JP2013145224A - Influenza information display device and influenza information/heat stroke information display device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable a simple influenza epidemic warning display to be performed by using a humidity sensor which detects relative humidity without making a major change to a configuration of a conventional CPU.SOLUTION: Recognizing absolute humidity of 7 g/mor less as a warning region where an outbreak of influenza virus occurs, relative humidity corresponding to the absolute humidity of 7 g/mor less is read by using a wet air diagram. Also, a correlation formula is created from the read relative humidity by executing a regression analysis between a dry bulb temperature and the relative humidity at a temperature of 21°C or less. Then, measured values of the dry bulb temperature as well as the relative humidity under a usage environment are detected with a temperature sensor as well as a humidity sensor (S1). A CPU: processes data on the detected dry bulb temperature as well as the relative humidity by substituting the same into the correlation formula (S2); determines whether or not a calculation result a is 7 g/mor less (S3); and, when the calculation result a is 7 g/mor less (S3, YES), makes a display section perform a warning display (S4).

Description

  The present invention relates to an influenza information display device that displays whether or not influenza is in an easily prevalent environment, and an influenza information / heatstroke information display device that displays whether or not influenza or heatstroke is in an easily prevalent environment. Is.

Winter colds are often caused by influenza viruses. Influenza viruses are unlikely to occur when the humidity in the air is high, and the influenza epidemic prediction based on absolute humidity has been studied. Although there are regional differences, an epidemic will not occur under an absolute humidity of about 10 g / m ³ or more. Has been.

Based on the above-mentioned view, the absolute humidity of 11 g / m ³ or less is conventionally set as the humidity that may cause influenza. For example, as described in Patent Documents 1 and 2, the absolute humidity is 7 g / m ³ or less. There are known devices that display the humidity to be alarmed, or devices that can detect the absolute humidity and control the indoor humidity.

  In general consumer devices / apparatuses such as Patent Documents 1 and 2, a general humidity sensor that detects relative humidity is used to obtain humidity as a criterion for determining the influenza epidemic. For this reason, it is necessary to convert the detected relative humidity into absolute humidity.

  Of course, if a humidity sensor capable of detecting absolute humidity is used, conversion from relative humidity to absolute humidity is not necessary. However, as described in Patent Document 3, a humidity sensor capable of detecting absolute humidity. Has the problem of high price and poor maintainability.

  Therefore, conventionally, arithmetic processing is performed using a general humidity sensor that is inexpensive to detect relative humidity, and the detected relative humidity data is converted into absolute humidity data. For this conversion, a data table (correlation data) of relative humidity data and absolute humidity data is prepared, and absolute humidity conversion is performed in the arithmetic processing unit using this data table.

  In addition, as a problem of the living environment in the hot and humid summer, there is an interest in heat stroke prevention measures, and a warning device for the occurrence of heat stroke is commercially available. As a heat stroke occurrence warning, for example, as described in Patent Document 4, the relationship between relative humidity, temperature, and WBGT value (Japanese Society of Biometeorology “heat stroke prevention index in daily life”) is used. In the commercially available device, the index data of the occurrence of heat stroke and the predicted warning information are displayed based on the WBGT value.

Utility Model Registration No. 3171699 Japanese Patent No. 3894404 JP-A-4-130905 JP 2009-271043 A

  By the way, at present, various types of thermo-hygrometers are commercially available, but humidity sensors that detect relative humidity are generally used for these thermo-hygrometers.

  In order to provide the function of the thermo-humidity meter with a display control function for attention of influenza epidemic, the CPU (central processing unit) that performs the temperature-humidity display operation and the calculation / display control has the above relative humidity data and absolute It is necessary to store a data table such as humidity data.

  The amount of data in the data table cannot be said to be a small amount in terms of the capacity of a low-cost CPU mounted on a normal thermohygrometer. For this reason, it is not easy to store such a data table in the existing CPU, and a new influenza epidemic warning display CPU needs to be manufactured.

  The present invention solves the above-described problems of the prior art, can use a conventional humidity sensor that detects relative humidity, and can display a simple influenza epidemic warning display without making a significant change to the configuration of a conventional CPU. It is an object of the present invention to provide an influenza information display device that can be used, and an influenza information / heatstroke information display device that can display an influenza epidemic warning display and a warning display related to heat stroke prevention.

In order to achieve the above-mentioned object, the invention according to the influenza information display device of claim 1 includes a temperature sensor for detecting dry bulb temperature (° C.), a humidity sensor for detecting relative humidity (%), and an air diagram. From the relative humidity that is less than or equal to the absolute humidity (g / m ³ ) at which influenza virus is prevalent, and the correlation between the relative humidity and the arbitrarily set dry bulb temperature or less, and the read relative humidity and A storage unit storing a correlation equation created based on a dry bulb temperature value, a value calculated by putting the dry bulb temperature detected by the temperature sensor into the correlation equation, and a relative humidity detected by the humidity sensor A comparison unit that compares the value of the virus, an influenza determination unit that determines that the influenza virus is prevalent when the correlation formula is established, and an influenza determination unit If it is determined that influenza virus epidemics, characterized by comprising a display unit for displaying to that effect.

The invention relating to the influenza information display device according to claim 2 is based on a temperature sensor that detects a dry bulb temperature (° C.), a humidity sensor that detects a relative humidity (%), and an air diagram. The relative humidity at which the absolute humidity is 7 g / m ³ or less is read out, the correlation between the relative humidity and the dry bulb temperature at about 20 ° C. or less is read out, and the relative humidity and the dry bulb temperature are read out. A storage unit that stores the following correlation equation (1) created by:
Relative humidity (%) <A x dry bulb temperature (° C) + B (1)
However, A≈−4, B≈130
A comparison unit that compares the value calculated by putting the dry bulb temperature detected by the temperature sensor into the correlation equation (1) and the value of the relative humidity detected by the humidity sensor; and the correlation equation (1) When an influenza virus epidemic is established, and when the influenza judgment unit determines that an influenza virus epidemic has occurred, a display unit that displays the fact is provided. .

The invention relating to the influenza information display device according to claim 3 is that the influenza virus is prevalent from a temperature sensor that detects dry bulb temperature (° C.), a humidity sensor that detects relative humidity (%), and an air diagram. The relative humidity at which the absolute humidity is 7 g / m ³ or more and 11 g / m ³ or less is read out, and the correlation between the relative humidity and the dry bulb temperature at about 20 ° C. or less is read out. A storage unit storing the following correlation equation (2) created based on the value of the bulb temperature and A × dry bulb temperature (° C.) + B <relative humidity (%) <C × dry bulb temperature (° C.) + D (D) 2)
However, A≈−4, B≈130, C≈−5, D≈180
A comparison unit that compares a value calculated by putting the dry bulb temperature detected by the temperature sensor into the correlation equation (2) and a relative humidity value detected by the humidity sensor; and the correlation equation (2) When an influenza virus epidemic is established, an influenza determination unit that determines an influenza virus epidemic, and a display unit that displays when the influenza determination unit determines that an influenza virus epidemic has occurred, are provided. .

The invention relating to the influenza information / heatstroke information display device according to claim 4 is based on a temperature sensor for detecting dry bulb temperature (° C.), a humidity sensor for detecting relative humidity (%), and an air diagram. Read the relative humidity below the absolute humidity (g / m ³ ) at which the virus is prevalent, read the correlation between the relative humidity and the arbitrarily set dry bulb temperature or less, and read the relative humidity and the dry bulb temperature A storage unit storing a correlation equation created based on the value of the value, a value calculated by putting the dry bulb temperature detected by the temperature sensor into the correlation equation, and a value of the relative humidity detected by the humidity sensor, And a influenza determination unit that determines that an influenza virus is prevalent when the correlation formula is established, and further, the storage unit includes a dry bulb temperature, a relative humidity, and a WB. The heat stroke prevention guideline data having a relationship with the T value is stored, and based on the heat stroke prevention index data, the WBGT is obtained from the dry and wet temperature detected from the temperature sensor and the relative humidity detected from the humidity sensor. A heat stroke determination unit that obtains a value and makes a determination related to heat stroke based on the WBGT value is provided, and a display unit displays a determination result by the influenza determination unit or the heat stroke determination unit. .

  The invention relating to the influenza information / heatstroke information display device according to claim 5 is based on either the influenza determination unit or the heatstroke determination unit based on the detected dry bulb temperature and the relative humidity. Control is performed such that one of the determinations is executed.

According to the influenza information display device of the present invention, the relative humidity that is equal to or lower than the absolute humidity (g / m ³ ) at which the influenza virus is prevalent is read from the air diagram, and the relative humidity that is arbitrarily set is read. By reading the correlation with the sphere temperature or less and creating a correlation equation based on the read relative humidity and dry bulb temperature values, for example, storing them in the storage unit of a conventional CPU, By using a temperature sensor that detects the temperature (° C.) and a humidity sensor that detects the relative humidity (%), the influenza epidemic warning can be easily displayed.
Moreover, according to the influenza information / heat stroke information display device according to the present invention, the temperature sensor for detecting a general dry bulb temperature (° C.) and the humidity sensor for detecting the relative humidity (%) are used. Thus, the heat stroke occurrence warning display can be performed together with the influenza epidemic warning display.

It is a front view which shows the external appearance of embodiment of the influenza information display apparatus which concerns on this invention. It is a block diagram of the data detection / processing system in this embodiment. It is a moist air line figure referred in this embodiment. It is explanatory drawing of the humidity value calculation result by the correlation type in this embodiment. It is explanatory drawing of the humidity value calculation result by the correlation type in this embodiment. It is a flowchart which concerns on the display of the influenza epidemic in this embodiment. (A) is a figure which shows the relationship between a WBGT index | exponent and temperature / humidity, (b) is a figure which shows the relationship of the determination display of a WBGT value and heat stroke occurrence. It is a flowchart which concerns on the display of the influenza epidemic and heat stroke occurrence in this embodiment.

  DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, preferred embodiments of the invention will be described with reference to the drawings.

  FIG. 1 is a front view of an appearance of an apparatus in an embodiment of an influenza information display apparatus according to the present invention, in which 1 is an apparatus main body case, 2 is a display unit for digitalizing various types of information to be detected and detected information data. Yes, the display unit 2 shown in FIG. 1 displays influenza epidemic information (warning) on the upper part 2a, and digitally displays the detected temperature and humidity on the lower part 2b (15 ° C., 20%).

  3 is an operation button group, 3a is a setting button for selecting and setting a display mode such as time and calendar, 3b is an up switch button for switching so as to increase the set value, and 3c is a set value. A down switch button 3d for switching so as to decrease, and a set button 3d for confirming the switched set value.

  FIG. 2 is a block diagram showing a schematic configuration of a data detection / processing system in the present embodiment. 4 is a CPU (central processing unit), 5 is formed in a part of the CPU 4, or ROM, RAM For storing various information data or related data such as a relational expression to be described later.

  The CPU 4 is a temperature sensor 6 for detecting the dry bulb temperature (° C.) installed in the apparatus body case 1 or a humidity sensor 7 for detecting the relative humidity (%), the display unit 2, the operation buttons 3, etc. It is electrically connected to the electronic member, and exchanges detection data and control data.

  In the present embodiment, information related to the influenza epidemic is displayed and information related to heat stroke based on the WBGT index, which is a heat index, is displayed.

Determination / display of influenza epidemic information in the present embodiment will be described.
In this embodiment, the influenza epidemic information is determined based on the prediction of influenza epidemic by absolute humidity (Dr. Shoji Shoji devised Sendai City Medical Association).

That is, according to the prediction of the influenza epidemic, it is stated that “20% of influenza virus exists within 6 hours at an absolute humidity of 7 g / m ³ or less”. Considering this condition as a “warning area” where influenza virus occurs, the relative humidity at which the absolute humidity becomes 7 g / m ³ or less was read using a humid air diagram as shown in FIG.

  Then, from the read relative humidity, the regression analysis of the dry bulb temperature and the relative humidity at 21 ° C. or less was performed in this embodiment, and a correlation equation was created. As a result, the following correlation equation (3) was derived.

Relative humidity (%) <-4.2 × dry bulb temperature (° C.) + 130.1 (3)
The relative humidity and dry bulb temperature in the equation (3) are actually measured values detected by the humidity sensor 7 and the temperature sensor 6.

  FIG. 4 shows a list of errors between the theoretical value of relative humidity, the relative humidity value obtained from the correlation equation (3), and the theoretical value of relative humidity. As shown in this result, according to the equation (3), the error average is “0.6”, which is a range in which the implementation is not hindered.

Next, according to the prediction of the influenza epidemic, “5% influenza virus exists within 6 hours at an absolute humidity of 11 g / m ³ ”. Considering this condition as a “caution area” where influenza virus occurs, using a humid air diagram as shown in FIG. 3, the relative humidity at which the absolute humidity is 7 g / m ³ or more and 11 g / m ³ or less is read out. .

  Then, from the read relative humidity, the regression analysis of the dry bulb temperature and the relative humidity at 21 ° C. or lower was performed in the same manner as described above, and a correlation equation was created. As a result, the following correlation equation (4) was derived.

-4.2 × dry bulb temperature + 130.1 <relative humidity <−5.3 × dry bulb temperature + 181.3 (4)
The relative humidity and dry bulb temperature in the equation (4) are actually measured values detected by the humidity sensor 7 and the temperature sensor 6 as described above.

  FIG. 5 shows a list of errors between the theoretical value of relative humidity, the relative humidity value obtained from the correlation equation (3), and the theoretical value of relative humidity. As shown in this result, according to the equation (4), the average error is “−0.6”, which is a range in which the implementation is not hindered.

  A flow related to the operation of displaying information on prediction of influenza epidemic in the present embodiment using the correlation equation will be described with reference to FIG.

  When the main power supply of the influenza information display apparatus is turned on, the temperature sensor 6 and the humidity sensor 7 detect (actually measured values) the dry bulb temperature and relative humidity in the usage environment (step S1). In the CPU 4, the data of the detected dry bulb temperature and the relative humidity are entered into the correlation equations (3) and (4), and are processed (step S2).

Here, in the comparison function part of CPU4, it is compared whether the calculation result a is T ₁ = 7 (g / m ³ ) or less (step S3), and in CPU4 as the influenza determination part, when a is 7 or less (YES in step S3), the display unit 2 is caused to display a “warning” (step S4). In the display unit 2, influenza epidemic information (warning) is displayed on the upper part 2a, and measured values of temperature and humidity are digitally displayed on the lower part 2b.

In step S3, when a is not 7 or less (NO in step S3), in the CPU 4, whether the calculation result a is T ₁ = 7 (g / m ³ ) or more and T ₂ = 11 (g / m ³ ) or less. It is determined whether or not (step S5). As a result, if “a” is within the above range (YES in step S5), a “caution” display is displayed on the display unit 2 (step S7).

However, in step S5, if a is not in the range of T ₁ = 7 (g / m ³ ) or more and T ₂ = 11 (g / m ³ ) or less (NO in step S5), the determination function unit of the CPU 4 The CPU 4 does not display anything on the upper portion 2a of the display unit 2 as a range in which the trend is not prevalent (step S6).

  As described above, according to the present embodiment, a temperature sensor for detecting a conventional dry bulb temperature (° C.) and a humidity sensor for detecting a relative humidity (%) are created by creating the above correlation equation. In addition, there is no need to store a large amount of data in the CPU or memory, and the influenza epidemic warning can be easily displayed.

  Next, determination / display of heat stroke occurrence information in the present embodiment will be described.

  In this embodiment, heat stroke information uses the dry bulb temperature detected by the temperature sensor 6 and the relative humidity detected by the humidity sensor 7, and the dry bulb temperature, relative humidity, and WBGT value shown in FIG. The WBGT value is determined with reference to known data of the "Japan Heat Meteorology Prevention Guidelines in Daily Life", the Japan Meteorological Society being studied.

  In this case, each data of the heat stroke prevention guideline used as a judgment criterion of heat stroke is stored in the storage unit 5 in advance, and the CPU 4 as the heat stroke determination unit uses the detected temperature and humidity to detect the heat stroke prevention guideline. The WBGT value based on is calculated. Then, based on the calculated WBGT value, an alarm set by the heat stroke prevention guideline is displayed.

  According to the heat stroke prevention guideline, as shown in FIG. 7 (b), the WBGT value is 31 ° C. or higher, “danger”, the same value is 28-30 ° C. “warning”, and the same value is 25-27 ° C. Is displayed. Furthermore, in this embodiment, the WBGT value is set to display “almost safe” when the WBGT value is 21 to 24 ° C.

  Thus, the warning information related to heat stroke prevention can be calculated / displayed based on the dry bulb temperature detected by the temperature sensor 6 provided in the present embodiment and the relative humidity detected by the humidity sensor 7. .

  In FIG. 6, the operation for displaying only influenza epidemic information has been described. Thus, although it can also be set as the apparatus of a single function which displays only influenza epidemic information, in this embodiment, both said influenza epidemic information and heat stroke occurrence information can be displayed. By doing in this way, this apparatus can be used all seasons.

  In this case, regarding whether to display influenza epidemic information or heat stroke occurrence information, in this embodiment, a switch manually switched by the user is not provided. For this reason, in this embodiment, the temperature and humidity that are the display switching reference for influenza epidemic information or heat stroke occurrence information are set in advance, and this setting data is input to the CPU 4. Further, the CPU 4 is provided with a function of monitoring the detected temperature and detected humidity values, the detected value and the set value are compared, and the CPU 4 displays the influenza epidemic information mode or the heat stroke occurrence information displayed mode. Each part is controlled so that either of them is executed.

  FIG. 8 is a flowchart relating to the operation of the influenza information / heatstroke information display device in the present embodiment for displaying both influenza epidemic information and heatstroke occurrence information. In this example, a mode for displaying influenza epidemic information is executed when the detected temperature is 21 ° C. or lower and the humidity is 69% or lower, and heat stroke occurrence information is displayed when the detected temperature is 22 ° C. or higher and the humidity is 70% or higher. The mode is set to be executed.

  In FIG. 8, when the main power of the influenza information display apparatus is turned on, the temperature sensor 6 and the humidity sensor 7 detect (actually measured values) the dry bulb temperature and the relative humidity in the use environment (step S11). . In the CPU 4, the detected dry bulb temperature and relative humidity data are compared with the set values (step S12).

  In (step S12), when the detected temperature is 21 ° C. or lower and the humidity is 69% or lower (YES in step S12), a mode (inf mode) for displaying influenza epidemic information is executed (step S13), (step S14). Move to the flow. In (Step S14), (Step S1) to (Step S7) described in FIG. 6 are executed.

  In (step S12), when the detected temperature is 22 ° C. or higher and the humidity is 70% or higher (NO in step S12), a mode (heat stroke mode) for displaying heat stroke occurrence information is executed (step S15), and heat stroke As described in FIG. 7B, in the CPU 4 as the determination unit, the WBGT value is 31 ° C. or higher, “Danger”, the same value is 28-30 ° C., “Warning”, and the same value is 25-27 ° C. "It is determined / determined to be" almost safe "at 21 to 24 ° C, and each display is displayed on the display unit 2 as described above.

  Note that the configuration of the device or the coefficient value of the correlation equation is not limited to that described in the present embodiment, and it is necessary to appropriately change it according to the mode to be implemented and to make it actually match.

  INDUSTRIAL APPLICABILITY The present invention is effective when applied to a device that displays information related to various environmental conditions such as temperature / humidity, influenza, and heat stroke.

DESCRIPTION OF SYMBOLS 1 Apparatus main body case 2 Display part 3 Operation button group 4 CPU (central processing unit)
5 Storage unit 6 Temperature sensor 7 Humidity sensor

Claims (5)

A temperature sensor that detects the dry bulb temperature (° C);
A humidity sensor that detects relative humidity (%);
From the air diagram, the relative humidity that is below the absolute humidity (g / m ³ ) at which influenza virus is prevalent is read out, and the correlation between the relative humidity and the arbitrarily set dry bulb temperature or below is read out and read out A storage unit storing a correlation equation created based on values of relative humidity and dry bulb temperature;
A comparison unit that compares the value calculated by putting the dry bulb temperature detected by the temperature sensor into the correlation equation and the value of the relative humidity detected by the humidity sensor;
When the correlation formula is established, a determination unit that determines that an influenza virus is prevalent,
When the determination unit determines that the influenza virus is prevalent, a display unit that displays that effect;
An influenza information display device comprising: A temperature sensor that detects the dry bulb temperature (° C);
A humidity sensor that detects relative humidity (%);
From the air diagram, the relative humidity at which the absolute humidity at which influenza viruses are prevalent is 7 g / m ³ or less is read out, and the correlation between the relative humidity and the dry bulb temperature at about 20 ° C. or less is read out and read out. A storage unit storing the following correlation equation (1) created based on values of relative humidity and dry bulb temperature;
Relative humidity (%) <A x dry bulb temperature (° C) + B (1)
However, A≈−4, B≈130
A comparison unit that compares the value calculated by putting the dry bulb temperature detected by the temperature sensor into the correlation equation (1) with the value of the relative humidity detected by the humidity sensor;
When the correlation equation (1) is established, a determination unit that determines an influenza virus epidemic,
When the determination unit determines that the influenza virus is prevalent, a display unit that displays that effect;
An influenza information display device comprising: A temperature sensor that detects the dry bulb temperature (° C);
A humidity sensor that detects relative humidity (%);
From the air diagram, the relative humidity at which the absolute humidity at which influenza virus is prevalent is 7 g / m ³ or more and 11 g / m ³ or less is read, and the correlation between the relative humidity and the dry bulb temperature at about 20 ° C. or less And a storage unit storing the following correlation equation (2) created based on the read values of relative humidity and dry bulb temperature, and A × dry bulb temperature (° C.) + B <relative humidity (%) <C × Dry bulb temperature (° C) + D (2)
However, A≈−4, B≈130, C≈−5, D≈180,
A comparison unit that compares the value calculated by putting the dry bulb temperature detected by the temperature sensor into the correlation equation (2) with the value of the relative humidity detected by the humidity sensor;
When the correlation equation (2) is established, a determination unit that determines that an influenza virus is prevalent,
When the determination unit determines that the influenza virus is prevalent, a display unit that displays that effect;
An influenza information display device comprising: A temperature sensor that detects the dry bulb temperature (° C);
A humidity sensor that detects relative humidity (%);
From the air diagram, the relative humidity that is below the absolute humidity (g / m ³ ) at which influenza virus is prevalent is read out, and the correlation between the relative humidity and the arbitrarily set dry bulb temperature or below is read out and read out A storage unit storing a correlation equation created based on values of relative humidity and dry bulb temperature;
A comparison unit that compares the value calculated by putting the dry bulb temperature detected by the temperature sensor into the correlation equation and the value of the relative humidity detected by the humidity sensor;
When the correlation equation is established, an influenza determination unit that determines an influenza virus epidemic,
Furthermore, the storage unit stores heat stroke prevention guideline data consisting of the relationship between dry bulb temperature, relative humidity, and WBGT value,
Based on the heat stroke prevention index data, obtain a WBGT value from the dry and wet temperature detected from the temperature sensor and the relative humidity detected from the humidity sensor, and determine the heat stroke based on the WBGT value. With a heat stroke determination unit that
An influenza information / heatstroke information display device characterized in that a display unit displays information related to a determination result by the influenza determination unit or the heat stroke determination unit.   5. Control is performed so that one of the influenza determination unit and the heat stroke determination unit is determined based on the detected values of the dry bulb temperature and the relative humidity. Influenza information / heatstroke information display device described.

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