time Smoke data, preserving as history smoke data.

9. terminal according to claim 6, it is characterised in that the Real-time Smoke data produced when described smoke data is n times moxa-moxibustion in described user at the appointed time section, N is the integer more than 1；Wherein,

Described decision package, specifically for: the Real-time Smoke data produced during according to described n times moxa-moxibustion, it was predicted that described user is in the described smoke inhalation amount specified in the time period；If described smoke inhalation amount is more than default smoke inhalation threshold value, then generate health control strategy for described user.

10. the terminal according to any one of claim 6-9, it is characterised in that

Described acquiring unit, specifically for: obtaining the current amount of smoke characterization information that the Smoke Sensor in described moxa-moxibustion container generates, described current amount of smoke characterization information is for characterizing the amount of smoke produced in presently described moxa-moxibustion container；According to the variation relation between the amount of smoke characterization information and the amount of smoke that prestore, amount of smoke corresponding for described current amount of smoke characterization information is defined as described smoke data.

11. a moxa-moxibustion container, it is used for being coated with moxaburner device, it is characterised in that including:

Smoke Sensor, described Smoke Sensor is arranged on the inner side of described moxa-moxibustion container outer surface, for sensing the amount of smoke in described moxa-moxibustion container, to generate smoke data, described smoke data includes described amount of smoke or for characterizing the amount of smoke characterization information of described amount of smoke；

Output module, for exporting the described smoke data that described Smoke Sensor generates.

12. moxa-moxibustion container according to claim 11, it is characterised in that described moxa-moxibustion container includes: patch skin layers and the cover body connected with described patch skin layers, in described cover body, it is provided with described Smoke Sensor.

13. moxa-moxibustion container according to claim 12, it is characterised in that described cover body includes: thermal insulation layer, particulate filter and top layer, between described particulate filter and described top layer, it is provided with described Smoke Sensor.

14. moxa-moxibustion container according to claim 13, it is characterised in that the making material of described thermal insulation layer is cotton, and the making material of described particulate filter is activated carbon, and the making material on described top layer is velvet.

15. the moxa-moxibustion container according to any one of claim 12-14, it is characterized in that, described patch skin layers includes moxa-moxibustion region and non-moxa-moxibustion region, and described moxa-moxibustion region constitutes cavity with the interlayer in described moxa-moxibustion container, and described cavity is for limiting the position that described moxaburner device is placed；

Wherein, the making material in described moxa-moxibustion region is flaxen fiber, and the making material in described non-moxa-moxibustion region is velvet.

16. the moxa-moxibustion container according to any one of claim 11-14, it is characterised in that one end of described moxa-moxibustion container is provided with elastic reducing-fixing band, described elastic reducing-fixing band can be connected with the other end of described moxa-moxibustion container.