JP2014163883A - Humidity monitoring system using heat conduction type humidity sensor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve a problem that a slope of a curve showing a relationship between absolute humidity and sensor output changes after a peak of the absolute humidity because the relationship is represented by a quadratic function in a heat conduction type humidity sensor.SOLUTION: A humidity monitoring system using a heat conduction type humidity sensor to be provided in the invention comprises: a management region that is capable of being humidified and dehumidified arbitrarily; a humidity control unit that humidifies and dehumidifies the inside of the management region; a heat conduction type sensor unit that measures a voltage value relating to humidity in the management region; a humidity calculation unit that calculates absolute humidity from the voltage value measured by the sensor unit; calibration curve holding means that is arranged in the humidity calculation unit, is used when calculating the absolute humidity and holds two calibration curves for a high-humidity region and a low-humidity region; and a sensor diagnostic unit that diagnoses whether the sensor unit belongs to the high-humidity region or the low-humidity region of the calibration curves held by the calibration curve holding unit.

Description

  The present invention relates to a humidity monitoring system using a heat conduction type humidity sensor.

  Conventionally, as a method for measuring humidity generally, a capacitance type humidity sensor or a resistance change type humidity sensor has been used. These humidity sensors use a moisture-sensitive material that absorbs and dehumidifies moisture and has a structure in which electrodes are cross-linked. By absorbing or dehumidifying the moisture sensitive material, the capacitance and resistance value between the electrodes change, and the changed value is measured as humidity.

  On the other hand, the heat-conducting humidity sensor shown in Patent Document 1 utilizes the property that the thermal conductivity of air containing moisture (moisture) changes according to the humidity, and detects the humidity by the temperature change of the heating element. . That is, when the amount of water vapor around the heat generating element that has reached thermal equilibrium under a certain humidity changes, the amount of heat taken from the heat generating element changes and the thermal balance is lost, so the temperature of the heat generating element changes according to the humidity. This temperature change is electrically detected as a change in the resistance value of the heating element. Based on this principle, unlike the capacitance type or resistance change type humidity sensor described above, the heat conduction type humidity sensor can obtain the absolute humidity while the output obtained from the sensor is relative humidity. Is possible.

Japanese Patent Application No. 2011-047868

However, it is known that the relationship between the absolute humidity and the output of the sensor has a quadratic function peak in the heat conduction type humidity sensor. For this reason, the slope of the absolute humidity and the output of the sensor changes at the peak of the absolute humidity of about 130 g / m ³ . For this reason, when measuring humidity using a heat-conducting humidity sensor, it is necessary to determine whether the humidity in the measurement environment is right or left of the peak.

  In view of the above problems, the present invention provides a humidity monitoring system using the following heat-conducting humidity sensor. That is, as a first invention, a management area in which humidity can be arbitrarily humidified and dehumidified, a humidity control unit for humidifying and dehumidifying humidity in the management area, and a voltage value related to humidity in the management area are measured. A heat conduction type sensor unit, a humidity calculation unit that calculates absolute humidity from a voltage value measured by the sensor unit, and a humidity calculation unit that is used when calculating the absolute humidity and for high humidity regions And calibration curve holding means for holding two calibration curves for the low humidity region, and whether the sensor unit belongs to the high humidity region or the low humidity region of the two calibration curves held in the calibration curve holding unit And a humidity monitoring system using a heat conduction type humidity sensor.

  As a second invention, the sensor diagnosis unit instructs the humidity control unit to increase or decrease the humidity in the management region, and responds to the voltage output change of the sensor unit accompanying the humidity change in the management region. Thus, there is provided a humidity monitoring system using the heat conduction type humidity sensor according to the first invention for diagnosing whether it belongs to a high humidity region or a low humidity region.

  As a third invention, a temperature measurement unit that measures the temperature in the management area, and the humidity calculation unit includes a relative humidity calculation unit that calculates relative humidity based on temperature information measured by the temperature measurement unit. A humidity monitoring system using the heat conduction type humidity sensor according to the invention or the second invention is provided.

  As in the humidity monitoring system using the heat conduction type humidity sensor of the present invention, it is possible to measure the absolute humidity by providing a heat conduction type sensor. Furthermore, by providing a sensor diagnosis unit, the humidity control unit is instructed to increase or decrease the humidity in the management region, and according to the voltage output change of the sensor unit accompanying the humidity change in the management region, It is possible to diagnose whether it belongs to the high humidity region or the low humidity region and calculate the absolute humidity.

  Further, the relative humidity is calculated based on the temperature information in the management area measured by the temperature sensor from the information on the absolute humidity from the heat conduction type humidity sensor by the temperature monitoring system using the heat conduction type humidity sensor of the present invention. It is also possible.

Functional block diagram for explaining a humidity monitoring system using the heat conduction type humidity sensor of Embodiment 1 The conceptual diagram for demonstrating the sensor part of the humidity monitoring system using the heat conduction type humidity sensor of Embodiment 1. FIG. The conceptual diagram for demonstrating the relationship between the voltage value and absolute humidity of the humidity monitoring system using the heat conduction type humidity sensor of Embodiment 1. The flowchart explaining the flow of a process of the humidity monitoring system using the heat conduction type humidity sensor of Embodiment 1. Functional block diagram for explaining a humidity monitoring system using the heat conduction type humidity sensor of the second embodiment Formula for calculating the relative humidity of the humidity monitoring system using the heat conduction type humidity sensor of the second embodiment

  Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. In addition, this invention should not be limited to these embodiments at all, and can be implemented in various modes without departing from the gist thereof.

  The first embodiment mainly relates to claim 1 and the like. The second embodiment mainly relates to claim 2 and the like.

<< Embodiment 1 >>
<Overview of Embodiment 1>
In the heat conduction type humidity sensor, this embodiment holds two calibration curves for the high humidity region and the low humidity region, and the humidity in the management region where the humidity is measured is in the high humidity region or the low humidity region. It is a humidity monitoring system using a heat conduction type humidity sensor, characterized in that it has a sensor diagnostic unit for diagnosing which one belongs.

<Configuration of Embodiment 1>
FIG. 1 shows a functional block diagram of the humidity monitoring system of the present embodiment. The humidity monitoring system using the heat conduction type humidity sensor of this embodiment includes a management area (0101) capable of arbitrarily humidifying and dehumidifying the humidity, and a humidity control unit (0102) for humidifying and dehumidifying the humidity in the management area. A heat conduction type sensor unit (0103) for measuring a voltage value related to humidity in the management area, a humidity calculation unit (0104) for calculating absolute humidity from the voltage value measured by the sensor unit, A calibration curve holding means (0105) that is provided in the humidity calculation unit and used to calculate the absolute humidity and holds two calibration curves for the high humidity region and the low humidity region, and the sensor unit includes the calibration A sensor diagnostic unit (0106) for diagnosing whether the two calibration curves held in the line holding unit belong to the high humidity region or the low humidity region.

  The “management area” is an area that can be humidified and dehumidified in the area by a humidity control unit described later. As long as the management area is an area where humidification and dehumidification are possible, there are no restrictions on the size, shape, constituent material, and the like.

  The “humidity control unit” can humidify and dehumidify the humidity in the management area described above and change the humidity in the management area. Specifically, the humidity control unit includes a humidifier and a dehumidifier. The humidity control unit performs humidification and dehumidification in the region under the control of the user of the temperature monitoring system of the present embodiment, and changes the humidity in the region to an arbitrary humidity. In a normal use state, the humidity control unit controls the humidity in the region based on humidity information obtained from a heat conduction type sensor unit described later.

  The “sensor unit” measures a voltage value related to humidity in the management area. Specifically, the sensor unit is a heat conduction type humidity sensor. As shown in FIG. 2, the sensor unit of the present embodiment forms a bridge circuit with a detection electrode (0201), a reference electrode (0202), and two other fixed resistors (0203, 0204). A predetermined voltage is applied to the circuit, and each element generates heat. When humidified air containing water vapor is introduced from dry air, the element of the sensing electrode touches the humidified air having different thermal conductivity, so the temperature changes and the resistance value changes. On the other hand, since the element of the reference electrode is configured not to touch the air in the management area, the resistance value does not change. Thus, the change of the resistance value of the detection electrode with respect to the reference electrode according to the humidity is measured as the output voltage.

  The “humidity calculation unit” includes a calibration curve holding unit, which will be described later, and calculates absolute humidity from the voltage value measured by the sensor unit. In order to calculate the absolute humidity from the voltage value, it is calculated using a calibration curve as illustrated in FIG. 3 held in a calibration curve holding means described later. In the heat conduction type humidity sensor of the present embodiment, the voltage value measured by the sensor unit and the absolute humidity have the relationship shown in the calibration curve of FIG. 3, and therefore, based on the calibration curve held in the calibration curve holding means, Calculate the absolute humidity from the voltage value.

  The “calibration curve holding means” is provided in the humidity calculation unit, and holds two calibration curves for high humidity region and low humidity region used when calculating absolute humidity. As shown in FIG. 3, the calibration curve of the sensor unit of the present embodiment has a shape that has a maximum at a specific absolute humidity with respect to voltage. Therefore, when the humidity calculation unit described above calculates the absolute humidity, it is necessary to select a calibration curve to be used depending on whether the humidity in the management area is in the low humidity area or the high humidity area. For this reason, the calibration curve holding means has two calibration curves for the low humidity region and the high humidity region.

  The “sensor diagnosis unit” diagnoses whether the two calibration curves held in the calibration curve holding unit belong to the high humidity region or the low humidity region. As described above, since the calibration curve of the sensor unit of the present embodiment has a shape having a maximum at a certain absolute humidity with respect to the voltage, the low humidity region of the calibration curve held by the calibration curve holding unit. It is necessary to select whether to use for high humidity or high humidity. The sensor diagnosis unit diagnoses which calibration curve is used, that is, whether the tube region is in the low humidity region or the high humidity region.

  Further, the sensor diagnosis unit instructs the humidity control unit to increase or decrease the humidity in the management region, and in accordance with the voltage output change of the sensor unit accompanying the humidity change in the management region, Diagnose whether it belongs to the low humidity region. The sensor diagnostic unit changes the humidity in the management area with respect to the temperature control unit, and the management area is in the high humidity area or in the low humidity area due to a voltage change caused by any humidity change Diagnose. The diagnosis result of the sensor diagnosis unit is used to select a calibration curve in the humidity calculation unit, and the absolute humidity is calculated.

  The humidity monitoring system using the heat-conducting humidity sensor of this embodiment includes a CPU and main memory for performing various arithmetic processes, a program for performing various processes, judgments and calculations, a hard disk for storing and holding calibration curves, and the like. Communication device for communication by connecting to storage devices such as flash memory, display for notifying various information to the user, LED for monitor, speaker, sensor unit for measuring humidity, and operation from the user It has an operation key to accept. These are connected to each other by a system bus or a data communication path, and perform transmission / reception and processing of information. The main memory provides a work area that is a work area for the program at the same time that the program for performing various processes is read for the CPU to execute. In addition, a plurality of memory addresses are assigned to the main memory and the storage device, respectively, and a program executed by the CPU performs data exchange and processing by specifying and accessing the memory address. Is possible.

<First Embodiment Processing Flow>
FIG. 4 shows a flowchart for explaining the processing flow of the present embodiment. In the humidity monitoring system using the heat conduction type humidity sensor of the present embodiment, first, the sensor unit measures a voltage value related to the humidity in the management area where the humidity is controlled by the humidity control unit (S0401). The measured voltage value is sent to the humidity calculator. The humidity calculation unit refers to the calibration curve for either the high humidity region or the low humidity region held in the calibration curve holding unit, and calculates the absolute humidity (S0403). At this time, if it is unclear which calibration curve should be used for the high humidity region or the low humidity region (S0402), the sensor diagnostic unit diagnoses which calibration curve should be used (S0404). ). Specifically, the sensor diagnosis unit increases or decreases the humidity in the management area, measures the change in the voltage value related to the humidity value at that time, and the humidity in the management area is in the high humidity area or the low humidity area. Diagnose whether it is either, and send the diagnosis result to the arithmetic unit.

<Embodiment 1 effect>
As in the humidity monitoring system using the heat conduction humidity sensor of the present embodiment, the absolute humidity can be measured by providing a heat conduction sensor. Furthermore, by providing a sensor diagnosis unit, the humidity control unit is instructed to increase or decrease the humidity in the management region, and according to the voltage output change of the sensor unit accompanying the humidity change in the management region, It is possible to diagnose whether it belongs to the high humidity region or the low humidity region and calculate the absolute humidity.

<Embodiment 2>
<Overview of Embodiment 2>
The present embodiment is characterized by having a temperature measuring unit that measures the temperature in the management region in order to calculate the relative humidity from the absolute humidity, and a relative humidity calculating means for calculating the relative humidity from the absolute humidity.

<Configuration of Embodiment 2>
FIG. 5 shows a functional block diagram for explaining the present embodiment. The humidity monitoring system using the heat conduction type humidity sensor of this embodiment includes a management area (0501), a humidity control unit (0502), a heat conduction type sensor unit (0503) described in the first embodiment, and a humidity. The calculation unit (0504), the calibration curve holding means (0505), the sensor diagnosis unit (0506), the temperature measurement unit (0507) for measuring the temperature in the management area, and the temperature information measured by the temperature measurement unit And a relative humidity calculating means (0508) for calculating relative humidity based on it.

  The “temperature measuring unit” measures the temperature in the management area, sends the measured temperature value to a relative humidity calculating means described later, and the relative humidity calculating means calculates the relative humidity based on the temperature value. The temperature measurement unit may be of any type of temperature sensor, such as a thermocouple or a resistance temperature detector, as long as temperature measurement is possible. It is also possible to select an appropriate temperature sensor according to the temperature and atmosphere in the management area.

The “relative humidity calculation means” is provided in the humidity calculation unit described above, and the temperature information measured by the temperature measurement unit and the voltage value related to humidity obtained from the heat conduction type sensor unit described in the first embodiment. Based on the above, the relative humidity is calculated. The calculation of the relative humidity (H [%]) from the absolute humidity (D [g / m ³ ]) is based on the saturated water vapor pressure (e [Pa]) data held in advance in the relative humidity calculating means and the temperature measuring unit. Using the measured temperature value (t [° C.]), the saturation absolute humidity (D _s [g / m ³ ]) is calculated. The saturated absolute humidity (D _s [g / m ³ ]) is calculated based on the equation (1) in FIG. Then the saturated absolute humidity calculated by the formula _{(1) (D s [g} / m 3]), from the value of the absolute humidity measured in Embodiment ^{1 (D [g / m 3} ]), the relative Humidity (H [%]) is calculated. Specifically, it is calculated based on the equation (2) in FIG.

<Embodiment 2 Effect>
The relative humidity is calculated based on the temperature information in the management area measured by the temperature sensor from the information on the absolute humidity from the heat conduction humidity sensor by the temperature monitoring system using the heat conduction humidity sensor of the present embodiment. Is possible.

0101 Management region 0102 Humidity control unit 0103 Heat conduction type sensor unit 0104 Humidity calculation unit 0105 Calibration curve holding means 0106 Sensor diagnostic unit 0201 Detection electrode 0202 Reference electrode 0203 Fixed resistance 0204 Fixed resistance 0501 Management region 0502 Humidity control unit 0503 Thermal conduction type Sensor unit 0504 Humidity calculation unit 0505 Calibration curve holding unit 0506 Sensor diagnosis unit 0507 Temperature measurement unit 0508 Relative humidity calculation unit

Claims (3)

A management area where humidity can be arbitrarily humidified and dehumidified;
A humidity control unit for humidifying and dehumidifying the humidity in the management area;
A heat conduction type sensor unit for measuring a voltage value related to humidity in the management area;
A humidity calculator that calculates absolute humidity from the voltage value measured by the sensor unit;
A calibration curve holding means that is provided in the humidity calculation unit and is used when calculating the absolute humidity, and holds two calibration curves for the high humidity region and the low humidity region,
A sensor diagnostic unit for diagnosing whether the sensor unit belongs to a high humidity region or a low humidity region of two calibration curves held in the calibration curve holding unit;
A humidity monitoring system using a heat conduction humidity sensor.   The sensor diagnosis unit instructs the humidity control unit to increase or decrease the humidity in the management region, and in accordance with the voltage output change of the sensor unit accompanying the humidity change in the management region, The humidity monitoring system using the heat conduction type humidity sensor according to claim 1, which diagnoses which one of the low humidity regions belongs. A temperature measuring unit for measuring the temperature in the management area;
The humidity calculator is a relative humidity calculator that calculates relative humidity based on the temperature information measured by the temperature measuring unit;
A humidity monitoring system using the heat conduction type humidity sensor according to claim 1.