KR102421460B1 - Air-diluting type odor measuring device and method - Google Patents

Abstract

The present invention relates to an odor measuring device that can conveniently perform odor measurement similar to the result of sensory measurement of an air dilution method. ; a measuring unit having a sensor for measuring an odor in the diluted sample mixed in the odorless air bag; and a zero point gas storage unit for storing a zero point gas for setting a reference point of the sensor.
In the present invention, since the sampling and dilution of the sample are performed in the manner prescribed by the air dilution sensory method through the configuration using the odorless air bag, the odor measurement result is almost similar to the evaluation according to the air dilution sensory method using the sensor. It can be obtained quickly and has the effect of being able to check the results by performing measurements on the spot.
Furthermore, since the odor measuring device of the present invention additionally includes a zero point gas storage unit to quickly recover the sensor and set the zero point, there is an excellent effect of accurately and quickly measuring the odor even in the repeated measurement process.

Description

Air-diluting type odor measuring device and method, and odorless air bag used therefor

The present invention relates to an odor measuring device, and more particularly, to an odor measuring device capable of conveniently performing odor measurement similar to the result of sensory measurement of an air dilution method.

The air dilution sensory method is applied as the main test method for odor evaluation among the process test methods presented in the Domestic Odor Prevention Act.

The air dilution method is one of the measurement methods of odor units as a method of determining how many times the odorous air becomes odorless when diluted with odorless air. The sensory test method is a method to measure the intensity of odors using the sense of smell of a healthy person. This is a method to obtain the dilution factor by diluting it until a panel of 5 people (odor determination agent) can no longer sense the smell.

Although this air dilution sensory method is a reliable standard recognized by the state, it takes time to collect and evaluate samples, so it is difficult to apply it for the purpose of quickly taking measures in the field. In order to solve this shortcoming, devices have been developed to quickly evaluate odors in the field using semiconductor sensors such as MOS sensors rather than human evaluations. There is a disadvantage in that there is a difference between the case of being evaluated by the prevention method and the measurement result.

Republic of Korea Patent Publication 10-2005-0032550

An object of the present invention is to provide an odor measuring device capable of rapidly performing an evaluation similar to the air dilution sensory method even in the field by applying an evaluation method similar to the air dilution sensory method in order to solve the problems of the prior art.

In order to achieve the above object, an air dilution type odor measuring device according to the present invention includes: an odorless air bag holder in which an odorless air bag storing odorless air for diluting a collected sample is seated; a measuring unit having a sensor for measuring an odor in the diluted sample mixed in the odorless air bag; and a zero point gas storage unit for storing a zero point gas for setting a reference point of the sensor. The measurement unit may use a semiconductor sensor.

A sample collection unit for collecting a sample may be provided, and the sample collected in the sampling unit may be injected through a connection pipe into an odorless air bag seated in the odorless air bag holder and mixed.

It is preferable that the odorless air bag has an inlet through which a sampling sample is injected, and the gas moves only in the injection direction of the inlet.

The odorless air bag has an outlet through which the diluted sample in which the sampling sample and the odorless air are mixed is discharged, and it is preferable that the gas moves only in the discharge direction.

The odorless air bag may have a storage amount of odorless air adjusted so that the mixing ratio of the sample sample and the odorless air becomes a predetermined value when the sample sample is additionally injected until the maximum storage amount is reached.

According to another aspect of the present invention, an air dilution type odor measurement method is a method for measuring odor by passing a diluted sample in which odorless air and a sampling sample are mixed through a sensor, and odorless air in which odorless air for diluting the collected sample is stored. A step of preparing an odorless air bag to prepare a bag; a mixing step of injecting a sampling sample into the odorless air bag to produce a diluted sample in which the odorless air and the sampling sample are mixed; a measuring step of passing the diluted sample through a sensor for odor measurement, and before performing the measuring step, a zero point control step of adjusting the zero point of the sensor while restoring the sensor by passing a zero point gas through the sensor characterized in that

The storage amount of the odorless air stored in the odorless air bag is adjusted so that the mixing ratio of the sampling sample and the odorless air becomes a predetermined value when the sampling sample is additionally injected until the maximum storage amount of the odorless air bag is reached.

According to another aspect of the present invention, the odorless air bag is an odorless air bag used to measure odor by passing a diluted sample in which odorless air and a sample to be collected is mixed through a sensor. Odorless air is stored, and the storage amount of odorless air is adjusted so that the mixing ratio of the sample and the odorless air becomes a predetermined value when the sample is additionally injected until the maximum storage amount is reached.

It is preferable that an inlet through which the sampling sample is injected is provided, and the gas moves only in the injection direction through the inlet.

It is preferable to have an outlet through which the diluted sample in which the sampling sample and the odorless air are mixed is discharged, and the gas moves only in the discharge direction.

In the present invention configured as described above, since the sampling and dilution of the sample are performed in the manner prescribed in the air dilution sensory method through the configuration using an odorless air bag, the evaluation according to the air dilution sensory method using a sensor is almost identical. A similar odor measurement result can be obtained quickly, and it is possible to check the result by performing the measurement directly on the spot.

Furthermore, since the odor measuring device of the present invention additionally includes a zero point gas storage unit to quickly recover the sensor and set the zero point, there is an excellent effect of accurately and quickly measuring the odor even in the repeated measurement process.

1 is a schematic diagram for explaining the configuration of an odor measuring device according to an embodiment of the present invention.

An embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

However, the embodiment of the present invention may be modified in various other forms, and the scope of the present invention is not limited only to the embodiments described below. The shapes and sizes of elements in the drawings may be exaggerated for clearer description, and elements indicated by the same reference numerals in the drawings are the same elements.

And throughout the specification, when a part is "connected" with another part, it includes not only the case of being "directly connected" but also the case of being "electrically connected" with another element interposed therebetween. In addition, when a part "includes" or "includes" a certain component, it means that other components may be further included or provided without excluding other components unless otherwise stated. do.

In addition, terms such as “first” and “second” are for distinguishing one component from other components, and the scope of rights should not be limited by these terms. For example, a first component may be termed a second component, and similarly, a second component may also be termed a first component.

1 is a schematic diagram for explaining the configuration of an odor measuring device according to an embodiment of the present invention.

The odor measuring device of this embodiment includes a sample collecting unit 100 , an odorless airbag seating unit 200 , a measuring unit 300 , and a hot spot gas storage unit 400 .

The sample collection unit 100 is a part that collects the atmosphere, which is the object for which the smell is measured.

The collection of the sample to be measured is very important, and since the odor measuring device of the present invention measures the odor based on the air dilution sensory method, it is configured to follow the regulations of the air dilution sensory method even for sampling.

In the air dilution sensory method, a sample is collected in a prescribed aluminum bag, and it has an inlet and an outlet that allows air to move in only one direction, so that the sample collected after filling the inside of the aluminum bag once at the sampling location and emptying it is collected again. is intended to be used.

The sample collection unit 100 of this embodiment is configured to have an inlet and an outlet, fill the internal space of the sample collection unit 100 through the inlet, and discharge it to the outlet, and collect a sample through the inlet again. At this time, the first connection pipe 510 and the outlet to which the odorless air bag seating part 200 and the sample collection part 100 are connected are separately configured, and in the sample collection process, the odorless air bag seating part 200 and the sample collection part ( 100) is connected to close the first connection pipe 510 to prevent air from flowing into the odorless air bag seating part 200 . And the sample collection unit 100 of this embodiment is provided with an air transport device such as a pump so that the sample can be introduced into the interior of the sample collection unit (100).

On the other hand, without having a separate sampling unit 100, it can be configured to directly supply the sample to be collected from the aluminum packaging bag for sampling as stipulated in the air dilution sensory method.

The odorless air bag seating part 200 is a space in which the odorless air bag 210 filled with odorless air can be placed, and the first connection is made so that the sample of the sample collection unit 100 can be injected into the odorless air bag 210 . A tube 510 is connected to the odorless air bag. The odorless air bag 210 used in the present invention stores odorless air at a level specified in the air dilution sensory method, and at this time, an amount of odorless air less than the maximum storage amount of the odorless air bag 210 so that the sample can be additionally injected. air is stored

An inlet 212 connected to the first connection pipe 510 is formed in the odorless air bag 210, and this inlet 212 is configured to be injected from the outside and not discharged. Accordingly, the storage amount of the odorless air stored in the odorless air bag 210 is kept constant, and by adjusting the injection amount of the sample sample, the mixing ratio of the sample sample and the odorless air can be adjusted.

When the sampling sample stored in the sampling unit 100 is injected into the odorless air bag 210, the odorless air and the sampling sample are mixed to generate a diluted sample. The material of the odorless air bag 210 is not particularly limited, but a material that does not change its odor through a reaction or the like when a sampling sample is injected must be applied. can

The odorless air bag 210 has an outlet 214 through which the diluted sample can be discharged toward the sensor, and the outlet 214 transfers the diluted sample to the measurement unit 300 through the second connection pipe 520 . . The second connection pipe 520 can be opened and closed so that the odorless air and the sampling sample can be completely mixed and then discharged, and the outlet 214 can be configured to be discharged only to the outside and not to be injected.

In addition, as described above, the sample is collected in an aluminum packaging bag according to the regulation of the air dilution sensory method without taking a sample inside the sampling unit 100, and then the sample taken from the aluminum packaging bag is directly transferred to the odorless air bag (210). can also be injected. At this time, the sample stored in the aluminum packaging bag for collection by using a needle or the like may be injected into the odorless air bag 210 .

On the other hand, when the sample collected from the sampling unit 100 is injected into the odorless air bag 210 and mixed, in order to mix at a predetermined mixing ratio (for example, 15 times), the odorless stored in the odorless air bag 210 is odorless. Based on the amount of air stored, the amount of sample injected is adjusted.

At this time, when the sampling sample is additionally injected until the maximum storage amount of the odorless air bag 210 is reached, the sample sample and the odorless air are mixed in a predetermined ratio (for example, 15 times). It is preferable that the amount of odorless air to be stored is adjusted in advance.

The measuring unit 300 is a part that receives the diluted sample mixed in the odorless air bag 210 and evaluates the odor.

When the odorless air and the sample sample are completely mixed in the odorless air bag 210 , the diluted sample is transferred to the measurement unit 300 through the second connection pipe 520 , and the measurement unit 300 has a MOS sensor for odor measurement. A semiconductor sensor such as a sensor is installed to measure the odor of the diluted sample.

Since the air dilution sensory method proposed in the Odor Prevention Act is evaluated by a panel of 5 (odor determination agents), the odor measuring device of this embodiment using a sensor cannot be the evaluation result under the Odor Prevention Act. However, as described above, in the odor measuring device of this embodiment, since all processes such as sampling and dilution follow the regulations of the air dilution sensory method, the result of the air dilution sensory method presented in the odor prevention method using a sensor is measured. Although almost the same can be obtained, the malodor determination according to the present embodiment has the advantage that it can be performed very quickly in the field. Therefore, before applying the air dilution sensory method, which takes a very long time to collect a sample and receive an evaluation result, the odor measuring device of this embodiment is used to check in advance whether there is an odor, and to solve and supplement the problem through quick feedback. you will be able to proceed

The zero point gas storage unit 400 is a part in which gas for setting a reference point (zero point) of the sensor before or after performing odor measurement is stored.

A problem with odor measuring devices used directly in the field is that the reproducibility of measurement results is low or objectivity cannot be guaranteed. In the process of changing the measurement location after measurement in another location or repeatedly performing measurement in the same location, the effect of the sensor response from the previous measurement remains and affects the odor measurement performed later. There are disadvantages, and there is a problem that it takes a considerable amount of time for the sensor to recover to its original state.

In this embodiment, by further providing a zero point gas storage unit 400 connected to the measuring unit 300 through a third connection pipe 530 , the accuracy of the odor measuring device can be increased. The zero point gas storage unit 400 stores pure gas that does not react to the sensor, such as oxygen or nitrogen, as a zero point gas. After setting the state, measurement is performed on the diluted gas mixed in the odorless air bag 210 . As described above, since the sensor recovers quickly and only the amount of change is measured based on the new zero point, there is an effect that more accurate measurement can be repeatedly performed compared to the prior art.

As described above, although the odor measuring device of the present invention measures odor through a sensor, the sampling and dilution of the sample are performed in the manner stipulated in the air dilution sensory method through the configuration using an odorless air bag. There is an advantage in that it is possible to obtain odor measurement results that are almost similar to the evaluation according to the sensory method.

In this case, the odor measuring device of the present invention has the effect of not only confirming the result faster than the air dilution sensory method, but also performing the measurement directly on the spot to confirm the result.

On the other hand, compared to the existing odor measuring devices using sensors, it is difficult to quickly and repeatedly measure quickly due to the influence of previously performed measurements. It has an excellent effect in accurately measuring odors.

The present invention has been described through preferred embodiments, but the above-described embodiments are merely illustrative of the technical spirit of the present invention, and various changes are possible within the scope without departing from the technical spirit of the present invention. Those of ordinary skill in the art will understand. Therefore, the protection scope of the present invention should be interpreted by the matters described in the claims, not specific embodiments, and all technical ideas within the equivalent range should be interpreted as being included in the scope of the present invention.

100: sample collection part 200: odorless air bag seating part
210: odorless air bag 212: inlet
214: outlet 300: measuring unit
400: zero point gas storage unit 510: first connection pipe
520: second connector 530: third connector

Claims (10)

In the odor measuring device for measuring odor by passing a diluted sample in which odorless air and a sampling sample are mixed through a sensor,
An odorless air bag holder in which only odorless air is stored;
a measuring unit having a sensor for measuring odor in the mixed diluted sample so that a mixing ratio of the sample and odorless air becomes a predetermined value; and
and a zero point gas storage unit in which zero point gas for setting the reference point of the sensor is stored,
The odorless air bag is manufactured in advance outside the measuring device, and the storage amount of odorless air is adjusted so that the mixing ratio of the sample and the odorless air becomes a predetermined value when the sample is additionally injected until the maximum storage amount is reached. In the state where only odorless air is stored,
In the odorless air bag holding part, a diluted sample generated by additionally injecting a sampling sample until the odorless air bag reaches the maximum storage amount is supplied to the measuring part to measure the odor,
Air dilution type odor measuring device, characterized in that the measuring device does not include a means for storing or generating odorless air.
The method according to claim 1,
A sampling unit for collecting a sample is provided;
Air dilution type odor measuring device, characterized in that the sample collected in the sampling unit through a connection pipe is injected into the odorless air bag seated in the odorless air bag holder and mixed.
The method according to claim 1,
The odorless air bag has an inlet through which a sample to be collected is injected, and the inlet through which gas can move only in the injection direction.
The method according to claim 1,
The odorless air bag has an outlet through which the diluted sample in which the sample sample and the odorless air are mixed is discharged, and the outlet allows gas to move only in the discharge direction.
delete A method of measuring odor by passing a diluted sample in which odorless air and a sampling sample are mixed using the odor measuring device of claim 1 through a sensor,
Only odorless air to dilute the collected sample is stored, but when the sample is additionally injected until the maximum storage amount of the odorless air bag is reached, the odor measurement is made by measuring the odorless air bag in which the mixing ratio of the sample and odorless air becomes a predetermined value. Preparing an odorless air bag prepared by manufacturing outside the device;
a mixing step of injecting a sampling sample into the odorless air bag to produce a diluted sample in which the odorless air and the sampling sample are mixed;
A measuring step of passing the diluted sample through a sensor for odor measurement,
An air dilution type odor measuring method, characterized in that, before performing the measuring step, a zero point adjusting step of adjusting the zero point of the sensor while restoring the sensor by passing a zero point gas through the sensor is further performed.
delete An odorless air bag used in the odor measuring device of claim 1 for measuring odor by passing a diluted sample in which odorless air and a sampling sample are mixed through a sensor,
Only odorless air to dilute the collected sample is stored inside, but the storage amount of odorless air is adjusted so that the mixing ratio of the sample and the odorless air becomes a predetermined value when the sample is additionally injected until the maximum storage amount is reached. Odorless air bag for odor measurement, characterized in that.
9. The method of claim 8,
An odorless air bag for odor measurement, comprising an inlet through which a sample to be collected is injected, wherein the inlet allows gas to move only in the injection direction.
9. The method of claim 8,
An odorless air bag for odor measurement, characterized in that it has an outlet through which the diluted sample in which the sampling sample and the odorless air are mixed is discharged, wherein the outlet allows gas to move only in the discharge direction.

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