KR100608434B1 - Concentration measured apparatus and method thereof of oral gas - Google Patents

Abstract

The present invention comprises a system in which a first gas is sucked by a syringe, sampled (taken), and then mixed with filtered air, and then, the gaseous gas is distinguished from hydrogen sulfide and methyl melcaptan gas in the bad gas and accurately sensed and analyzed and displayed. A concentration measuring apparatus of a bad breathing gas, and a concentration measuring device of a bad breathing gas, the control valve 12a is provided at one end, the other end is a sampling loop for storing a sample of the breathing tube and the sample sucked by a person ( A first three-way valve 12 to which one end of 11) is connected; One end thereof is connected to the other end of the sampling loop 11 connected to one end of the first three-way valve 12, and the other end thereof is connected via a check valve 13 to suck in the bad gas to enter the sampling loop 11. A second three-way valve 16 to which the syringe 14 to store and the solenoid valve 15 are connected; The third three-way valve 20 is connected to one end of the solenoid valve 15, the other end is connected to the air inlet tube 17 for introducing the filtered air and the tube 19 for connecting the semiconductor sensor 18, respectively. )Wow; An air filter 22 connected to one end of the air inlet tube 17 to filter air; A suction pump 21 connected to the other end of the semiconductor sensor 18 so as to perform suction operation so that the bad gas diluted with air passes through the semiconductor sensor 18; And a speed controller 23 installed at one end of the air filter 22 to adjust the amount of air so as to be diluted 1: 1 to 1: 2 with the bad gas introduced from the solenoid valve 15. do.

In addition, the method of measuring the concentration of the bad gas is a step of inhaling the bad gas to the syringe through the tube biting into the mouth of the person measuring the bad gas to store in the sampling loop (11); Diluting 1: 1 with the air filtered through the air filter (22) and the bad breath gas to lower the relative humidity of the bad gas stored in the sampling loop (11); Sensing the air and diluted bad gas through the semiconductor sensor 18 by the suction operation of the suction pump 21 in the step; And distinguishing and displaying hydrogen sulfide and methyl mercaptan in the semiconductor sensor 18.

The apparatus for measuring the concentration of the bad breath gas and thus a suitable method is configured to inhale and collect the bad breath gas into the sampling loop using a syringe, and to later mix the air with the filtered air to remove the humidity in the bad breath gas in an accurate ratio. By configuring the components of the bad breath gas to display the concentration for the hydrogen sulfide (Hydrogen Sulfide) and methyl mercaptan (Methyl mercaptan), there is also an effect that can be applied to the diagnosis and treatment prognosis of periodontal disease.

Description

Concentration measuring apparatus and method suitable for the concentration of bad breathing gas}

1 is a schematic system diagram showing an apparatus for monitoring a conventional bad gas;

2 is a system diagram showing an apparatus for measuring a concentration of bad gas according to the present invention.

<Explanation of symbols for the main parts of the drawings>

11 sampling loop 14 syringe

15 solenoid valve 18 semiconductor sensor

21: suction pump 22: air filter

30: power supply 31: circuit board

The present invention relates to an apparatus for measuring the concentration of bad gas such as hydrogen sulfide (Hydrogen Sulfide) and methyl mercaptan (Methyl mercaptan).

In general, bad breath is also known as bad breath, which is mainly caused by volatile sulfur compounds including gas in the mouth of a person, and bad breath is caused by diseases such as the mouth, teeth, nasal passages, upper respiratory tract and stomach. The types of bad gas include hydrogen sulfide, methyl mercaptan and dimethyl sulfide. Among these, dimethyl sulfide has a low frequency and low concentration found in the bad gas, and two types of gas are important in the bad breath analysis, hydrogen sulfide and methyl melcaptan.

Gas chromatography with a fluorescence photodetector (FPD) is used as a standard measurement equipment to analyze the quality and quantity of such gas components. However, the equipment is run by skilled workers, and the cost of purchase and maintenance is very expensive, so its use is limited to very few research groups.

To overcome the practical limitations of such gas chromatography, desk-type breathalyzers have been devised to provide first-line clinicians or hospitals. For example, gas analyzers such as Halimeter (Interscan, USA) are widely used. have.

Such a conventional bad breath meter is generally described in US Patent No. 4,017,373 for the electrochemical gas sensor for detecting bad breath, in the present invention is to display only the total amount of volatile sulfur compounds in the sense of bad breath gas hydrogen sulfide (H ₂ There is a problem in that S) and methyl mercaptan (CH ₃ SH) cannot be distinguished. That is, it is not possible to distinguish whether the cause of the patient's bad breath is caused by physiological or pathological factors. Therefore, the patient's condition cannot be diagnosed accurately. Since the concentration may be diluted by the atmosphere around the measuring instrument, it is not possible to accurately measure the components of the bad breath gas, and there is a problem of malfunction by various gas components of the surrounding atmosphere.

In addition, as shown in FIG. 1, a device for monitoring bad breath gas is disclosed. When a person who intends to measure bad breath through the mouthpiece 1 blows the bad breath gas, the mouth filter 2 is used to detect bad breath gas. A device is disclosed in which a portion is adsorbed, the electromagnet valve 3 is opened, and the pump 4 is operated to be diluted with the air filtered in the carbon filter to measure the components of the bad gas in the sensor 5. In such a device, a part of the effective volatile sulfur compounds in the bad breath gas in the mouth filter 1 is adsorbed when collecting the bad breath gas in the mouthpiece 1, making it difficult to accurately analyze the bad breath gas and the consumption of the bad breath gas is about 80 ml. It is difficult to analyze the volatile sulfur compounds in detail, and this device only displays the total amount of volatile sulfur compounds such as hydrogen sulfide and methyl mercaptan in the bad gas, thus making it impossible to diagnose the physiological and pathological bad breath of the patient.

Accordingly, the present invention is to solve the above problems, the object of the present invention is to first collect the suction gas by a syringe (sample), and then to configure a system of mixing with filtered air hydrogen sulfide and methyl The present invention provides a device for measuring a concentration of bad gas and a method suitable therefor, which are capable of diagnosing physiological bad breath and pathological bad breath by separately measuring melcaptan and analyzing the results.                         

Therefore, in order to realize the above object, the concentration measurement device of the bad breath gas according to the present invention has a control valve provided at one end thereof, and at the other end of the sampling loop for storing a sampled bad breath gas and a tube that the human mouth bites. One end is connected to the first three-way valve and the other end of the sampling loop connected to one end of the first three-way valve, the other end is connected via a check valve to suck the bad gas to store in the sampling loop A second three-way valve to which a syringe and a solenoid valve are connected; a third three-way valve to which the solenoid valve is connected at one end thereof; and at the other end thereof to an air inlet tube for introducing filtered air and a tube connecting to the semiconductor sensor; An air filter connected to one end of the air inflow tube and an other end of the semiconductor sensor A suction pump that suctions air and dilutes bad breath gas to pass through the semiconductor sensor, and a speed that adjusts the amount of air so as to be diluted 1: 1 with the bad breath gas introduced from the solenoid valve by being installed at one end of the air filter Characterized in that consisting of the controller.

In addition, the method of measuring the concentration of the bad breath gas comprises the steps of sucking the bad breath gas through the tube drawn through the mouth of the person measuring the bad breath gas with a syringe to store in the sampling loop; Diluting 1: 1 to 1: 2 with air filtered through the air filter and the bad breath gas to lower the relative humidity of the bad gas stored in the sampling loop; Sensing the air and diluted bad gas through the semiconductor sensor by the suction operation of the suction pump in the step; And distinguishing and displaying physiological bad breath and pathological bad breath in the semiconductor sensor.

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

2 is a system diagram showing an apparatus for measuring a concentration of bad gas according to the present invention. As shown in FIG. 2, the concentration measuring device of the bad breath gas according to the present invention includes a sampling loop having a control valve 12a installed at one end thereof and a sample bite gas stored at the other end of the tube. One end of the first three-way valve 12 to which one end of 11 is connected, and the other end of the sampling loop 11 connected to one end of the first three-way valve 12, are connected to one end thereof, and the check valve 13 is connected to the other end thereof. The second three-way valve 16 is connected to the syringe 14 and the solenoid valve 15 to suck the bad gas to be stored in the sampling loop 11 and the solenoid valve 15 at one end thereof. A third three-way valve 20 connected to an air inlet tube 17 for introducing filtered air and a tube 19 for connecting the semiconductor sensor 18 to the other end thereof; and the air inlet tube 17. One end of the air filter 22 is connected to filter the air, and A suction pump 21 connected to the other end of the conductor sensor 18 so as to operate the suction gas so that the bad gas diluted with air passes through the semiconductor sensor 18, and installed at one end of the air filter 22 and the solenoid valve And a speed controller 23 for adjusting the amount of air so as to be diluted 1: 1 with 1: 2 with the bad breath gas introduced from (15).

Here, if the mixing ratio of the bad breath gas and the filtered air is too low, the effect of lowering the relative humidity is insignificant, on the contrary too high, there is a risk of excessively diluting the concentration of the bad breath gas, preferably 1: 1 to 1: The speed controller 23 adjusts to a ratio of two.

In addition, the air filter 22 is equipped with an air filter in order to recover the gas sensor after the gas measurement in the conventional invention, but in the present invention, the air filter 22 is newly invented to lower the relative humidity of the bad gas collected therein. It is. In particular, in the conventional invention, since the patient responds to the bad breath analysis with the mouth open, there is a fear that various gases in the air are mixed with the bad breath gas. However, in the present invention, by using a filter made of silica gel and activated carbon, the unknown gas components in the air are filtered and mixed with the bad breath gas, thereby enabling accurate bad breath analysis.

In the case of bad breath analysis, the water in the oral cavity maintains a level equivalent to 100% relative humidity at a body temperature of 36.5 degrees. Condensation may result in an incorrect sensor signal. In order to prevent this, in the present invention, by using the air filter 22 containing silica gel, the air outside the device is introduced into the device by the filter, and mixed with the bad gas, thereby lowering the relative humidity near the sensor surface. To prevent condensation from occurring.

Here, the semiconductor sensor 18 is a bad gas measurement unit 18a made of a gas sensor having a selectivity to hydrogen sulfide (Hydrogen Sulfide) and a bad gas measurement made of a sensor having a selectivity to methyl mercaptan (Methyl mercaptan) The part 18b is provided.

Preferably, the sensors of the two breath gas measuring units have sufficient selectivity for hydrogen sulfide and methylmelcaptan, respectively, and measure the respective sensor signals to diagnose physiological and pathological breath.

However, when either sensor lacks selectivity, for example, when the sensor mounted on the bad gas measurement unit 18b is a volatile sulfur compound sensor that reacts not only to methylmelcaptan but also to hydrogen sulfide, hydrogen sulfide in this case By comparing the ratio between the measured values of the sensor and the volatile sulfur compound sensor, it is possible to distinguish between physiological and pathological breath.

The reason is that hydrogen sulfide and methyl melcaptan are almost the same level in physiological bad breath, whereas in the case of pathological bad breath, the concentration of methyl melcaptan is significantly higher than hydrogen sulfide, for example, 4 to 8 times higher than in this case. In addition, it is possible to distinguish between physiological bad breath and pathological bad breath.

The sampling loop 11 is a tube whose diameter is thinner than the length, has an inner diameter of 2.5 mm, a length of 3.2 m, and has a volume of approximately 15 ml. On the other hand, considering the data reported in the oral volume of about 27ml, the volume of this sampling loop may consist of about 10ml to 20ml.

In constructing the sampling loop, the length and diameter of the entire sampling loop are very important. If the diameter of the tube is too large, when the fresh gas is introduced into the tube, the existing gas and the newly introduced gas inside the tube This is because there is a risk of mixing. To prevent this, the diameter of the tube should be small enough for its length. For example, in order to form a 15 ml volumetric sampling loop, it is preferable to make a 2.5 mm inner diameter tube 3.2 m long.

In detail, it is preferable that the diameter of a tube is 10 mm or less, and it is preferable that the length of a tube is 10 cm. Within this range, the sampling loop can be mounted within the range of 10 ml to 20 ml.

If the sampling loop becomes larger than the known oral volume, it will collect additional gas other than the gas in the oral cavity, and thus cannot be a correct bad gas collection. On the contrary, if it is collected too small, it does not represent the entire bad gas, and local gas collection is made, which is also not a good bad gas collection.

In the operation of the concentration measurement device of the bad gas, when the power is applied through the power supply 30, the semiconductor sensor 18, the suction pump 21, and the speed controller 23 are connected to the circuit board 31 serving as a control unit. It is electrically connected and controlled, and the first display unit LCD and the second display unit LED are connected to the circuit board 31 to analyze and separate the components of the bad gas detected by the semiconductor sensor 18. Since the semiconductor sensor 18 is mutually dependent on the relative humidity, as described above, the bad gas is diluted with the air filtered by the air filter 22 in a range of 1: 1 to 1: 2 so as to be introduced.

That is, clearly distinguishing bad breath gases such as hydrogen sulfide and methyl mercaptan, and displaying the concentrations on the first and second displays so as to determine whether the bad breath of the patient is physiological through collecting and measuring bad breath gases. It is to determine whether it is a serious factor, and to use it as an index of treatment of simple bad breath, diagnosis of periodontal disease, or treatment effect.

The operation and effects of the above-described bad breath gas concentration measuring device will be described in more detail with reference to FIG. 2. First, a tube connected to one end of the first three-way valve 12 is held in the mouth of a person who wants to measure the bad breath gas. In the state, the suction gas of about 15 ml is sucked through the syringe 14, and it is collected and stored in the sampling loop 11. Thereafter, when the pump 21 is operated by applying power to the suction pump 21, the solenoid valve 15 is opened at the same time so that the bad gas in the sampling loop 11 flows in through the second three-way valve 16. Hydrogen sulfide and methylmel in the components of the bad gas are diluted with a predetermined amount of air filtered from the third three-way valve 20, that is, 1: 1 to 1: 2 with the bad gas and flowed into the semiconductor sensor 18. Detects the concentration of bad gas components such as methyl mercaptan.

According to the apparatus for measuring the concentration of the breath gas of the present invention configured as described above and a method suitable therefor, the breath gas is sampled (taken) by suction through a syringe, and then, at a precise ratio with the air filtered later to remove humidity in the breath gas. By mixing and configuring the components of the breath gas to display the concentration of the breath gas such as hydrogen sulfide and methyl mercaptan through a semiconductor sensor interdependent with relative humidity, the physiological and pathological breath is judged. In addition, the treatment of simple bad breath and the diagnosis of periodontal disease and the application to the prognosis observation are possible effects.

Claims (4)

A first three-way valve 12 having a control valve 12a installed at one end thereof and connected to one end of a sampling loop 11 for storing a sampled bad breath gas and a tube drawn by a person; One end thereof is connected to the other end of the sampling loop 11 connected to one end of the first three-way valve 12, and the other end thereof is connected via a check valve 13 to suck in the bad gas to enter the sampling loop 11. A second three-way valve 16 to which the syringe 14 to store and the solenoid valve 15 are connected; The third three-way valve 20 is connected to one end of the solenoid valve 15, the other end is connected to the air inlet tube 17 for introducing the filtered air and the tube 19 for connecting the semiconductor sensor 18, respectively. )Wow; An air filter 22 connected to one end of the air inlet tube 17 to filter air; A suction pump 21 connected to the other end of the semiconductor sensor 18 so as to perform suction operation so that the air filtered by the air filter 22 and the diluted bad gas pass through the semiconductor sensor 18; And The concentration of the bad breath gas, characterized in that the speed controller 23 is installed on one end of the air filter 22 to adjust the amount of air to be diluted 1: 1 with the bad breath gas introduced from the solenoid valve (15). Measuring device. Inhaling the breathing gas into the sampling loop (11) by inhaling the breathing gas into the syringe through a tube that is breathed into the mouth of the person to be measured; Diluting 1: 1 with the air filtered through the air filter (22) and the bad breath gas to lower the relative humidity of the bad gas stored in the sampling loop (11); Sensing the air and diluted bad gas through the semiconductor sensor 18 by the suction operation of the suction pump 21 in the step; And And displaying the physiological bad breath and the pathological bad breath in the semiconductor sensor (18). The gas sensor 18a of claim 1, wherein the semiconductor sensor 18 comprises a gas detector 18a comprising a gas sensor having a selectivity to hydrogen sulfide, and a gas sensor having a selectivity to methyl mercaptan. Bad gas measurement unit (18b) consisting of a concentration measurement device of the bad gas. 2. The sampling loop (11) according to claim 1, wherein the sampling loop (11) consists of a tube whose diameter is thin compared to the length, the total volume of the sampling loop (11) is in the range of 10 to 20 ml, and the diameter of the sampling loop (11) is total. An apparatus for measuring concentration of bad gas, which is in the range of 1 / 10,000 to 1/10 of the tube length.

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