CN102122003A - Portable environmental information reporting device - Google Patents

Abstract

The invention provides a portable environmental information reporting device comprising a detection part, a timing part, a determining instruction receiving part, an environmental reporting information storage part, a control part, and a reporting part. When the determining instruction receiving part receives instructions, the control part instructs the detection part to determine environmental information, calculates a predetermined environmental indicator value according to the environmental information determined by the detection part, and further determines environmental reporting information according to the environmental indicator value and referencing the environmental reporting information storage part. The determining instruction receiving part comprises a first determining receiving part and a second determining receiving part, when the first determining receiving part receives instructions, the control part continually instructs the detection part to perform determination at intervals according to passing time measured by the timing part, when the second determining instruction receiving part receives instructions, the control part immediately instructs the detection part to perform determination.

Description

Portable environment information device for informing

Technical field

The present invention relates to a kind ofly judge that whether suitably and be notified to user's portable environment information device for informing surrounding environment, in more detail, this device to whether cause heatstroke easily, easily whether predetermined environmental aspect such as influenza virus infection is carried out indexing, can confirm effectively whether environment suitable in the moment of hope.

Background technology

In recent years, wait according to temperature, humidity and judge whether surrounding environment is suitable.For example, heatstroke is a kind of disease that causes because of the thermal stress from the outside, by grasping thermal environment by temperature, humidity etc., carries out suitable countermeasure, thereby can prevent heatstroke.At this, as the index that thermal stress is estimated, known have WBGT (Wet-Bulb Globe Temperature: wet bulb WBGT (unit: ℃)), one of countermeasure that it is used as the prevention heatstroke used.This WBGT value can be obtained by predetermined formula by wet-bulb temperature under dry-bulb temperature, the natural ventilation state and WBGT.

And influenza is a kind of acute infection disease that causes because of influenza virus.The all low environment of this influenza virus hobby temperature humidity so understand the easness of influenza virus infection by paying close attention to temperature and humidity, and carries out suitable countermeasure, thereby disease that can flu-prevention is sent out.

Therefore, following device has been proposed, promptly, measure temperature and humidity, according to this measured value, the easness that causes heatstroke, the environmental aspects such as easness of influenza virus infection are carried out indexing, judge that whether suitably and be notified to user's (referring to for example No. 4129477 communique of Jap.P., No. 3556129 communique of Jap.P., TOHKEMY 2003-344175 communique, TOHKEMY 2003-50285 communique, Japanese kokai publication sho 63-305283 communique and No. 3894404 communique of Jap.P.) surrounding environment.

But these devices move as follows, that is, follow the user that the switch of indication measurement temperature and humidity is carried out input operation, carry out this mensuration and parameter, judge according to this index whether surrounding environment is suitable, and the user is reported demonstration.Therefore, the user does not then report demonstration if do not carry out the switch input operation, so even these matching requirements user carries out work or motion etc. and is in the operation, still need regularly carry out the switch input operation, this is very loaded down with trivial details for the user.

On the other hand, in order to address this is that, also considered the device of automatically regularly temperature and humidity being measured.But this results of regular determination need be reported demonstration always, so that the user can both recognize at any time whether surrounding environment is suitable.Therefore, whether no matter whether the user wants to understand surrounding environment suitable, and device all moves.Cause reporting required power consumption such as demonstration thus and increase, battery does not have very soon.This device is not suitable as the mancarried device that can use for a long time and uses.And, under situation about regularly measuring,, report then to show represented be whether environment before slightly is suitable, so cause reporting the information of demonstration and current actual conditions are not inconsistent if update time is longer.Therefore, wanting to understand under the whether suitable situation of current surrounding environment, must report by the time and show and be updated.

Summary of the invention

The objective of the invention is to, a kind of environmental information device for informing is provided, this device can reduce the troublesome operation of carrying out in operations such as work or motion, and can make the user recognize when wishing whether current surrounding environment is suitable, can suppress power consumption in addition and be suitable for portably using for a long time.

In order to achieve the above object, in an embodiment of the invention, provide a kind of portable environment information device for informing that comprises that test section, timing portion, mensuration indication receiving portion, environment are reported information storage part, control part and reported portion.Described test section is measured ambient condition information.Described timing portion carries out instrumentation to the elapsed time.The indication that the acceptance of described mensuration indication receiving portion is measured described test section.Described environment is reported in the information storage part storage representation environment, and whether suitable environment is reported information, and this environment is reported information and decided according to the environmental index value, and this environmental index value is calculated according to the environmental information that is measured to by described test section.When described mensuration indication receiving portion has been accepted indication, described control part indicates described test section to measure environmental information, calculate predetermined environmental index value according to the environmental information that is measured to by described test section, further according to this environmental index value, report information storage part with reference to described environment, the decision environment is reported information.The described portion of reporting carries out and reports corresponding the reporting of information by the environment of described control part decision.Described mensuration indication receiving portion comprises that first measures the indication receiving portion and the second mensuration indication receiving portion, the first mensuration indication receiving portion accepts to make described test section to continue the indication of measuring, and second mensuration indicates receiving portion to accept the indication that described test section is measured individually.When the described first mensuration indication receiving portion has been accepted indication, described control part according to by described timing portion instrumentation to elapsed time, indicating described test section to carry out constantly at regular intervals measures, when the described second mensuration indication receiving portion had been accepted indication, described control part was indicated described test section to carry out immediately and is measured.

According to foregoing invention, accept once to measure indication by measuring the indication receiving portion, thereby, also can measure ambient condition information at regular intervals even in operation, do not carry out the switch input operation continually by first, whether display environment is suitable always.On the other hand, accept to measure indication by measuring the indication receiving portion by second, thereby can want to understand surrounding environment whether suitably the time the user, this mensuration is carried out in indication.Thus, whether even do not carrying out whether suitable mode is being measured between operational period under the situation of ambient condition information whenever can both confirm surrounding environment always, it is suitable also can to confirm current surrounding environment in the moment of hope.

Therefore, a kind of environmental information device for informing can be provided, this device can reduce the troublesome operation of carrying out in operations such as work or motion, and can make the user recognize when wishing whether current surrounding environment is suitable, can suppress power consumption in addition and be suitable for portably using for a long time.

Description of drawings

Fig. 1 is the front view of outward appearance that expression relates to the portable environment information device for informing of an embodiment of the invention.

Fig. 2 is the side view of portable environment information device for informing shown in Figure 1.

Fig. 3 is the circuit block diagram of inner structure of the portable environment information device for informing of presentation graphs 1.

Fig. 4～6th is used for the process flow diagram of action of the portable environment information device for informing of key diagram 1.

Fig. 7 is used to illustrate the environmental index value that the portable environment information device for informing by Fig. 1 calculates and the form of the relation between the desired value grade.

Fig. 8 A and 8B are used to illustrate that with the environmental index value be the desired value grade of benchmark and the form that environment is reported the relation between the information, and this environmental index value is calculated by the portable environment information device for informing of Fig. 1.

Fig. 9 A～9C is the figure of first method of operating that is used for the portable environment information device for informing of key diagram 1.

Figure 10 A and 10B are the figure of second method of operating that is used for the portable environment information device for informing of key diagram 1.

Embodiment

Below, with reference to accompanying drawing, the related portable environment information device for informing of an embodiment of the invention (below abbreviate " device " as) 1 is described.

As shown in Figure 1 to Figure 3, device 1 possesses test section 2, timing portion 3 at least, measures the framework 10 of indicating receiving portion 4, environment to report information storage part 5, control part 6, report portion 7 and be used to keep each one.

Whether the user's of operations such as this device 1 will move, work surrounding environment suitably is notified to the user.Therefore, framework 10 has the size and the shape of can not make troubles to operation (counteracting) when the user is carried on one's body.

Test section 2 is measured ambient condition information, is made of the more than one various devices of selecting according to the information that is notified to the user.

Below, for the ease of understanding the present invention, be that example describes by the situation that temperature detecting part 21 and Humidity Detection portion 22 these two test sections constitute with test section 2.

Temperature detecting part 21 is measured temperature (environment temperature).Therefore, temperature detecting part 21 is first test sections, and the first information of all Wall environment is a temperature.

As this temperature detecting part 21, for example can use electric thermometers such as platinum resistance temperature sensor.The platinum resistance temperature sensor is measured the resistance value of the platinum that changes according to temperature, by converter section this resistance value is converted into temperature, and temperature information is exported to control part 6.

Humidity Detection portion 22 measures humidity (ambient humidity).Therefore, Humidity Detection portion 22 is second test sections, and second information of all Wall environment is humidity.

As this Humidity Detection portion 22, for example can use electric hygrometers such as polymeric membrane humidity sensor.The polymeric membrane humidity sensor has adopted the polymeric membrane that absorbs or discharge moisture according to relative humidity.The amount of moisture that contains in the polymeric membrane changes according to relative humidity, and the specific inductive capacity of polymeric membrane is followed the change of this amount of moisture and changed.The specific inductive capacity that the polymeric membrane humidity sensor will change is measured as the electrostatic capacitance of capacitor, by converter section this electrostatic capacitance is converted into relative humidity, and humidity information is exported to control part 6.

Timing portion counts side at 3 pairs of elapsed time.As this timing portion 3, for example can use the 32.768kHz crystal oscillator, this oscillator is formed by quartz crystal unit and oscillatory circuit IC combination (or being built in 1 encapsulation), uses quartz crystal unit to control oscillation frequency.

Measure the indication that 4 acceptance of indication receiving portion are measured temperature detecting part 21 and Humidity Detection portion 22.Measuring indication receiving portion 4 is made of the first mensuration indication receiving portion 41 and the second mensuration indication receiving portion 42, the first mensuration indication receiving portion 41 accepts to make temperature detecting part 21 and Humidity Detection portion 22 to continue the indication of measuring, and second mensuration indicates receiving portion 42 to accept the indication that temperature detecting part 21 and Humidity Detection portion 22 are measured individually.

At this, lasting mensuration is meant that test section 2 measures at regular intervals repeatedly, if first measure indication receiving portion 41 and accept this indication, then control part 6 indicated temperature test sections 21 and Humidity Detection portion 22 carry out said determinations.

And indivedual mensuration is meant that test section 2 once measures immediately, if second measure indication receiving portion 42 and accept this indication, then control part 6 indicated temperature test sections 21 and Humidity Detection portion 22 carry out said determinations.

As this first mensuration indication receiving portion 41, for example can use the transitional slide contact-making switch, this switch stops on the position that moves to by operation, can continue to measure indication.

And, for example can use pushbutton switch as the second mensuration indication receiving portion 42, this switch is interim mobile by operation, and turns back to the origin-location immediately.

Report in the information storage part 5 the storage environment corresponding with the environmental index value at environment and report information, this environmental index value calculates according to temperature information that is obtained by temperature detecting part 21 and the humidity information that is obtained by Humidity Detection portion 22.Whether suitable environment is reported information is expression environment information.Environment is reported in the information storage part 5 storage and for example environmental index value information and environment is reported the interrelated data form of information (referring to Fig. 7～8B).

When mensuration indication receiving portion 4 had been accepted indication, control part 6 indicated temperature test sections 21 and Humidity Detection portion 22 carried out and measure.And control part 6 calculates predetermined environmental index value according to temperature information and humidity information.In addition, control part 6 is reported information storage part 5 according to this environmental index value with reference to environment, and the decision environment is reported information.

At this, the environmental index value for example is meant that expression causes the value of risk factor of value, the easy influenza virus infection of expression of the risk factor of heatstroke easily.Therefore, control part can calculate the expression value of the risk factor of heatstroke easily, or calculates the environmental index value of the risk factor of the easy influenza virus infection of expression.

Thus, the related device 1 of present embodiment can be given the user with the environment untill further notice that whether is in the environment of easy heatstroke or is not in easy influenza virus infection.

When the first mensuration indication receiving portion 41 had been accepted indication, this control part 6 continued repeatedly indicated temperature test section 21 and Humidity Detection portion 22 execution mensuration at regular intervals according to the elapsed time by timing portion 3 instrumentations.When second measured indication receiving portion 42 and accepted indication, control part 6 was once carried out the indication of mensuration immediately to temperature detecting part 21 and Humidity Detection portion 22.

Measure indication receiving portion 41 first and accepted indication in advance, second measures indication receiving portion 42 has also accepted under the situation of indication, 6 pairs of control parts are measured the mensuration start times at regular intervals that indication receiving portion 41 carries out by first and are reset (resetting), and indicated temperature test section 21 and Humidity Detection portion 22 carry out and measure immediately.On the other hand, measure indication receiving portion 41 first and do not accept indication, and second measure indication receiving portion 42 and accepted under the situation of indication, control part 6 is once carried out the indication of mensuration, dormancy then immediately to temperature detecting part 21 and Humidity Detection portion 22.

Control part 6 is made of the IC that for example possesses CPU61, ROM (Read Only Memory) 62, RAM (Random Access Memory) 63 and various circuit etc.Program stored is planned as a whole control to each inscape of this device 1 in the control part 6 amenable to process storage parts (ROM62), and executive routine is handled.Therefore, the ROM62 that possessed of control part 6 can be used as environment and reports information storage part 5 and play a role.In addition, store this in the program storage part and install 1 employed various programs.

And control part 6 also possesses the hold function of reporting that stops to report after making the portion of reporting 7 at the fixed time.In the present embodiment, in the device 1, has the coin shape battery of 3V as the power supply unit 9 of power supply usefulness.Thus, can suppress by the electric weight of reporting the power supply unit 8 that portion 7 consumes.

Report the environment that portion 7 carries out being determined with control part 6 and report corresponding the reporting of information.Report portion 7 as this, for example can use illuminator 71, this illuminator 71 is reported information according to environment and is lighted with different colours.As this illuminator 71, for example can use light emitting diode (LED:Light Emitting Diode).

And, report portion 7 and can also adopt following structure, that is, have a plurality of illuminators as illuminator 71, the grade of reporting information according to environment changes the quantity of the illuminator of lighting 71.

And the illuminant colour of illuminator 71 comprises green, yellow green, yellow, orange, redness etc.Therefore, reporting portion 7 can also adopt the grade of reporting information according to environment to change the color of the illuminator of lighting 71 and the structure of quantity.

Thus, the quantity of color by the illuminator 71 lighted and/or the illuminator of lighting 71, whether can make the user visually easily recognize environment suitable.

In addition, for reporting portion 7, can substitute illuminator 71 with alarm (hummer) 72, this alarm 72 makes sound during greater than certain value in the environmental index value that is calculated by control part 6, and, report portion 7 and also can have illuminator 71 and alarm 72 in the lump.

Thus, by the buzz that sends, can make the user in that whether acoustically easily recognize environment suitable.

The portion that reports 7 with 5 illuminators 71 has been shown among Fig. 1, yet as shown in Figure 3, has reported the alarm 72 that portion 7 also can have the framework of being arranged at 10 inside.

And the positive substantial middle portion of framework 10 is provided with display part 8, and this display part 8 shows temperature that is measured to by temperature detecting part 21 and the humidity that is measured to by Humidity Detection portion 22.Therefore, by illuminator 71 light with alarm 72 make sound on the basis that information that environment reported reports, can also the temperature that be measured to and humidity display be reported information to environment to the display part 8 by display part 8 and report.

In addition, framework 10 has a plurality of peristomes 12, and this peristome 12 is used to obtain the surrounding air of using when temperature detecting part 21 and Humidity Detection portion 22 measure.And this peristome 12 also plays a role as the chimes of doom efferent, and this efferent sends the chimes of doom of the alarm 72 that makes sound to outside well.Be arranged at the peristome 12 of framework 10 sides shown in Fig. 2.

As mentioned above, on one's body the device 1 that constitutes like this can be carried to by the user.The user will install 1 mode that is carried on one's body and be not particularly limited.For example, can rope, clamping plate, belt etc. be installed on 1 at device and keep tools 11, rope is suspended on the neck, or clamping plate is fixed in the waistband hole of trousers, or with roll of tape on arm or wrist.And, also can will keep tool 11 to be installed on the device 1 by the spool that can regulate length.

In Fig. 1 and Fig. 2, be equipped with as the ring-type lifting rope that keeps tool 11 on the top of framework 10.

In addition, under the situation that when the user who carries out operations such as work, motion is carried at this device 1 on one's body, might counteract, can use to keep tool 11 that this device 1 is fixed to around the user.

Then, with reference to accompanying drawing, an example of the action of this above-mentioned device 1 is described.

In the present embodiment, to report the device that whether is in the environment that causes heatstroke easily (below be called heatstroke prevention) 1 is that example describes, this device 1 possesses test section 2, and this test section 2 comprises as the temperature sensor 21 of temperature detecting part with as the humidity sensor 22 of Humidity Detection portion.

At first, as shown in Figure 4, control part 6 judges as first first switch 41 of measuring the indication receiving portion whether be switched on (step S10).Under the situation that first switch 41 is switched on (step S10: be), control part 6 obtains the instrumentation information in elapsed time from timing portion 3, and begins to carry out the instrumentation (step S20) of the predefined schedule time.Promptly, shown in Fig. 9 A, first switch 41 moves to the position of " connection " from the position of " disconnection ", and then first switch 41 is switched on, as long as first switch 41 does not turn back to the position (not moving) of " disconnection " from the position of " connection " afterwards, just maintain the state that is switched on.

Then, control part 6 judges whether second switch 42 is switched on (step S30).That is, shown in Figure 10 A, if second switch 42 is pressed, then second switch 42 is switched on.

Under the situation that second switch 42 is switched on (step S30: be), control part 6 indicated temperature sensors 21 and humidity sensor 22 are measured, temperature sensor 21 begins the temperature of the air of obtaining from the peristome 12 of framework 10 is measured, and humidity sensor 22 also begins the humidity of this air is measured (step S40).

And control part 6 receives measurement results from temperature sensor 21 and humidity sensor 22, judges that temperature is whether more than 0 ℃ and (step S50) below 50 ℃.When being judged as temperature at (step S50: be) more than 0 ℃ and under the situation below 50 ℃, control part 6 judges that then whether humidity is at (step S60) more than 20% and below 90%.When being judged as humidity (step S60: be) under the situation more than 20% and below 90%, the temperature information that control part 6 will obtain from temperature sensor 21 and send to display part 8 from the humidity information that humidity sensor 22 obtains, display part 8 for example shows (step S70) to temperature and the humidity that is measured to shown in Fig. 9 B.In Fig. 9 B, show on the display part 8 that temperature is that " 30.0 ℃ ", humidity are " 78% ".

And control part 6 calculates predetermined environmental index value (step S80) according to the temperature information that obtains from temperature sensor 21 with from the humidity information that humidity sensor 22 obtains.

Give under the situation of anti-meter 1 in this heatstroke of employing, should predetermined environmental index value be as the widely used WBGT of heatstroke index, can by dry-bulb temperature Ta (℃), wet-bulb temperature Tw under the natural ventilation state (℃) and WBGT Tg (℃), obtain by following formula (1) or formula (2).This formula (1) is used for obtaining the situation of environmental index value outside the room of sunlight direct projection, and formula (2) is used in doors or does not have to obtain outside the room of sunlight direct projection the situation of environmental index value.

WBGT＝0.7×Tw+0.2×Tg+0.1×Ta…(1)

WBGT＝0.7×Tw+0.3×Tg…(2)

But because WBGT Tg must adopt special measuring device to measure, so adopt approximate expression computing environment desired value in the present embodiment, this approximate expression is obtained the heatstroke index suitable with WBGT by the temperature that can simply measure and humidity.For the formula of obtaining the WBGT approximate value by temperature and humidity simply, open by Australian weather bureau or Nigata county agricultural synthesis research institute etc., in the present embodiment, obtain the WBGT approximate value according to following formula (3)～(5).

WBGT approximate value=0.625 * Ta+0.215 * E (Ta, Rh)+2.61 ... (3)

E(Ta，Rh)＝(Rh/100)×Es(Ta)…(4)

Es(Ta)＝6.11×[7.5×Ta/(237.3+Ta)]…(5)

Ta: temperature (℃)

Rh: relative humidity (%)

E (Ta, Rh): the water vapour pressure among temperature Ta, the humidity Rh (hPa)

Then, control part 6 is reported information storage part 5 with reference to environment after calculating the environmental index value, and the decision environment is reported information, for example shown in Fig. 9 B, makes illuminator 71 light (step S90) according to the environmental index value.In Fig. 9 B, 4 illuminator 71a, 71b, 71c, 71d except illuminator 71e light with different colours.

And control part 6 judges that whether this environmental index value is greater than predetermined value (step S100) after calculating the environmental index value.Be judged as (step S100: be) under the situation of environmental index value greater than predetermined value at control part 6, control part 6 makes alarm 72 according to environmental index value make sound (step S110).

Below, referring to Fig. 7～Fig. 8 B, illustrate that environment reports in the information storage part 5 detailed content of the data form of storage.

The value information of environmental index shown in Fig. 7, this environmental index value information are represented the relation between the environmental index value that calculates and the desired value grade corresponding with this environmental index value.

In detail, stipulate the environmental index value information as follows, if the environmental index value is less than " 21 ", then the desired value grade is " A " of expression basic security, if this environmental index value is more than " 21 " and less than " 25 ", then the desired value grade is " B " of expression attention, if this environmental index value is more than " 25 " and less than " 28 ", then the desired value grade is " C " of expression warning, if this environmental index value is more than " 28 " and less than " 31 ", then the desired value grade is " D " of the serious warning of expression, and, if this environmental index value is more than " 31 ", then the desired value grade is expression dangerous " E ".

And, shown in Fig. 8 A and the 8B according to the desired value grade of environmental index value decision and and the environment reported accordingly of this desired value grade report corresponding relation between the information.At this, the report method that the anti-environment of counting in 1 is reported information is given in the heatstroke that only possesses 1 illuminator 71 shown in Fig. 8 A, and the report method that the anti-environment of counting in 1 is reported information is given in the heatstroke that possesses a plurality of (5) illuminator 71 shown in Fig. 8 B.

That is, among Fig. 8 A to change color mode corresponding with the desired value grade, illuminator 71 with whether alarm 72 makes sound and the mode of making sound is stipulated.For example, if the desired value grade is A, then illuminator 71 lights up as green, and alarm 72 does not ring.If the desired value grade is B, then illuminator 71 lights up as yellow green, and alarm 72 does not ring.If the desired value grade is C, then illuminator 71 lights up as yellow, and alarm 72 does not ring.If the desired value grade is D, then illuminator 71 lights up as orangely, and alarm 72 rings 5 times momently.And if the desired value grade is E, then illuminator 71 lights up as redness, and alarm 72 continues to ring 10 seconds.

And, among Fig. 8 B to the quantity of desired value grade illuminator 71 corresponding, that light with whether alarm 72 makes sound and the mode of making sound is stipulated.For example, if the desired value grade is A, then illuminator 71 is lighted 1, and alarm 72 does not ring.If the desired value grade is B, illuminator 71 is lighted 2, and alarm 72 does not ring, if the desired value grade is C, then illuminator 71 is lighted 3, and alarm 72 does not ring, if the desired value grade is D, then illuminator 71 is lighted 4, and alarm 72 rings 5 times momently.And if the desired value grade is E, then illuminator 71 is lighted 5, and alarm 72 continues to ring 10 seconds.

Therefore, control part 6 calculates after the environmental index value, report information storage part 5 with reference to environment and decide environment to report information, thereby can almost carry out simultaneously by reporting of carrying out of lighting of illuminator 71 and by alarm 72 make sound and carry out report.

In addition, in the present embodiment, for convenience of explanation, being divided into Fig. 7～Fig. 8 B illustrates environmental index value information and environment is reported the interrelated data form of information, but be not limited in this respect, as long as can decide environment to report information according to the environmental index value that is calculated by control part 6, data form also can be aggregated into one.

And, report information and report if report 7 pairs of environment of portion, then through the schedule time (for example, 10 seconds) after, shown in Fig. 9 C, control part 6 is eliminated the temperature that shows on the display part 8 and humidity and is extinguished illuminator 71, and, then make it stop (step S120) if alarm 72 is making sound.

Thus, a succession of elemental motion that this heatstroke is given in the anti-meter 1 finishes, and then, control part 6 turns back to judges that whether first switch 41 is in the step (step S10) of on-state, carries out above-mentioned a succession of action repeatedly.

And (step S10: not), then control part 6 judges whether second switch 42 is switched on (step: S11) under the situation that first switch 41 is not switched on.Under the situation that second switch 42 is switched on (step S11: be), control part 6 enters into step S40 immediately, carries out above-mentioned a succession of action.

And control part 6 is shown to the temperature and humidity that is measured on the display part 8, and calculates the environmental index value by this temperature and humidity immediately, report information storage part 5 with reference to environment, the decision environment is reported information, for example, shown in Figure 10 A, light illuminator 71 accordingly with the environmental index value.In Figure 10 A, show on the display part 8 that temperature is that " 30.0 ℃ ", humidity are " 78% ", and 4 illuminator 71a, 71b, 71c, 71d except illuminator 71e light with different colors.

On the other hand, under the situation that second switch 42 is not switched on (step S11: not), this heatstroke is given anti-meter 1 and is failure to actuate, and is in dormant state (step S12) till first switch 41 or second switch 42 are switched on always.

Therefore, be not switched at first switch 41 and only have under the situation that second switch 42 is switched on, control part 6 is after carrying out above-mentioned a succession of action, shown in Figure 10 B, eliminate temperature and the humidity that shows on the display part 8 and close illuminator 71, and if alarm 72 is making sound, it is stopped, this heatstroke is given anti-meter 1 and is in dormant state.

And, after first switch 41 is switched on, judge that (step S30: not), control part 6 judges whether to have passed through the predefined schedule time (step S31) under the situation that result that whether second switch 42 is switched on (step S30) is not switched on for second switch 42.Its result, under the situation of having passed through the schedule time (step S31: be), control part 6 follows indicated temperature sensor 21 and humidity sensor 22 indications are measured, and enters into step S40, carries out above-mentioned a succession of action.

On the other hand, (step S31: not), control part 6 is proceeded the instrumentation of the predefined schedule time, and judges repeatedly whether second switch 42 is switched on (step S30) under the situation of also not passing through the schedule time.

Therefore, if be in the state that first switch 41 is switched on, then control part 6 is carried out mensuration every schedule time indicated temperature sensor 21 and humidity sensor 22, measures so that continue.

And, be judged as temperature not at (step S50: deny) more than 0 ℃ and under the situation below 50 ℃ at control part 6, as shown in Figure 5, control part 6 judges that then whether temperature is less than 0 ℃ (step S51).Temperature less than 0 ℃ situation under (step S51: be), the mensuration information that control part 6 will be shown as " LO/--" sends to display part 8, do not carry out the indication of lighting of illuminator 71, should " LO/--" expression temperature be lower than 0 ℃ and be in outside the measurement range and humidity not specific (step S52).

On the other hand, be not less than (step S51: not) under 0 ℃ the situation at temperature, the mensuration information that control part 6 will be shown as " HI/--" sends to display part 8, do not carry out the indication of lighting of illuminator 71, should be in outside the measurement range and humidity not specific (step S53) greater than 50 ℃ by " HI/--" expression temperature.

Afterwards, control part 6 enters into step S120 through after the schedule time, finishes a succession of action that anti-meter 1 is given in this heatstroke.Then, carry out according to the some of above-mentioned action.

And (step S60: not), as shown in Figure 6, control part 6 does not judge that then whether humidity is less than 20% (step S61) under humidity is not situation more than 20% and below 90%.Its result, humidity less than 20% situation under (step S61: be), the mensuration information that control part 6 will be shown as " T/LO " sends to display part 8, and display part 8 shows this mensuration information, should " T/LO " represent that temperature T and humidity that temperature sensor 21 is measured to were in measurement range outer (step S62) less than 20%.

Then, the humidity that control part 6 will be judged as less than 20% for the computing environment desired value is assumed to be 15% (step S63), adopt mode same as described above, calculate predetermined environmental index value (step S66) according to the humidity information of temperature information that obtains from temperature sensor 21 and hypothesis.

On the other hand, be not less than (step S61: not) under 20% the situation in humidity, the mensuration information that control part 6 will be shown as " T/HI " sends to display part 8, and display part 8 shows this information, should " T/HI " expression be in measurement range outer (step S64) greater than 90% by temperature T and the humidity that temperature sensor 21 is measured to.

Then, control part 6 will be judged as for the computing environment desired value and be not less than 20%, promptly be assumed to be 95% (step S65) greater than 90% humidity, adopt mode same as described above, calculate predetermined environmental index value (step S66) according to the humidity information of temperature information that obtains from temperature sensor 21 and hypothesis.

And control part 6 is reported information storage part 5 with reference to environment and is decided environment to report information according to the environmental index value that calculates, and lights illuminator 71 (step S67) accordingly with the environmental index value.

Afterwards, whether control part 6 judges the environmental index value that calculates greater than predetermined value (step S100), carries out this above-mentioned heatstroke and gives anti-a succession of action of counting in 1.

As mentioned above, give in the anti-meter 1,, calculate the heatstroke desired value with computing method alone by measuring temperature and humidity in this heatstroke.In addition, according to this heatstroke desired value, the index of will suffering heatstroke for example is divided into environment such as " basic security " " attention ", " warning ", " serious warning ", " dangerous (ending motion in principle) " interimly and reports information, the glow color by the LED lamp, carries out the quantity of alight and notifies above-mentioned environment to report information with chimes of doom under the high situation of risk factor.

Therefore, heatstroke can be given the heatstroke that anti-meter 1 is used for outer within doors work position, motion, daily life etc. effectively gives anti-.

In such present embodiment, whether at being used for user's surrounding environment is to cause that easily the portable environment information device for informing (anti-meter is given in heatstroke) 1 that the environment of heatstroke is reported is illustrated, this device has test section 2, and this test section 2 comprises temperature detecting part 21 and Humidity Detection portion 22, yet the structure of portable environment information device for informing 1 is not limited thereto.

Therefore, be used for calculating formula that the environmental index value is calculated by suitable change, the environment corresponding with this environmental index value reported the setting of information, thereby heatstroke can be given anti-meter 1 as to user's surrounding environment whether being the device (influenza is given anti-counting) that causes that easily the environment of influenza is reported, to whether being the device (laundry index meter) that environment that clothing dries is easily reported, to whether being the device (aridity index meter) that is unfavorable for that the dry environment of throat (or causing fire easily) is reported, to whether being the device uses such as (rain forecast meters) that the environment that might rain is reported.For example, known influenza virus is difficult to survive under 20 ℃ of temperature, the environment of humidity more than 50%, on the contrary can be in 10 ℃ of temperature, humidity 20% medium-term and long-term existence.Therefore, as long as according to temperature and humidity, the easness of influenza virus infection is carried out indexing, then portable environment information device for informing 1 can be given anti-meter as influenza and use.

And in aforesaid present embodiment, test section 2 is made of temperature detecting part 21 and Humidity Detection portion 22, but test section 2 also can be made of the device (test section) with function that other environmental information is on every side measured.

For example, test section 2 can be made of UV detection portion, and this UV detection portion measures the uitraviolet intensity as other environmental information.By this structure, portable environment information device for informing can be used as the device that carries out following action (anti-meter is given in Exposure to Sunlight), promptly, whether calculate predetermined environmental index value according to the environmental information that is measured to by UV detection portion, further reporting according to this environmental index value is to bring dysgenic tanned environment easily to skin.

And, test section 2 can also be made of the device with following function (test section), promptly measure whether there is the invisible fine particle of the eyes that swim in the air (smog, pollen, house moss etc.), and measure the various functions of its amount, kind as other environmental information.By this structure, portable environment information device for informing can be used as the device that carries out following action (disease causes the prevention meter), promptly, whether calculate predetermined environmental index value according to the environmental information that is measured to by these test sections, further reporting according to this environmental index value is the environment that causes anaphylactias such as pollinosis, allergic rhinitis, bronchitis, allergic dermatitis easily.

The present invention does not get rid of test section 2 and adopts said structure structure in addition.

In the present invention, test section 2 can also possess the device (test section) that UV detection portion etc. for example has the function that other environmental information is measured except temperature detecting part 21 and/or Humidity Detection portion 22.

The present invention can use be used for reporting surrounding environment whether the industry of proper device carry out utilization on the industry, especially give anti-meter, influenza and give anti-this class of meter and be used in advance aspect the market of the device that whether might report to the information that human body impacts surrounding environment useful in heatstroke.

Claims (8)

1. portable environment information device for informing, it possesses:

Test section, it measures ambient condition information;

Timing portion, it carries out instrumentation to the elapsed time;

Measure the indication receiving portion, the indication that its acceptance is measured described test section;

Environment is reported information storage part, and whether suitable environment is reported information to its storage representation environment, and this environment is reported information and decided according to the environmental index value, and this environmental index value is calculated according to the environmental information that is measured to by described test section;

Control part, when described mensuration indication receiving portion has been accepted indication, described control part indicates described test section to measure environmental information, calculate predetermined environmental index value according to the environmental information that is measured to by described test section, and according to this environmental index value, report information storage part with reference to described environment, the decision environment is reported information; And

Report portion, it carries out and reports corresponding the reporting of information by the environment of described control part decision,

Described portable environment information device for informing is characterised in that,

Described mensuration indication receiving portion comprises that first measures the indication receiving portion and the second mensuration indication receiving portion, first measures the indication receiving portion accepts to make described test section to continue the indication of measuring, second measures the indication that the acceptance of indication receiving portion is measured described test section individually

When the described first mensuration indication receiving portion has been accepted indication, described control part according to by described timing portion instrumentation to elapsed time, indicating described test section to carry out constantly at regular intervals measures, when the described second mensuration indication receiving portion had been accepted indication, described control part was indicated described test section to carry out immediately and is measured.

2. portable environment information device for informing according to claim 1 is characterized in that,

The described portion of reporting is an illuminator, and this illuminator is reported information according to the environment that is determined and changed color and/or bright lamp quantity.

3. portable environment information device for informing according to claim 1 is characterized in that,

The described portion of reporting is an alarm, when the environmental index value that calculates during greater than certain value this alarm make sound.

4. portable environment information device for informing according to claim 1 is characterized in that,

Described control part has the hold function of reporting that stops to report after making the described portion of reporting at the fixed time.

5. according to any described portable environment information device for informing of claim 1～4, it is characterized in that,

Described test section comprises first test section that the first information of all Wall environment is measured and second test section that second information of all Wall environment is measured,

Described first test section is a temperature sensor of measuring environment temperature,

Described second test section is a humidity sensor of measuring ambient humidity,

Described control part causes that to expression the environmental index value of the easness of heatstroke calculates.

6. according to any described portable environment information device for informing of claim 1～4, it is characterized in that,

Described test section comprises first test section that the first information of all Wall environment is measured and second test section that second information of all Wall environment is measured,

Described first test section is a temperature sensor of measuring environment temperature,

Described second test section is a humidity sensor of measuring ambient humidity,

Described control part calculates the environmental index value of the easness of expression influenza virus infection.

7. according to any described portable environment information device for informing of claim 1～4, it is characterized in that,

Described test section is a UV sensor of measuring uitraviolet intensity,

Described control part brings the environmental index value of dysgenic easness to calculate expression to skin.

8. according to any described portable environment information device for informing of claim 1～4, it is characterized in that,

Described test section is the dust sensor that the particle that swims in the air is measured,

Described control part calculates the environmental index value that expression causes the easness of anaphylactia.

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