JP2022069070A - Concentration measurement system and program - Google Patents

Abstract

To provide a concentration measuring system for relatively inexpensive ozone gas.SOLUTION: The concentration measuring system has a concentration measuring device for measuring the concentration of ozone gas, and a mobile terminal connected to the concentration measuring device by wire or wirelessly, in which the mobile terminal includes a control unit for controlling the concentration measuring device, and a display unit for displaying a result of measurement performed by the concentration measuring device. The mobile terminal is a smart phone, for example, which is connected to the concentration measuring device by a USB cable to realize communication and power supply.SELECTED DRAWING: Figure 4

Description

The present invention relates to a concentration measuring system and a program.

For example, Patent Document 1 describes a light source device 172 that emits measurement light, a first measurement unit 171 that measures the amount of light transmitted through the first gas introduced from a working environment, and ozone from the first gas. Adjust the amount of the absorption component to the measurement light derived from vegetables contained in the first gas and the second gas to the same amount in the second measurement unit 171 that measures the amount of light of the measurement light transmitted through the removed second gas. Disclosed is an ozone measuring device including an adjusting unit 178 and a calculation unit CL that calculates an ozone concentration based on the measurement result of the first measuring unit and the measurement result of the second measuring unit in which the amount of the absorption component is adjusted. Has been done.
Further, Patent Document 2 discloses an ozone measuring device that alternately measures the amount of transmitted light of ultraviolet rays of a sample gas and the amount of transmitted light of ultraviolet rays of a reference gas, and sequentially calculates the concentration after measuring the sample gas and the concentration after measuring the reference gas. Has been done.

Japanese Unexamined Patent Publication No. 2018-194331 Japanese Unexamined Patent Publication No. 2017-181204

An object of the present invention is to provide a relatively inexpensive ozone gas concentration measuring system.

The concentration measuring system according to the present invention has a concentration measuring device for measuring the concentration of ozone gas and a mobile terminal connected to the concentration measuring device by wire or wirelessly, and the mobile terminal has the concentration measuring device. It includes a control unit that controls the device and a display unit that displays the measurement result measured by the concentration measuring device.

Preferably, the concentration measuring device is connected to the mobile terminal via a communication cable and is supplied with power via the communication cable.

Preferably, the mobile terminal is a smartphone, and the concentration measuring device wirelessly connects to the mobile terminal and transmits the measurement result to the mobile terminal.

Preferably, the display unit displays the concentration value measured by the concentration measuring device in ppm, or displays an image or a color corresponding to the density value measured by the concentration measuring device.

Preferably, the mobile terminal further includes a transfer unit that transfers the measurement result measured by the concentration measuring device.

Preferably, the display unit changes the display size or font of the measurement result according to the operation of the user.
Preferably, the control unit determines whether the concentration measuring device has a defect or whether ozone gas is generated.

Preferably, the signage device is further provided, the concentration measuring device periodically measures the concentration of ozone gas according to the control from the control unit, and the transfer unit periodically measures the measurement result. Is periodically transferred to the signage device, and the signage device periodically updates and displays a display according to the measurement result received from the transfer unit.

Further, the program according to the present invention is a computer connected to a concentration measuring device for measuring the concentration of ozone gas by wire or wirelessly, and is measured by the control function for controlling the concentration measuring device and the concentration measuring device. The computer is provided with a display function for displaying the measurement results.

According to the present invention, it is possible to provide a relatively inexpensive ozone gas concentration measuring system.

It is an external view of the ozone concentration measuring instrument 10 in an embodiment. It is an external view illustrating the ozone concentration measuring instrument 10 and the smartphone 20 in the state of being connected by the connecting member 40. It is a figure which illustrates the functional structure of the control program 5 installed in the smartphone 20. It is a figure which illustrates the control screen (initial) of the ozone concentration measuring instrument 10 displayed on the smartphone 20. It is a figure which illustrates the control screen of the ozone concentration measuring instrument 10 displayed on the smartphone 20. It is a figure which illustrates the display screen which displays the measurement result of one measurement by an ozone concentration measuring instrument 10. It is a figure which illustrates the display screen which displays the measurement result of the continuous measurement by the ozone concentration measuring device 10. It is a figure which illustrates the display screen displayed on the signage apparatus 60.

Hereinafter, embodiments according to the present invention will be described with reference to the drawings. However, the scope of the present invention is not limited to the illustrated examples.
The ozone concentration measuring system 1 of the present embodiment includes an ozone concentration measuring device 10, a smartphone 20, a USB cable 30, a connecting member 40, and a signage device 60.
FIG. 1 is an external view of the ozone concentration measuring device 10 in the embodiment.
As illustrated in FIG. 1, the ozone concentration measuring device 10 has a plurality of holes for taking in outside air, and measures the concentration of ozone in the air taken in from these holes. The measured ozone concentration is output in ppm, for example. The ozone concentration measuring device 10 of this example does not have a monitor, an operation panel, or the like, and the display and operation of the measurement results are performed by the smartphone 20 described later.
Further, a USB port 100 for inserting a USB cable is provided on the bottom surface of the ozone concentration measuring device 10, and the ozone concentration measuring device 10 communicates and supplies power by the USB cable inserted into the USB port 100. Realize.
Further, on the back surface of the ozone concentration measuring instrument 10, a connecting protrusion 102 for connecting to the connecting member 40 described later is provided.

FIG. 2 is an external view illustrating the ozone concentration measuring device 10 and the smartphone 20 in a state of being connected by the connecting member 40.
As illustrated in FIG. 2, the smartphone 20 is connected to the ozone concentration measuring device 10 via the USB cable 30 to enable wired communication and power supply. The smartphone 20 is an example of a mobile terminal according to the present invention, and is a smartphone provided with a touch panel 200.
The ozone concentration measuring device 10 of this example is physically connected to the smartphone 20 by a connecting member 40.
In this example, a form in which the ozone concentration measuring device 10 and the smartphone 20 are connected to each other by a USB cable 30 will be described, but the present invention is not limited to this, and the ozone concentration is measured by, for example, Bluetooth (registered trademark). The device 10 and the smartphone 20 may be wirelessly connected.

FIG. 3 is a diagram illustrating the functional configuration of the control program 5 installed on the smartphone 20.
As illustrated in FIG. 3, the control program 5 includes a control unit 500, a display unit 510, and a transfer unit 520. The control program 5 is, for example, an application that operates on the OS of the smartphone 20.
In the control program 5, the control unit 500 controls the ozone concentration measuring device 10. For example, the control unit 500 displays the control screen of the ozone concentration measuring device 10 on the touch panel 200, and starts or stops the measurement of the ozone gas concentration according to the operation of the user.
The display unit 510 displays the measurement result by the ozone concentration measuring device 10 on the touch panel 200. For example, the display unit 510 displays the concentration value measured by the ozone concentration measuring device 10 in ppm, or displays an image or a color corresponding to the concentration value measured by the ozone concentration measuring device 10.
The transfer unit 520 transfers the measurement result measured by the ozone concentration measuring device 10 to the signage device 60 (described later) or the like. For example, the transfer unit 520 periodically transfers the measurement result measured by the ozone concentration measuring device 10 to the signage device 60 and displays it.

FIG. 4 is a diagram illustrating a control screen of the ozone concentration measuring device 10 displayed on the smartphone 20.
As illustrated in FIG. 4, the touch panel 200 of the smartphone 20 displays a control screen for controlling the ozone concentration measuring device 10 by the control unit 500. On the control screen, the icon logo of the app is displayed, and when you tap it, the logo mark and the message "Ready to measure" are displayed. Further, the control screen displays a setting display area for displaying measurement setting information, a measurement start button for instructing the start of measurement, and an end button for instructing the end of the application (control program 5).
When the measurement standard is set and the measurement start button is pressed, the indoor environmental standard of the ozone gas concentration and the like are displayed in the standard display area as illustrated in FIG.
In the setting display area, switching of the reference of the measurement result with manned / unmanned and switching of ON / OFF of the continuous measurement mode are accepted.
When the measurement start button is tapped on this screen, the control unit 500 causes the ozone concentration measuring device 10 to start measuring the ozone gas concentration.

FIG. 6 is a diagram illustrating a display screen for displaying the measurement result of one measurement by the ozone concentration measuring device 10.
As illustrated in FIG. 6, on the touch panel 200 of the smartphone 20, the display unit 510 displays the measurement result of one measurement by the ozone concentration measuring device 10. Specifically, in addition to the reference display area, the touch panel 200 displays a measurement result display area, a determination result display area, a remeasurement button, a back button, and an end button.
The measurement result display area includes an ozone concentration value (in ppm unit) measured by the ozone concentration measuring device 10 and a gradation display showing the relative position of the measured value in the environmental standard.
In the determination result display area, the comparison result between the measurement result by the ozone concentration measuring device 10 and the environmental standard is displayed. For example, if the measured value is within the environmental standard, it is displayed as "appropriate", if the measured value exceeds the environmental standard, it is displayed as "danger", and if the measured value is less than the environmental standard, it is displayed as "insufficient". Will be done.
Furthermore, when the measured value is 0, the message "Ozone is not detected" is displayed, and when communication with the ozone concentration measuring instrument 10 fails a predetermined number of times in a row, "Ozone concentration measuring instrument fails". Does not work properly "is displayed. That is, when a defect occurs, the control unit 500 determines whether the cause of the defect exists in the ozone concentration measuring device 10 or the device that generates ozone gas (that is, whether ozone gas is generated). do.
The remeasurement button is a button for instructing the ozone concentration measuring device 10 to perform remeasurement.
The back button is a button for returning to the control screen of FIG.

FIG. 7 is a diagram illustrating a display screen for displaying the measurement results of continuous measurement by the ozone concentration measuring device 10.
As illustrated in FIG. 7, the touch panel 200 of the smartphone 20 displays the measurement result of continuous measurement by the ozone concentration measuring device 10 by the display unit 510. Specifically, in addition to the reference display area, the touch panel 200 displays a measurement result display area, a determination result display area, a continuous measurement stop button, a back button, and an end button.
The measurement result display area includes an ozone concentration value (in ppm unit) continuously measured by the ozone concentration measuring device 10 and a gradation display showing the relative position of the measured value in the environmental standard.
In the determination result display area, the comparison result between the measurement result by the ozone concentration measuring device 10 and the environmental standard is displayed in real time.
The continuous measurement stop button is a button for stopping the continuous measurement with respect to the ozone concentration measuring device 10.

FIG. 8 is a diagram illustrating a display screen displayed on the signage device 60.
As illustrated in FIG. 8, the signage device 60 is an electronic signboard composed of an LED board, a liquid crystal display, or the like, and displays the measured value transferred by the transfer unit 520.
In this way, by transferring the measurement result to an external display device and displaying it, it becomes possible to monitor the ozone gas concentration in various media and environments.

As described above, according to the ozone concentration measuring system 1 of the present embodiment, the functions of the ozone concentration measuring device 10 can be simplified by ensuring the control function and the display function of the smartphone 20, and the functions of the ozone concentration measuring device 10 can be relatively simplified. It is possible to build a system at low cost. Further, by enabling control and display by the smartphone 20, the ozone gas concentration can be monitored in a space different from the space where the ozone gas is generated.

(Modification example)
In the above embodiment, the embodiment in which the concentration of ozone gas is measured by using the ozone concentration measuring device 10 has been described, but the present invention is not limited to this, and the concentration of other gas may be measured.
If the user cannot fully use the application of the smartphone 20, an LED lamp may be provided in the ozone concentration measuring device 10 and the measurement result may be displayed by the color of the LED lamp, the blinking pattern, or the like.

1 Ozone concentration measuring system 10 Ozone concentration measuring device 20 Smartphone 30 USB cable

Claims (9)

A concentration measuring device that measures the concentration of ozone gas,
It has a mobile terminal that is connected to the concentration measuring device by wire or wirelessly.
The mobile terminal is
A control unit that controls the concentration measuring device and
A concentration measuring system including a display unit for displaying the measurement results measured by the concentration measuring device. The concentration measuring system according to claim 1, wherein the concentration measuring device is connected to the mobile terminal via a communication cable and is supplied with power via the communication cable. The mobile terminal is a smartphone.
The concentration measuring system according to claim 1, wherein the concentration measuring device is wirelessly connected to the mobile terminal and transmits a measurement result to the mobile terminal. The display unit displays the concentration value measured by the concentration measuring device in ppm units, or displays an image or a color corresponding to the density value measured by the concentration measuring device. Concentration measurement system described in Crab. The mobile terminal is
The concentration measuring system according to claim 4, further comprising a transfer unit for transferring the measurement result measured by the concentration measuring device. The density measurement system according to claim 5, wherein the display unit changes the display size or font of the measurement result according to the operation of the user. It also has a signage device,
The concentration measuring device periodically measures the concentration of ozone gas according to the control from the control unit.
The transfer unit periodically transfers the measured measurement result to the signage device.
The concentration measurement system according to claim 6, wherein the signage device periodically updates and displays a display according to a measurement result received from the transfer unit. The concentration measuring system according to claim 1, wherein the control unit determines whether the concentration measuring device has a problem or does not generate ozone gas. In a computer that is connected to a concentration measuring device that measures the concentration of ozone gas by wire or wirelessly.
The control function that controls the concentration measuring device and
A program that enables the computer to have a display function for displaying the measurement results measured by the concentration measuring device.

Images