KR20240092299A - Portable air quality measuring device for measuring air quality of highly compressed air - Google Patents

Abstract

The present invention provides a simple and precise air quality measuring device that can measure the air quality of air in a compressor, air tank, or a combination of the two elements.

Description

Portable air quality measuring device for measuring air quality of highly compressed air}

The present invention relates to a portable air quality measuring device for measuring the air quality of high pressure air. Specifically, the present invention relates to a compressor that supplies high-pressure air and a portable air quality measuring device that can measure the air quality of a high-pressure air tank connected to the compressor.

Many air quality measuring instruments have been disclosed that measure the air quality of indoor and outdoor air. Although air quality meters are fixedly installed in buildings or facilities, air quality meters that users can easily carry around are also being developed.

Meanwhile, one of the areas where air quality measurement is important is measuring the air quality of air cylinders (oxygen cylinders) in medical facilities or air cylinders carried by divers or disaster workers.

In Publication Patent No. 10-2022-0036273, “Air quality measurement system and method for diving air cylinders,” the applicant generates compressed air as shown in FIG. 6 and supplies breathing air, including a compressor (10') and a compressor (10). '), which is filled with compressed air, is connected to the inlet of the air cylinder (20') to inject air by first depressurizing the air of the compressor (10'), but a separate branch pipe (31') An air quality analyzer (40') is connected to the formed yoke (30') and the branch pipe (31') of the yoke (30'), and measures the air quality after secondary decompression of the air in the first decompressed state branched out during the charging process. ) proposed an air quality measurement system consisting of The air quality analyzer 40' is equipped with porous media at the top and bottom of the air quality analysis area for tertiary decompression.

However, this prior art cannot measure the air quality when charging high-pressure air from the compressor 10' to the air tank 20', that is, the air quality of the high-pressure air currently being charged by the compressor 10' functioning as a power source. However, there is a limitation in that the air quality of the air tank 20' cannot be measured independently. In order to measure the air quality of the air tank 20', the yoke 31' must be separated, but this is cumbersome and the internal structure of the air quality analyzer 40' must also be changed. In addition, in the case of the prior art, the air flow rate after the third decompression was too fast, so there was a problem in measuring the air quality accurately.

Furthermore, as shown in the drawing of the above patent, the air quality analyzer (40') was manufactured in a relatively massive vertical form, so it was suitable as a fixed type, but had the disadvantage of not being portable.

The present invention was created to solve the disadvantages of the prior art at once.

The purpose of the present invention is to provide a simple and precise air quality measuring device that can measure the air quality of air in a compressor, air tank, or a combination of the two elements.

In order to achieve the above-described object, the present invention is an air quality measuring device, which includes: a compressor that generates high-pressure air and supplies it to an air container; an input unit that can be simultaneously connected to the air container, connected only to the compressor, or connected only to the air container; A regulator that reduces the pressure of the high-pressure air coming through the input unit to a predetermined pressure value, adjusts it, and discharges it; A high pressure instrument panel connected to measure air pressure near the input of the regulator; A low pressure instrument panel connected to measure air pressure near the output end of the regulator; a flow rate regulator that reduces the flow rate of air discharged from the output terminal of the regulator; It includes a porous member, an oxygen sensor, a carbon monoxide sensor, and a carbon dioxide sensor installed on a PCB board. As the air passing through the flow rate controller passes through the porous member, the pressure is further reduced and flows around the oxygen sensor, the carbon monoxide sensor, and the carbon dioxide sensor, respectively. An air quality measuring unit configured to measure the weight ratio or concentration value of gas; and a display that displays the component ratio or concentration value of the gas on the screen, wherein the air quality measuring device is manufactured to be portable by being mounted on a bag or case, and measures the air quality of high-pressure air from a compressor or air tank without location restrictions. provides.

If the concentration value of carbon monoxide or carbon dioxide exceeds the threshold or oxygen accounts for an excessive weight ratio, an alarm may sound or a warning light may flash to draw the user's attention.

The air pressure outside the output stage of the regulator is 1 to 3 bar, and the flow rate can be adjusted to 500cc/min with the flow rate controller.

The pressure of air passing through the porous member can be further reduced to 0.1 to 0.3 bar.

According to the present invention, the air quality of high-pressure air can be measured not only through the process of charging high-pressure air from a compressor into an air container, but also through the air container alone, and has the effect of providing a convenient and precise air quality measuring device that can be freely transported without location restrictions.

According to the present invention, it is effective in measuring air quality quickly and precisely through a configuration that reduces the pressure of high-pressure air, adjusts the flow rate, and reduces the air pressure again just before the air sensor.

Figure 1 is an overall configuration diagram of a portable air quality measuring device for measuring the air quality of high-pressure air according to the present invention.
Figure 2 is a configuration diagram of another embodiment of independently measuring air quality in an air tank using the same configuration as Figure 1.
Figure 3 is a photo of the actual exterior and a 3D modeling drawing of the air quality measuring device actually manufactured by the applicant.
Figure 4 is an enlarged photograph of the display of the device of Figure 3.
Figure 5 is a photograph showing the inside of the device of Figure 3 after opening it.
Figure 6 is a diagram of an air quality measurement system disclosed in the applicant's earlier application in the same technical field.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

Figure 1 is an overall configuration diagram of the portable air quality measuring device 1 for measuring the air quality of high-pressure air according to the present invention.

The air quality measuring device 1 is portable, and the configuration shown in FIG. 1 can be made into an overall portable case or bag by placing it in a flat shape on one base and covering it with a cover or lid (not shown).

The air quality meter 1 may be simultaneously connected to the compressor 80 and the air cylinder 90, which generates high-pressure air and supplies it to the air cylinder 90, or may be connected to either one of the two members. In Figure 1, it is shown connected to both members for convenience, and the following description will be made assuming this configuration.

The compressor 80 is coupled to the coupler 82, and the supply line (A) is connected to the input unit 70 of the air quality meter (1). The air tank 90 is coupled to the coupler 92, and the supply line (B) is also connected to the input unit 70. High-pressure air entering the input unit 70 is delivered to the regulator 20 through the input line (C). The high-pressure air from the compressor 80 reaches the input unit 70 through the supply line (A), is then charged into the air tank 90 through the supply line (B), and a portion of it is branched and delivered to the regulator 20. In the present invention, the input unit 70, which functions as a confluence and divergence of high-pressure air, is installed inside the air quality measuring device 1, so that air quality can be accurately measured in real time while charging high-pressure air. The air pressure compressed by the compressor, that is, the pressure coming through the supply line (A), is 10 to 15 bar, and is further compressed by more than 10 times in the air tank (90) to maintain a high pressure of 180 to 200 bar.

The regulator 20 can be any existing pressure control device, but must have the ability to reduce high-pressure air of up to 200 bar or more to a pressure of about 1 bar (air pressure level encountered in normal life). The high-pressure air that enters through the input terminal 22 of the regulator 20 is reduced by, for example, piston control and discharged to the output terminal 24. The regulator 20 is connected to the high pressure gauge board 60 and the low pressure gauge board 62. The high pressure gauge board 60 measures the air pressure near the input end 22 of the regulator 20, and the low pressure gauge board 62 measures the air pressure near the output end 24. Normally, the regulator functions to equalize the output fluid pressure even if the pressure of the inlet fluid changes, but since the present invention targets compressors and air tanks in particular, high pressure measurement of input air is necessary.

The air pressure discharged from the output terminal of the regulator 20 is monitored through the low pressure gauge board 62 so that it is 1 to 3 bar. At this time, since the flow speed is relatively fast, a flow speed controller (30) is installed to reduce the flow speed of the air. The appropriate flow rate after passing through the flow rate regulator 30 is 500 cc/min. As the flow rate controller 30, for example, a flow control valve can be used.

In the present invention, the air quality measuring unit 10 includes a porous member 100, an oxygen sensor 14, a carbon monoxide sensor 16, and a carbon dioxide sensor 18. Sensors 14, 16, and 18 are all disposed on the PCB board 10. A porous member 100 is installed at the entrance of the air quality measurement unit 10. The pressure of the air passing through the porous member 100 is further reduced to 0.1 to 0.3 bar and then flows around the sensors 14, 16, and 18, and the concentration value of each air component measured at this time is displayed on the display 200. ) is displayed. It is desirable to express oxygen as a percentage of the total weight in the air, and the remaining gases in ppm units.

Although not shown, if there is an abnormality in air quality, especially if the concentration value of carbon monoxide or carbon dioxide exceeds the threshold or oxygen accounts for an excessive weight ratio, an alarm may sound or a warning light may flash to draw the user's attention.

The unexplained symbol (40) is the power jack, and (50) is the ON/OFF switch.

The above has described the case of charging the air cylinder 90 with the compressor 80, but in the present invention, it is also possible to independently measure the air quality of the air cylinder 90 using the same configuration.

The configuration diagram of the air quality measuring device 1 of the present invention in this case is shown in Figure 2.

Unlike Figure 1, high-pressure air of approximately 180 to 200 bar is supplied from the air tank 90 to the input unit 90. This air flows in one direction, of course, but is not transmitted to other members. Then, after the pressure is adjusted to 1 to 3 bar through the regulator 200, the flow rate is adjusted to 500 cc/min in the flow rate controller 30, and the pressure is reduced to 0.1 to 0.3 bar again as it passes through the porous member 100. Then it flows around the sensors 14, 16, and 18, and the concentration value of each air component measured at this time is displayed on the display 200. The concentration value at this time accurately reflects the air quality in the reservoir. Therefore, the air quality measuring device 1 of the present invention is convenient in that it can be used as a device to measure the air quality of an air tank regardless of the compressor.

Likewise, in the present invention, it is also possible to independently measure the quality of high-pressure air generated by the compressor 80 using the same configuration. Since this is substantially the same as FIG. 2, detailed description will be omitted.

Figure 3 is a 3D model drawing and a photograph of the actual exterior of the air quality measuring device (1) actually manufactured by the applicant. The exterior consists of a square, voluminous case. At the lower center, a handle knob (N) of the regulator (20) protrudes so that it can be operated. On the right side, a jack to which the inlet hose of the compressor 80 is connected and a jack to which the inlet hose of the air tank 90 is connected are formed separately.

FIG. 4 is an enlarged view of the display 200 of the device of FIG. 3, and the screen displays the applicant's company name and the weight ratio and concentration values of oxygen, carbon monoxide, and carbon dioxide, respectively.

FIG. 5 shows the device of FIG. 3 opened, showing the regulator 20, input unit 70, high pressure gauge board 60, low pressure gauge board 62, flow rate controller 30, and air quality measurement unit 10 of the device of FIG. 1. It can be seen that is placed on one plane. Therefore, the air quality measuring device 1 of the present invention has the effect of being able to measure the air quality of a compressor or air tank that generates or stores high-pressure air quickly and easily anywhere, regardless of location.

Although the preferred embodiments of the present invention have been described above, it is obvious that various changes and modifications can be made to the present invention and that the scope of rights of the present invention extends to the same or equivalent area as the claims described below.

Claims (4)

An air quality meter, wherein the air quality meter:
A compressor that generates high-pressure air and supplies it to the air tank, and an input unit that can be simultaneously connected to the air tank, connected only to the compressor, or connected only to the air tank;
A regulator that reduces the pressure of the high-pressure air coming through the input unit to a predetermined pressure value, adjusts it, and discharges it;
A high pressure instrument panel connected to measure air pressure near the input of the regulator;
A low pressure instrument panel connected to measure air pressure near the output end of the regulator;
a flow rate regulator that reduces the flow rate of air discharged from the output terminal of the regulator;
It includes a porous member, an oxygen sensor, a carbon monoxide sensor, and a carbon dioxide sensor installed on a PCB board. As the air passing through the flow rate controller passes through the porous member, the pressure is further reduced and flows around the oxygen sensor, the carbon monoxide sensor, and the carbon dioxide sensor, respectively. An air quality measuring unit configured to measure the weight ratio or concentration value of gas; and
It includes a display that displays the component ratio or concentration value of the gas on the screen,
The air quality measuring device is designed to be portable by being mounted on a bag or case, and measures the air quality of high-pressure air from a compressor or air tank without location restrictions. According to clause 1,
An air quality measuring device that alerts the user by sounding an alarm or flashing a warning light when the concentration of carbon monoxide or carbon dioxide exceeds the threshold or when oxygen accounts for an excessive weight ratio. According to clause 1,
The air pressure outside the output terminal of the regulator is 1 to 3 bar, and the flow rate is adjusted to 500cc/min in the flow rate controller. According to clause 3,
An air quality measuring device in which the pressure of air passing through a porous member is further reduced to 0.1 to 0.3 bar.