JP2018124069A - Sensor calibration support device and method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To increase easiness of implementation of multiple point calibration of a temperature/humidity sensor fixed to a wall surface in a chamber and the like.SOLUTION: A sensor calibration support device 100a includes: a container 102 in which a humidity/temperature sensor 10 is stored in a space in the interior in a state that a wall surface provided with the temperature/humidity sensor 10 of a calibration object in the shape of a cylinder whose one end is open comes into contact with one end; a temperature and humidity generation unit 106 for generating a controlled temperature and humidity environment in the space inside the container 102; a temperature and humidity sensor 105 for measuring the temperature and the humidity in the space; a temperature and humidity control calculation unit 109 for controlling the temperature and humidity generation unit 106; a temperature sensor 113 for measuring the temperature and humidity in the vicinity of the temperature humidity sensor 10; and a sensor calibration support function unit 114 for calculating a theoretical dew point based on the controlled temperature and the controlled relative humidity measured by the temperature and humidity sensor 105 and calculating a relative humidity standard value in a position of the temperature sensor 113 based on the theoretical dew point and the temperature standard value measured by the temperatures sensor 113.SELECTED DRAWING: Figure 6

Description

  The present invention relates to a technique for calibrating a temperature / humidity sensor fixed to a wall surface of a room, and more particularly to a sensor calibration support apparatus and method for supporting multipoint calibration of a temperature / humidity sensor.

  The temperature and humidity sensor installed in the room of the building facility is used to maintain the appropriate measurement accuracy depending on the purpose of the facility, for example, the living environment in the hotel room and the hygiene management of the pharmaceutical manufacturing plant. It is necessary to perform the calibration of For example, Patent Document 1 discloses an example of two-point calibration in which measured values of a temperature sensor before calibration, such as 10 ° C. and 102 ° C., are calibrated to 13 ° C. and 107 ° C.

  However, since it takes time to change the temperature and humidity environment in the room where the temperature and humidity sensor is installed, there is a problem that it takes time to calibrate the temperature and humidity sensor. Therefore, when the calibration of the temperature / humidity sensor fixed to the wall of the room or the like must be performed in a short time due to work efficiency, etc., only one point in the indoor temperature / humidity environment at the time of the implementation. It must be proofreading. In the case of one-point calibration, the calibration does not reach a wide range considering the original measurement range of the temperature / humidity sensor, and the room temperature and relative humidity at the time of calibration are only values obtained by chance. In other words, as a desirable calibration method for the sensor, it is a coarse calibration as compared with a general multi-point calibration, so an improvement is required.

JP, 2006-018293, A

  The present invention has been made to solve the above-described problems, and provides a sensor calibration support apparatus and method that can improve the ease of performing multi-point calibration of a temperature and humidity sensor fixed to an indoor wall surface or the like. For the purpose.

The sensor calibration support apparatus of the present invention has a cylindrical shape with one end open, and the first temperature / humidity sensor is in the state where the wall on which the first temperature / humidity sensor to be calibrated is in contact with the one end. A container installed so as to be accommodated in the space, a temperature / humidity generator configured to generate a controlled temperature / humidity environment in the space, and the temperature and relative humidity of the space to be controlled, respectively. A second temperature / humidity sensor configured to measure the temperature and the controlled relative humidity, the controlled temperature measured by the second temperature / humidity sensor matches a target temperature set by an operator, and A temperature / humidity control calculation unit configured to control the temperature / humidity generation unit so that the controlled relative humidity measured by the second temperature / humidity sensor matches a target relative humidity set by an operator. A temperature sensor configured to measure a temperature in the vicinity of the first temperature / humidity sensor as a temperature standard value, and a theoretical dew point is calculated based on the controlled temperature and the controlled relative humidity. And a relative humidity correction unit configured to calculate a relative humidity standard value at the position of the temperature sensor based on the theoretical dew point and the temperature standard value measured by the temperature sensor. Are provided.
In addition, one configuration example of the sensor calibration support apparatus of the present invention is characterized by further comprising a display control unit that displays the temperature standard value and the relative humidity standard value.

Further, in one configuration example of the sensor calibration support apparatus of the present invention, the theoretical dew point calculation unit includes a first saturated water vapor pressure calculation unit configured to calculate a saturated water vapor pressure at the controlled temperature, and the first saturated water vapor pressure calculation unit. A water vapor pressure calculating unit configured to calculate a water vapor pressure based on the saturated water vapor pressure calculated by the saturated water vapor pressure calculating unit and the controlled relative humidity, and the water vapor pressure calculated by the water vapor pressure calculating unit. A dew point calculating unit configured to calculate a theoretical dew point based on the second dew point calculating unit configured to calculate a saturated water vapor pressure at the theoretical dew point. A third saturated water vapor pressure calculating unit configured to calculate a saturated water vapor pressure at the temperature standard value, a saturated water vapor pressure calculated by the second saturated water vapor pressure calculating unit, and the third saturated water It is characterized in that the pressure calculation section is composed of a relative humidity standard value calculation unit configured to calculate a ratio between the calculated saturation vapor pressure of the relative humidity reference value.
Further, in one configuration example of the sensor calibration support apparatus of the present invention, the calculation of the saturated water vapor pressure in the first, second, and third saturated water vapor pressure calculation units is based on a saturated vapor pressure formula of SONNTAG. Is.

Further, in one configuration example of the sensor calibration support apparatus of the present invention, the container includes an inner first tube portion that houses the first temperature and humidity sensor, and an outer first tube portion that houses the first tube portion. The first cylinder part and the second cylinder part are between the temperature / humidity generation part and the temperature / humidity control calculation part between the first cylinder part and the second cylinder part. Is arranged so that a first space in which air controlled in temperature and humidity by the air flows toward the first temperature and humidity sensor is formed, and the first cylindrical portion is a space inside the first cylindrical portion. Is separated into a second space that houses the first temperature and humidity sensor and a third space that is connected to the air intake port of the temperature and humidity generator, the first space, and the second space A first air hole that communicates with the space, and the heat insulating material communicates between the second space and the third space. Having a vent, said second temperature and humidity sensor is characterized in that the measuring as the third temperature and relative humidity and the controlled relative humidity and each of the controlled temperature of the space.
In one configuration example of the sensor calibration support apparatus of the present invention, the theoretical dew point calculation unit and the relative humidity correction unit start calculating the theoretical dew point and the relative humidity standard value according to an instruction from an operator. It is characterized by.

Further, in one configuration example of the sensor calibration support apparatus of the present invention, the determination unit further determines whether or not a predetermined time has elapsed from the start time of the temperature and humidity control according to the target temperature and the target relative humidity. The theoretical dew point calculation unit and the relative humidity correction unit start calculating the theoretical dew point and the relative humidity standard value when the determination unit determines that the predetermined time has elapsed. To do.
Further, in one configuration example of the sensor calibration support apparatus of the present invention, the sensor calibration support device further includes a determination unit that determines whether the temperature / humidity control is set based on the controlled temperature and the controlled relative humidity, The theoretical dew point calculation unit and the relative humidity correction unit start calculating the theoretical dew point and the relative humidity standard value when the determination unit determines that the temperature / humidity control is settled. It is.
Further, in one configuration example of the sensor calibration support apparatus of the present invention, the temperature / humidity generation unit is configured to heat or cool the air in accordance with a temperature control signal output from the temperature / humidity control calculation unit. A heating / cooling actuator and a humidifying / dehumidifying actuator configured to humidify or dehumidify air according to a humidity control signal output from the temperature / humidity control calculation unit are provided.

  In the sensor calibration support method of the present invention, the wall surface on which the first temperature / humidity sensor to be calibrated is placed in contact with the one end of the cylindrical container having one open end, and the first temperature / humidity sensor is A first step of measuring a temperature and a relative humidity of the space as a controlled temperature and a controlled relative humidity by a second temperature and humidity sensor in a state of being accommodated in the space inside the container; The controlled relative humidity measured by the second temperature sensor is equal to the target temperature set by the operator, and the controlled relative humidity measured by the second temperature / humidity sensor is set by the operator. A second step of controlling the temperature / humidity generation unit so as to coincide with the above to generate a controlled temperature / humidity environment in the space, and a temperature near the first temperature / humidity sensor as a temperature standard value. A third step of measuring by a temperature sensor, a fourth step of calculating a theoretical dew point based on the controlled temperature and the controlled relative humidity, and the theoretical dew point and the temperature measured by the temperature sensor. And a fifth step of calculating a relative humidity standard value at the position of the temperature sensor based on the standard value.

  According to the present invention, by accommodating the first temperature / humidity sensor to be calibrated in the space in the container, the space around the first temperature / humidity sensor can be reduced, and different temperature / humidity environments can be created. Since it becomes easy, the time required for multipoint calibration of the first temperature and humidity sensor can be shortened, and the ease of performing multipoint calibration can be improved. In the present invention, even if the temperature distribution in the space in which the first temperature and humidity sensor is accommodated is large, the controlled relative humidity is corrected to the relative humidity standard value at a position near the first temperature and humidity sensor. Therefore, accurate calibration of the first temperature / humidity sensor can be performed.

  Moreover, in this invention, the stable airflow can be supplied to a 1st temperature / humidity sensor by making a container into the shape of a double cylinder.

It is a figure explaining the outline | summary of the sensor calibration assistance apparatus of this invention. It is a figure explaining the influence of the temperature-humidity difference received when the wall surface in which the temperature / humidity sensor of the calibration object is installed is warm. It is a figure explaining the influence of the temperature / humidity difference received when the wall surface in which the temperature / humidity sensor of the calibration object is installed is cold. It is a figure which shows the structure which brought the temperature / humidity sensor for control close to the wall surface in which the temperature / humidity sensor to be calibrated is installed. It is sectional drawing which shows the structure of the principal part of the sensor calibration assistance apparatus which concerns on 1st Example of this invention, and a front view of a sensor calibration assistance apparatus. It is a block diagram which shows the structure of the sensor calibration assistance apparatus which concerns on 1st Example of this invention. It is a flowchart explaining operation | movement of the temperature / humidity control calculating part of the sensor calibration assistance apparatus which concerns on 1st Example of this invention. It is a block diagram which shows the structure of the sensor calibration assistance function part of the sensor calibration assistance apparatus which concerns on 1st Example of this invention. It is a flowchart explaining the sensor calibration assistance function of the sensor calibration assistance apparatus which concerns on 1st Example of this invention. It is sectional drawing which shows the structure of the principal part of the sensor calibration assistance apparatus which concerns on 2nd Example of this invention, and a front view of a sensor calibration assistance apparatus. It is a block diagram which shows the structure of the sensor calibration assistance apparatus which concerns on 2nd Example of this invention.

[Principle of the Invention]
Compared to the size of the temperature / humidity sensor, it takes time to calibrate by creating different temperature / humidity conditions due to the large indoor space where temperature and humidity are measured using this temperature / humidity sensor (multi-point calibration). Excessive cost is the reason why you have to compromise with a coarse calibration. Therefore, the inventor has come up with the idea that the ambient space of the temperature / humidity sensor to be calibrated should be reduced by using a sensor calibration support device that can be carried and can be installed so as to cover the temperature / humidity sensor to be calibrated.

  FIG. 1 is a diagram for explaining the outline of the sensor calibration support apparatus of the present invention. The sensor calibration support apparatus 100 has a housing 101 and a cylindrical shape provided in the housing 101, with one end opened, and the wall 11 on which the temperature / humidity sensor 10 to be calibrated is installed and the one end are in contact with each other. And the temperature and humidity sensor 105 for measuring the temperature and humidity of the space in the container 102, and the controlled temperature in the space in the container 102. A temperature / humidity generating unit 106 that generates a humidity environment, and a circulation fan 107 that blows air controlled by the temperature / humidity generating unit 106 toward the temperature / humidity sensor 10 are provided.

SA in FIG. 1 is temperature / humidity controlled by the temperature / humidity generation unit 106 and is supplied to the temperature / humidity sensor 10 (air supply), and RA is air returning from the temperature / humidity sensor 10 toward the temperature / humidity generation unit 106. (Return).
In this way, by accommodating the temperature / humidity sensor 10 to be calibrated in the space in the container 102, the space around the temperature / humidity sensor 10 can be reduced, and it becomes easy to create different temperature / humidity environments. The time required for multipoint calibration of the sensor 10 can be shortened, and the ease of performing multipoint calibration can be improved.

  On the other hand, when the sensor calibration support apparatus 100 as shown in FIG. 1 is used, there are the following problems. Specifically, when the sensor calibration support apparatus 100 has a size and shape that can be carried, the temperature / humidity in the vicinity of the temperature / humidity sensor 10 to be calibrated and the temperature / humidity in the vicinity of the temperature / humidity sensor 105, for example, Due to the influence of the temperature of the wall surface 11 on which the humidity sensor 10 is installed, a temperature distribution (temperature difference) at a level that cannot be ignored and a relative humidity distribution (humidity difference) associated therewith may occur.

  For example, as shown in FIG. 2, the temperature / humidity generating unit 106 is controlled based on the measurement result of the temperature / humidity sensor 105, and the temperature / humidity in the vicinity of the temperature / humidity sensor 105 in the container 102 is, for example, 25 [° C.], 44 [ %], If the temperature of the wall surface 11 is, for example, 30 [° C.], the temperature and humidity in the vicinity of the temperature / humidity sensor 10 in the container 102 is influenced by the temperature of the wall surface 11 and is, for example, 26 [° C.]. 41 [%].

  As shown in FIG. 3, even if the temperature and humidity in the vicinity of the temperature and humidity sensor 105 in the container 102 are controlled to, for example, 25 [° C.] and 44 [%], the temperature of the wall surface 11 is 20 [° C.], for example. In this case, the temperature and humidity in the vicinity of the temperature and humidity sensor 10 in the container 102 are affected by the temperature of the wall surface 11 and become, for example, 23 [° C.] and 50 [%].

  As shown in FIG. 4, even if the temperature / humidity sensor 105 for control is as close to the wall surface 11 as possible, the temperature / humidity sensor 105 is affected by a considerable temperature / humidity difference. It is not preferable to keep away from the humidity generator 106.

  Therefore, as a result of intensive research, it was found that the absolute humidity in the container 102 is in a negligible distribution due to the diffusion of the amount of water vapor compared to the temperature distribution in the container 102. Then, the inventor adds a temperature sensor in the vicinity of the temperature / humidity sensor 10 to be calibrated, sets the temperature measured by the temperature sensor as a standard value (reference value by a standard thermometer), and makes a relative based on this temperature. I came up with correcting the humidity. As a result, the temperature and humidity in the vicinity of the temperature and humidity sensor 10 can be controlled to a level necessary for calibration of the temperature and humidity sensor 10, and a configuration in which the temperature and humidity can be arbitrarily set at multiple points is obtained.

[First embodiment]
A first embodiment of the present invention will be described below with reference to the drawings. 5A is a cross-sectional view showing the configuration of the main part of the sensor calibration support apparatus 100a according to the present embodiment, and FIG. 5B is a view of the sensor calibration support apparatus 100a viewed from the wall surface side where the temperature / humidity sensor 10 is installed. FIG. 6 is a block diagram showing the configuration of the sensor calibration support apparatus 100a. 5A, FIG. 5B, and FIG. 6, the temperature / humidity sensor 10 is placed in the space 1020 in the container 102 of the sensor calibration support apparatus 100a in order to facilitate understanding of the relationship with the temperature / humidity sensor 10 to be calibrated. It is drawn in a housed state.

  The sensor calibration support apparatus 100a is a heating / cooling actuator provided in the casing 101, the container 102, the temperature / humidity sensor 105, the temperature / humidity generation unit 106, the circulation fan 107, and the temperature / humidity generation unit 106. The controlled temperature PT [° C.] measured by the Peltier element 108 and the temperature / humidity sensor 105 matches the target temperature ST [° C.] set by the operator, and the controlled relative humidity PH [%] measured by the temperature / humidity sensor 105. ], A temperature / humidity control calculation unit 109 that controls the temperature / humidity generation unit 106 so that it matches the target relative humidity SH [%] set by the operator, a display control unit 110, and a display unit 111 such as a liquid crystal panel. The temperature sensor 113 that measures the temperature in the vicinity of the temperature / humidity sensor 10, the sensor calibration support function unit 114, and the operator uses the sensor calibration support device 1 0a to and an operation portion 115 for giving an instruction.

  The container 102 has a cylindrical structure, and the upstream end that performs temperature and humidity control is the closed end 103, and the downstream end is the open end 104 so that the temperature and humidity sensor 10 to be calibrated can be accommodated. It has become. When it is necessary to insulate the surroundings, it is preferable to use a resin or ceramic with good heat insulation as the material of the container 102. In order to realize a portable sensor calibration support apparatus 100a with a small space around the temperature / humidity sensor 10, the size of the container 102 is, for example, a diameter of a cylinder of about several tens of centimeters and a length of about several tens of centimeters. Preferably there is.

  In this embodiment, in order to monitor the temperature distribution in the space in which the temperature / humidity sensor 10 to be calibrated is accommodated (the difference between the controlled temperature PT measured by the temperature / humidity sensor 105 and the temperature near the temperature / humidity sensor 10). In addition, a temperature sensor 113 is added in the vicinity of the temperature / humidity sensor 10. It is assumed that the temperature sensor 113 is calibrated in advance.

  The temperature sensor 113 is preferably near the temperature / humidity sensor 10. In general, the temperature / humidity sensor 10 is configured such that a sensor main body unit fixed to a wall surface 11 is covered with a cover, and air flows from a gap formed in the cover. Therefore, when the temperature / humidity sensor 10 is calibrated, the cover is removed to expose the main unit, and the temperature sensor 113 is installed in the vicinity of the main unit.

  With the temperature sensor 113 installed in this way, the operator places the container so that the temperature / humidity sensor 10 is accommodated in the space 1020 in the container 102 of the sensor calibration support apparatus 100a as shown in FIG. The downstream end of 102 is pressed against the wall surface 11 in the room where the temperature / humidity sensor 10 is installed.

  In order to improve the airtightness of the space 1020, the sensor calibration support apparatus 100a may include a pressing mechanism that presses the container 102 against the wall surface 11. However, since simple calibration of the temperature / humidity sensor 10 is assumed in the present invention, ensuring strict airtightness of the space 1020 is not an essential component of the present invention.

  The temperature / humidity sensor 105 is provided on the upstream side in the container 102. The temperature / humidity sensor 105 is desirably provided in the vicinity of the temperature / humidity generating unit 106. The temperature / humidity sensor 105 is calibrated in advance.

  The temperature / humidity generator 106 generates a controlled temperature / humidity environment in the space 1020 in the container 102. Specifically, the temperature / humidity generating unit 106 includes a Peltier element 108 as a heating / cooling actuator that heats or cools the air in the container 102, and also performs humidification / dehumidification to humidify or dehumidify the air in the container 102. A shunt type humidity generator (not shown) is provided as a dehumidifying actuator.

  As is well known, in the shunt-type humidity generator, the return air RA is dried by a dehumidifier (for example, a desiccant), the dry air is divided into two flows, and one air is divided by a humidifier (for example, an ultrasonic humidifier). It is a device that humidifies, mixes dry air and humidified air, and sends it out. The shunt-type humidity generator can produce air having a desired relative humidity by adjusting the ratio of the flow rate of dry air and the flow rate of humidified air.

After installing the sensor calibration support apparatus 100a as described above, the operator operates the operation unit 115 to set an arbitrary target temperature ST [° C.] and target relative humidity SH [%], and temperature and humidity control calculation The unit 109 is instructed to start temperature and humidity control.
7A is a flowchart for explaining the temperature control operation of the temperature / humidity control calculation unit 109, and FIG. 7B is a flowchart for explaining the humidity control operation of the temperature / humidity control calculation unit 109.

  The temperature / humidity control calculation unit 109 acquires the controlled temperature PT [° C.] measured by the temperature / humidity sensor 105 (FIG. 7A, step S10), and sets the target temperature ST [° C.] and the controlled temperature PT [° C.]. The operation amount is calculated by the PID control calculation so as to match (step S11 in FIG. 7A). The temperature / humidity control calculation unit 109 outputs a Peltier control signal (temperature control signal) having a current value corresponding to the calculated operation amount to the Peltier element 108 of the temperature / humidity generation unit 106 (step S12 in FIG. 7A). . The temperature / humidity control calculation unit 109 repeatedly executes the processes of steps S10 to S12 for each control cycle until, for example, the operator instructs the end of the temperature / humidity control (YES in step S13 in FIG. 7A).

  Thus, the air in the container 102 can be heated or cooled to the target temperature ST by the Peltier element 108. It is possible to use a heating / cooling actuator other than the Peltier element.

  Moreover, the temperature / humidity control calculation unit 109 acquires the controlled relative humidity PH [%] measured by the temperature / humidity sensor 105 (step S20 in FIG. 7B), and the target relative humidity SH [%] and the controlled relative humidity. The operation amount is calculated by PID control calculation so that PH [%] matches (step S21 in FIG. 7B). Then, the temperature / humidity control calculation unit 109 outputs a diversion ratio control signal (humidity control signal) corresponding to the calculated operation amount to a flow rate control valve (not shown) of the temperature / humidity generation unit 106 (step (B) in FIG. 7). S22). The temperature / humidity control calculation unit 109 repeatedly executes the processes of steps S20 to S22 for each control cycle until, for example, the operator instructs the end of the temperature / humidity control (YES in step S23 in FIG. 7B).

  In this way, the air in the container 102 can be humidified or dehumidified to the target relative humidity SH by controlling the flow rate of either or both of the dry air and the humidified air described above by the flow rate control valve. In addition, it is also possible to use things other than a shunt-type humidity generator as a humidification / dehumidification actuator.

  The circulation fan 107 sends out air (supply air SA), which is temperature / humidity controlled by the temperature / humidity generation unit 106 and the temperature / humidity control calculation unit 109, toward the temperature / humidity sensor 10 on the downstream side. In the present embodiment, the supply air SA that has flowed out from the air outlet (not shown) of the temperature / humidity generator 106 flows near the inner wall of the container 102 and is supplied downstream. On the other hand, the return air RA flows inside the supply air SA, returns from the air intake (not shown) of the upstream temperature / humidity generation unit 106 to the inside of the temperature / humidity generation unit 106, and is temperature / humidity controlled again. It has become. Needless to say, the air supply SA and the return air RA are not clearly separated because the inside of the container 102 is not structured to separate air, unlike the embodiments described later.

  Next, the sensor calibration support function unit 114 of this embodiment will be described. FIG. 8 is a block diagram showing the configuration of the sensor calibration support function unit 114. The sensor calibration support function unit 114 includes a temperature / humidity acquisition unit 1140 that acquires the controlled temperature PT [° C.] and the controlled relative humidity PH [%] measured by the temperature / humidity sensor 105, and the controlled temperature PT [° C.]. A theoretical dew point calculation unit 1141 that calculates the theoretical dew point td [° C.] based on the controlled relative humidity PH [%], and a temperature standard value acquisition unit 1142 that acquires the temperature standard value TX [° C.] measured by the temperature sensor 113. And a relative humidity correction unit 1143 that calculates the relative humidity standard value HX [%] at the position of the temperature sensor 113 based on the theoretical dew point td [° C.] and the temperature standard value TX [° C.], and the temperature standard value TX [ [° C.] and a relative humidity standard value HX [%].

  FIG. 9 is a flowchart for explaining the sensor calibration support method of this embodiment. As described above, the temperature / humidity control calculation unit 109 is configured so that the target temperature ST [° C.] arbitrarily set by the operator matches the controlled temperature PT [° C.] measured by the temperature / humidity sensor 105. The temperature / humidity generating unit 106 is controlled so that the target relative humidity SH [%] arbitrarily set by the operator matches the controlled relative humidity PH [%] measured by the temperature / humidity sensor 105. .

  The temperature / humidity acquisition unit 1140 of the sensor calibration support function unit 114 acquires the controlled temperature PT [° C.] and the controlled relative humidity PH [%] measured by the temperature / humidity sensor 105 (step S100 in FIG. 9).

  Subsequently, the theoretical dew point calculation unit 1141 of the sensor calibration support function unit 114 calculates the theoretical dew point td [° C.] from the controlled temperature PT [° C.] and the controlled relative humidity PH [%] acquired by the temperature and humidity acquisition unit 1140. calculate. The theoretical dew point calculation unit 1141 includes a saturated water vapor pressure calculation unit 1141a, a water vapor pressure calculation unit 1141b, and a dew point calculation unit 1141c.

The saturated water vapor pressure calculation unit 1141a calculates the saturated water vapor pressure e _w [Pa] at the controlled temperature PT [° C.] using the SONNTAG saturated vapor pressure equation (step S101 in FIG. 9).

T [K] in the saturated vapor pressure equation of equation (1) is the absolute temperature of the humid air, and T = PT + 273.15. In addition, A to E in the formula (1) are constants, and A = −6096.9385, B = + 1219409642, C = −2.711193 × 10 ⁻² , D = + 1.633952 × 10 ⁻⁵ , E = +2.443302.

Subsequently, the water vapor pressure calculation unit 1141b calculates the water vapor pressure e [Pa] as the following equation based on the saturated water vapor pressure e _w [Pa] and the controlled relative humidity PH [%] (step S102 in FIG. 9). ).

  The dew point calculation unit 1141c calculates the theoretical dew point td [° C.] by the following equation based on the water vapor pressure e [Pa] and the SONNTAG inverse function (JIS Z8806: 2001) (step S103 in FIG. 9).

The dew point calculation unit 1141c calculates the discriminant value y for calculating the theoretical dew point td [° C.] by the equation (3), and when y is 0 or more, calculates the theoretical dew point td [° C.] by the equation (4). , Y is less than 0, the theoretical dew point td [° C.] is calculated by equation (5). Above, the process of the theoretical dew point calculation part 1141 is complete | finished.
Next, the temperature standard value acquisition unit 1142 acquires the temperature measurement value TX [° C.] measured by the calibrated temperature sensor 113 as the temperature standard value (step S104 in FIG. 9).

  The relative humidity correction unit 1143 calculates the controlled relative humidity PH [%] from the theoretical dew point td [° C.] calculated by the theoretical dew point calculation unit 1141 and the temperature standard value TX [° C.] acquired by the temperature standard value acquisition unit 1142. The corrected relative humidity standard value HX [%] is calculated. The relative humidity correction unit 1143 includes saturated water vapor pressure calculation units 1143a and 1143b and a relative humidity standard value calculation unit 1143c.

The saturated water vapor pressure calculation unit 1143a calculates the saturated water vapor pressure e _{w — R} [Pa] at the theoretical dew point td [° C.] using the SONNTAG saturated vapor pressure equation (step S105 in FIG. 9).

The absolute temperature T [K] in the saturated vapor pressure equation of equation (6) is T = td + 273.15. The constants A to E are as described in the formula (1).
On the other hand, the saturated water vapor pressure calculating unit 1143b calculates the saturated water vapor pressure e _S [Pa] at the temperature standard value TX [° C.] using the SONNTAG saturated vapor pressure equation (step S106 in FIG. 9).

The absolute temperature T [K] in the saturated vapor pressure equation of Equation (7) is T = TX + 273.15. The constants A to E are as described in the formula (1).
Then, the relative humidity standard value calculation unit 1143c calculates the difference between the saturated water vapor pressure e _S [Pa] calculated by the saturated water vapor pressure calculation unit 1143b and the saturated water vapor pressure e _{w — R} [Pa] calculated by the saturated water vapor pressure calculation unit 1143a. The ratio is calculated as relative humidity (relative humidity standard value) HX [%] at the position of the temperature sensor 113 (step S107 in FIG. 9). Above, the process of the relative humidity correction | amendment part 1143 is complete | finished.

The standard value output unit 1144 outputs the temperature standard value TX [° C.] and the relative humidity standard value HX [%] to the display control unit 110 (step S108 in FIG. 9).
The display control unit 110 displays the controlled temperature PT [° C.] and the controlled relative humidity PH [%] measured by the temperature / humidity sensor 105 on the display unit 111, and at the same time, the temperature output from the standard value output unit 1144. The standard value TX [° C.] and the relative humidity standard value HX [%] are displayed on the display unit 111 (step S109 in FIG. 9).

  The temperature / humidity control calculation unit 109, the display control unit 110, and the sensor calibration support function unit 114 are realized by a computer having a CPU (Central Processing Unit), a storage device, and an interface, and a program for controlling these hardware resources. be able to. The CPU executes processing described in this embodiment according to a program stored in the storage device.

  Next, an example of the calibration procedure of the temperature / humidity sensor 10 will be described. As described above, the operator installs the sensor calibration support apparatus 100 a so that the temperature / humidity sensor 10 is accommodated in the space 1020 in the container 102 after the temperature sensor 113 is installed in the vicinity of the temperature / humidity sensor 10. To do.

  Then, the operator sets the target temperature ST [° C.] and the target relative humidity SH [%] to arbitrary values. The operations of the temperature / humidity sensor 105, the temperature / humidity generation unit 106, the circulation fan 107, and the temperature / humidity control calculation unit 109 are as described above.

  The operator instructs the sensor calibration support function unit 114 to execute the process in a state where the controlled temperature PT [° C.] and the controlled relative humidity PH [%] are substantially stabilized. At this time, the operator may determine that the settling state has been reached when sufficient time has elapsed since the start of temperature and humidity control, or the controlled temperature PT [° C.] displayed on the display unit 111 and the controlled relative humidity PH. You may judge whether it is a set state by seeing [%].

  Further, the sensor calibration support apparatus 100a of the present embodiment has a settling state notification function. Specifically, the settling determination unit 1090 in the temperature / humidity control calculation unit 109 continues the state in which the controlled temperature PT [° C.] is within a predetermined temperature range centered on the target temperature ST [° C.] for a predetermined time or more. And when the state in which the controlled relative humidity PH [%] is within a predetermined humidity range centered on the target relative humidity SH [%] continues for a predetermined time or more, it is determined that the temperature and humidity control is in a settling state, The display control unit 110 is notified of the settling state. As a result, the display control unit 110 displays a message notifying that it is in the settling state on the display unit 111 and notifies the operator. The operator may refer to this message and instruct the sensor calibration support function unit 114 to execute the process. In addition, the determination method of a settling state is not restricted to said example, You may determine by another method.

  In addition, the sensor calibration support apparatus 100a of this embodiment has an elapsed time notification function. Specifically, the time determination unit 1091 in the temperature / humidity control calculation unit 109 determines whether a predetermined time has elapsed from the start of temperature / humidity control according to the target temperature ST [° C.] and the target relative humidity SH [%]. The display control unit 110 is notified when a predetermined time has elapsed. Thereby, the display control unit 110 displays a message notifying that a predetermined time has elapsed from the start time of the temperature and humidity control on the display unit 111 and notifies the operator. The operator may refer to this message and instruct the sensor calibration support function unit 114 to execute the process.

Further, when the settling determination unit 1090 determines that the temperature / humidity control has been set, the sensor calibration support function unit 114 may automatically execute the process of FIG.
In addition, when the time determination unit 1091 determines that a predetermined time has elapsed since the start of temperature and humidity control, the sensor calibration support function unit 114 may automatically execute the process of FIG.

The operator reads the temperature standard value TX [° C.] and the relative humidity standard value HX [%] displayed on the display unit 111 by the processing of the sensor calibration support function unit 114.
At the same time, the operator reads the temperature measurement value T ₁₀ [° C.] and the relative humidity measurement value H ₁₀ [%] measured by the temperature / humidity sensor 10 to be calibrated.

The acquisition of the temperature standard value TX [° C.], the relative humidity standard value HX [%], the temperature measurement value T ₁₀ [° C.], and the relative humidity measurement value H ₁₀ [%] as described above is obtained as the target temperature ST [° C.]. This is performed a plurality of times while changing the target relative humidity SH [%].

Thus, a plurality of temperature measurement values T ₁₀ [° C.] with respect to a plurality of temperature standard values TX [° C.] and a plurality of relative humidity measurement values H ₁₀ [%] with respect to a plurality of relative humidity standard values HX [%]. And you can get Then, the operator makes a difference between the temperature standard values TX [° C.] at a plurality of points and the temperature measurement values T ₁₀ [° C.] at a plurality of points, and measures the relative humidity standard values HX [%] at a plurality of points and the relative humidity measurements at a plurality of points. Based on the difference from the value H ₁₀ [%], a well-known multi-point calibration operation of the temperature / humidity sensor 10 can be performed.

  As described above, in this embodiment, it becomes easy to create a temperature and humidity environment different from the room in which the temperature and humidity sensor 10 to be calibrated is installed. In this embodiment, since it becomes easy to create various temperature and humidity environments, the time required for multipoint calibration of the temperature and humidity sensor 10 can be shortened, and the ease of implementation of multipoint calibration can be improved.

  In the present embodiment, even when the temperature distribution in the space in which the temperature / humidity sensor 10 is accommodated is large, the controlled relative humidity PH [%] is set to the relative humidity standard value HX [%] at a position near the temperature / humidity sensor 10. The temperature and humidity sensor 10 can be accurately calibrated.

In this embodiment, the temperature / humidity generating unit 106 and the circulation fan 107 are provided inside the container 102, but the present invention is not limited to this, and may be provided outside the container 102.
As a device having the functions of the temperature / humidity generation unit 106, the circulation fan 107, and the temperature / humidity control calculation unit 109, for example, there is a small high-precision temperature / humidity calibrator HG2-S manufactured by Rotronic. When such a temperature / humidity calibrator is used, a joining mechanism with the temperature / humidity calibrator is provided on the closed end 103 side of the container 102, and the temperature / humidity generating unit 106 of the temperature / humidity calibrator and the container 102 are provided via this joining mechanism. What is necessary is just to make it communicate with the space 1020 in the inside.

[Second Embodiment]
Next, a second embodiment of the present invention will be described. FIG. 10A is a cross-sectional view showing the configuration of the main part of the sensor calibration support apparatus 100b according to this embodiment, and FIG. 10B shows the sensor calibration support apparatus 100b viewed from the wall side where the temperature / humidity sensor 10 is installed. FIG. 11 is a block diagram showing the configuration of the sensor calibration support apparatus 100b. The same components as those in FIGS. 5A, 5B, and 6 are given the same reference numerals. As in the first embodiment, FIGS. 10A, 10B, and 11 are drawn with the temperature / humidity sensor 10 housed in the space 1020a in the container 102a of the sensor calibration support apparatus 100b. .

  The sensor calibration support apparatus 100b of the present embodiment includes a housing 101, a container 102a, a temperature / humidity sensor 105, a temperature / humidity generation unit 106, a circulation fan 107, a temperature / humidity control calculation unit 109, and a display control unit 110. A display unit 111, a heat insulating material 112, a temperature sensor 113, a sensor calibration support function unit 114, and an operation unit 115.

  The container 102a of the present embodiment has a double cylindrical structure including an outer cylindrical portion 1021 and an inner cylindrical portion 1022 accommodated in the cylindrical portion 1021. The outer cylinder part 1021 and the inner cylinder part 1022 are arranged so that a space 1023 serving as a flow path through which the supply air SA blown by the circulation fan 107 flows is formed between them.

  The upstream ends of the tube portions 1021 and 1022 are the closed end 103, and the downstream end portion of the tube portion 1022 is the open end 104 so that the temperature / humidity sensor 10 to be calibrated can be accommodated. In the present embodiment, the downstream side of the space 1023 between the cylindrical portion 1021 and the cylindrical portion 1022 is an open end. Similar to the first embodiment, when the downstream end of the container 102a is pressed against the wall surface 11, the downstream end of the space 1023 is blocked by the wall surface 11, but the space 1023 The downstream end may be closed.

  In the cylindrical portion 1022, for example, a heat insulating material 112 made of resin is installed. The heat insulating material 112 includes a space in the cylinder portion 1022, a downstream space 1020 a that houses the temperature / humidity sensor 10 to be calibrated, and an upstream space that serves as a flow path for the return air RA to return to the temperature / humidity generator 106. Separated into 1020b. The space 1020b communicates with an air intake (not shown) of the temperature / humidity generator 106.

The space 1020a and the space 1023 on the downstream side in the tube portion 1022 communicate with each other through a vent hole 1024 formed in the tube portion 1022. The supply air SA blown by the circulation fan 107 flows into the space 1020a through the vent hole 1024.
On the other hand, the space 1020a and the space 1020b communicate with each other through a vent hole 1025 formed in the heat insulating material 112.

  As in the first embodiment, when the operator calibrates the temperature / humidity sensor 10 using the sensor calibration support apparatus 100b, the temperature / humidity sensor 10 is installed after the temperature sensor 113 is installed in the vicinity of the temperature / humidity sensor 10. Is pressed into the wall 11 in the room where the temperature / humidity sensor 10 is installed so that the end of the container 102a is accommodated in the space 1020a in the container 102a.

  The operations of the temperature / humidity sensor 105, the temperature / humidity generation unit 106, the circulation fan 107, and the temperature / humidity control calculation unit 109 are as described in the first embodiment. The supply air SA whose temperature and humidity are controlled by the temperature and humidity generation unit 106 and the temperature and humidity control calculation unit 109 flows into the space 1020 a through the space 1023 and the vent hole 1024. Thereby, the temperature / humidity sensor 10 accommodated in the space 1020a is exposed to the supply air SA flowing into the space 1020a. Then, the return air RA flows into the space 1020b from the space 1020a through the vent hole 1025, returns to the inside of the temperature / humidity generation unit 106 from the air intake (not shown) of the temperature / humidity generation unit 106, and is again controlled by the temperature / humidity control. It has come to be.

The operations of the sensor calibration support function unit 114 and the display control unit 110 are as described in the first embodiment.
Thus, in this embodiment, the same effect as that of the first embodiment can be obtained, and a stable airflow can be supplied to the temperature / humidity sensor 10 to be calibrated.

  As in the first embodiment, the temperature / humidity generator 106 and the circulation fan 107 may be provided outside the container 102a. When the temperature / humidity calibrator described in the first embodiment is used as a device having the functions of the temperature / humidity generation unit 106, the circulation fan 107, and the temperature / humidity control calculation unit 109, the temperature is set on the closed end 103 side of the container 102a. A joining mechanism with the humidity calibrator is provided, and the air outlet of the temperature / humidity generating unit 106 of the temperature / humidity calibrator communicates with the space 1023 of the container 102a through this joining mechanism. What is necessary is just to make it make an entrance and the space 1020b of the container 102a communicate.

[Numeric example]
Target temperature ST [° C.], target relative humidity SH [%], temperature standard value TX [° C.], relative humidity standard value HX [%], and temperature measurement value in actual calibration work by the sensor calibration support apparatus 100b of this embodiment. Table 1 shows numerical examples of T ₁₀ [° C.] and relative humidity measurement value H ₁₀ [%]. Here, there are three combinations of temperature and humidity (three-point calibration).

According to Table 1, it can be seen that there is a difference between the controlled temperature PT [° C.] and the temperature standard value TX [° C.], and a temperature distribution exists in the container 102a. In addition, there is a difference between the temperature standard value TX [° C.] and the temperature measurement value T ₁₀ [° C.] and between the relative humidity standard value HX [%] and the relative humidity measurement value H ₁₀ [%]. It can be seen that calibration of the humidity sensor 10 is desirable.

  The present invention can be applied to a technique for calibrating a temperature / humidity sensor.

  DESCRIPTION OF SYMBOLS 10 ... Temperature / humidity sensor, 100a, 100b ... Sensor calibration assistance apparatus, 101 ... Case, 102, 102a ... Container, 103 ... Closed end, 104 ... Open end, 105 ... Temperature / humidity sensor, 106 ... Temperature / humidity generating part, 107 DESCRIPTION OF SYMBOLS ... Circulation fan 108 ... Peltier element 109 ... Temperature / humidity control calculation part 110 ... Display control part 111 ... Display part 112 ... Insulation material 113 ... Temperature sensor 114 ... Sensor calibration support function part 115 ... Operation part 1020, 1020a, 1020b ... space, 1021,1022 ... cylinder part, 1023 ... space, 1024,1025 ... ventilation hole, 1090 ... settling judgment part, 1091 ... time judgment part, 1140 ... temperature / humidity acquisition part, 1141 ... theoretical dew point Calculation unit, 1141a, 1143a, 1143b ... saturated water vapor pressure calculation unit, 1141b ... water vapor pressure calculation unit, 1141c ... dew point calculation , 1142 ... temperature standard value obtaining unit, 1143 ... relative humidity correction unit, 1143C ... relative humidity standard value calculation unit, 1144 ... standard value output unit.

Claims (10)

Installed so that the wall of the first temperature / humidity sensor to be calibrated is in contact with the one end and the first temperature / humidity sensor is accommodated in the internal space in the shape of a cylinder with one end open. A container to be made,
A temperature / humidity generator configured to generate a controlled temperature / humidity environment in the space;
A second temperature and humidity sensor configured to measure the temperature and relative humidity of the space as a controlled temperature and a controlled relative humidity, respectively;
The controlled temperature measured by the second temperature / humidity sensor matches the target temperature set by the operator, and the controlled relative humidity measured by the second temperature / humidity sensor is set by the operator. A temperature / humidity control calculation unit configured to control the temperature / humidity generation unit to match the target relative humidity;
A temperature sensor configured to measure a temperature in the vicinity of the first temperature and humidity sensor as a temperature standard value;
A theoretical dew point calculator configured to calculate a theoretical dew point based on the controlled temperature and the controlled relative humidity;
A relative humidity correction unit configured to calculate a relative humidity standard value at the position of the temperature sensor based on the theoretical dew point and the temperature standard value measured by the temperature sensor; Sensor calibration support device. The sensor calibration support device according to claim 1,
A sensor calibration support apparatus, further comprising a display control unit for displaying the temperature standard value and the relative humidity standard value. The sensor calibration support device according to claim 1 or 2,
The theoretical dew point calculator is
A first saturated water vapor pressure calculator configured to calculate a saturated water vapor pressure at the controlled temperature;
A water vapor pressure calculating unit configured to calculate a water vapor pressure based on the saturated water vapor pressure calculated by the first saturated water vapor pressure calculating unit and the controlled relative humidity;
A dew point calculation unit configured to calculate a theoretical dew point based on the water vapor pressure calculated by the water vapor pressure calculation unit,
The relative humidity correction unit is
A second saturated water vapor pressure calculator configured to calculate a saturated water vapor pressure at the theoretical dew point;
A third saturated water vapor pressure calculator configured to calculate a saturated water vapor pressure at the temperature standard value;
Relative humidity configured to calculate the ratio of the saturated water vapor pressure calculated by the second saturated water vapor pressure calculation unit and the saturated water vapor pressure calculated by the third saturated water vapor pressure calculation unit as the relative humidity standard value A sensor calibration support device comprising a standard value calculation unit. In the sensor calibration support device according to claim 3,
The calculation of the saturated water vapor pressure in the first, second, and third saturated water vapor pressure calculation units is based on the SONNTAG saturated vapor pressure equation. The sensor calibration support apparatus according to any one of claims 1 to 4,
The container is in the form of a double cylinder composed of an inner first cylinder part that houses the first temperature / humidity sensor and an outer second cylinder part that accommodates the first cylinder part. ,
The first tube portion and the second tube portion are arranged such that air temperature-humidity-controlled by the temperature-humidity generating portion and the temperature-humidity control calculating portion is between the first temperature-humidity sensor. Arranged to form a first space that flows toward the
The first tube portion is
A heat insulating material that separates the space inside the first cylindrical portion into a second space that houses the first temperature and humidity sensor and a third space that is connected to the air intake port of the temperature and humidity generator;
A first vent hole that communicates the first space and the second space;
The heat insulating material includes a second ventilation hole that communicates the second space and the third space,
The second temperature / humidity sensor measures the temperature and relative humidity of the third space as the controlled temperature and the controlled relative humidity, respectively. The sensor calibration support device according to any one of claims 1 to 5,
The sensor calibration support apparatus, wherein the theoretical dew point calculation unit and the relative humidity correction unit start calculating the theoretical dew point and the relative humidity standard value according to an instruction from an operator. The sensor calibration support device according to any one of claims 1 to 5,
A determination unit for determining whether or not a predetermined time has elapsed from a start time of the temperature and humidity control according to the target temperature and the target relative humidity;
The theoretical dew point calculation unit and the relative humidity correction unit start calculating the theoretical dew point and the relative humidity standard value when the determination unit determines that the predetermined time has elapsed. Calibration support device. The sensor calibration support device according to any one of claims 1 to 5,
A determination unit for determining whether the temperature and humidity control has settled based on the controlled temperature and the controlled relative humidity;
The theoretical dew point calculation unit and the relative humidity correction unit start calculating the theoretical dew point and the relative humidity standard value when the determination unit determines that the temperature / humidity control is settled. Sensor calibration support device. The sensor calibration support apparatus according to any one of claims 1 to 8,
The temperature and humidity generator is
A heating / cooling actuator configured to heat or cool the air according to a temperature control signal output from the temperature / humidity control calculation unit;
A sensor calibration support apparatus comprising: a humidification / dehumidification actuator configured to humidify or dehumidify air in accordance with a humidity control signal output from the temperature / humidity control calculation unit. The wall where the first temperature / humidity sensor to be calibrated is placed in contact with the one end of the cylindrical container whose one end is open, and the first temperature / humidity sensor is accommodated in the space inside the container. Then, a first step of measuring the temperature and relative humidity of the space as the controlled temperature and the controlled relative humidity by the second temperature and humidity sensor,
The controlled temperature measured by the second temperature / humidity sensor matches the target temperature set by the operator, and the controlled relative humidity measured by the second temperature / humidity sensor is set by the operator. A second step of generating a controlled temperature and humidity environment in the space by controlling the temperature and humidity generator to match the target relative humidity;
A third step of measuring the temperature in the vicinity of the first temperature and humidity sensor as a temperature standard value by the temperature sensor;
A fourth step of calculating a theoretical dew point based on the controlled temperature and the controlled relative humidity;
A sensor calibration support method, comprising: a fifth step of calculating a relative humidity standard value at the position of the temperature sensor based on the theoretical dew point and the temperature standard value measured by the temperature sensor.