KR101258547B1 - Air dilution device used in ordor olfatometer - Google Patents

Abstract

An air dilution device for odor sensory evaluation and a control method thereof are disclosed. Air dilution device for odor sensory evaluation is a closed chamber formed with a receiving space for accommodating the collection bag therein; A discharge tube connected to the accommodation space; A suction pump installed in the discharge pipe; An inlet pipe connected to the accommodation space and having one end coupled to the collection bag disposed in the accommodation space; A valve coupled with the other end exposed to the outside of the receiving space of the inlet pipe; A malodorous gas inlet pipe having one end connected to the valve; And an odorless air inlet tube having one end connected to the valve, wherein the valve includes an odorless gas inlet position in which the inlet tube communicates with the malodorous gas inlet tube, and an odorless air inlet tube communicating with the odorless air inlet tube. It is characterized in that it is selectively operated between the air inlet positions. The method for controlling this may include a malodorous gas inflow step of positioning the valve to the malodorous gas inflow position; And an odorless air inflow step of positioning the valve to the odorless air inflow position after the odor gas inflow step. Therefore, not only the malodorous air and the odorless air can be diluted at a desired ratio, but also the residue of the malodorous air can be prevented as much as possible from remaining in the equipment.

Odor, Sensory Evaluation, Dilution

Description

Air dilution device for odor sensory evaluation and control method thereof {Air dilution device used in ordor olfatometer}

The present invention relates to an air dilution device for odor sensory evaluation, and more particularly, to an air dilution device for odor sensory evaluation and a control method thereof, which automatically dilute odorless air and malodorous gas at a constant ratio.

Odors and odors vary in the types and sources of substances generated, various substances work in combination, and the perception of pollution varies according to the living environment and the psychological state of people. Difficulties in managing and establishing mitigation measures.

In order to evaluate the degree of contamination of odors and odors, it is necessary to accurately confirm the concentration of odors. For this purpose, instrumental analysis methods for quantitative analysis of odor components and sensory measurement methods expressing sensory odor levels are used. Due to the practical problem that it is difficult to quantitatively analyze all the various substances in low concentrations, sensory methods using sensory organs are relatively used except in special cases.

In Korea, the direct sensory method, which expresses the level of stimulus detected in the field, is mainly applied, but the problem of reliability and objectivity of the evaluation data is raised. By dilution, five or more panelists (determinants) decide the dilution factor that they think there is no smell, and actively use the air dilution function method that can indirectly evaluate the spread of odor.

In order to implement such an air dilution sensory method, the malodorous gas must be diluted in a laboratory at various magnifications and provided to the panel, which requires a lot of time and effort for the researcher to dilute it. In order to solve such a problem, an apparatus for automatically diluting air has been developed, but there is a problem that the odor component remains in a pump, a valve, a flow meter, a flow regulator for supplying a flow path and a gas, and thus makes objective evaluation difficult. .

In addition, the sensory measurement device used as a standard method in a number of countries outside the country has a disadvantage that requires a lot of expensive equipment manufacturing cost as it applies a plurality of flow regulators.

The present invention aims to provide an air dilution device for odor sensory evaluation and a method for manufacturing the odor sensor that allow objective odor sensory evaluation by preventing the residual of odor gas components as much as possible.

The present invention to solve the above problems, the hermetically sealed chamber is formed with a receiving space that can accommodate the collection bag therein; A discharge tube connected to the accommodation space; A suction pump installed in the discharge pipe; An inlet pipe connected to the accommodation space and having one end coupled to the collection bag disposed in the accommodation space; A valve coupled with the other end exposed to the outside of the receiving space of the inlet pipe; A malodorous gas inlet pipe having one end connected to the valve; And an odorless air inlet tube having one end connected to the valve, wherein the valve includes an odorless gas inlet position in which the inlet tube communicates with the malodorous gas inlet tube, and an odorless air inlet tube communicating with the odorless air inlet tube. Provided is an air dilution device for odor sensory evaluation, characterized in that it selectively operates between air inlets.

Here, the flow rate meter which is installed in the discharge pipe can measure the amount of air discharged; preferably further includes.

The apparatus may further include an odorless air supply device connected to the odorless air inlet pipe, and the odorless air supply device may include an activated carbon filter.

And, it is effective to further include a control unit for controlling the operation of the valve.

The control unit controls the operation of the suction pump, characterized in that for operating the valve to the odorless air inlet position after the first odor gas inlet position.

On the other hand, the present invention as another category of the present invention, a method for controlling the air dilution device for odor sensory evaluation described above, odor gas inlet step of positioning the valve to the odor gas inlet position; And an odorless air inflow step of positioning the valve to the odorless air inflow position after the odor gas inflow step.

Here, before the malodorous gas inflow step, by controlling the valve, the rest step to prevent any gas flow into the inlet pipe; includes.

As described above, according to the present invention, various effects including the following can be expected. However, the present invention does not necessarily achieve the following effects.

First, the odor sensory evaluation air dilution device of the embodiment of the present invention can prevent odor components from remaining in the pump and inlet pipe of the odor sensory evaluation air dilution device, thereby ensuring accuracy of sensory evaluation even for a long time use. have.

In addition, by measuring the amount of air discharged, there is an advantage that it is possible to precisely control the amount of gas flowing into the sampling bag.

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

In the following description of the present invention, a detailed description of known functions and configurations will be omitted so as not to obscure the gist of the present invention.

1 is a conceptual diagram of an air dilution device for odor sensory evaluation according to an embodiment of the present invention.

As shown in FIG. 1, the air dilution device for odor sensory evaluation according to an embodiment of the present invention includes an airtight chamber 100 having an accommodating space 110 for accommodating a collecting bag 200 therein, and A discharge pipe 120 connected to the accommodation space 110, a suction pump 300 installed at the discharge pipe 120, and a connection to the accommodation space 110, and one end of which is disposed in the accommodation space 110. An inlet pipe 130 coupled to the sampling bag 200, a valve 400 coupled to the other end exposed to the outside of the receiving space of the inlet pipe 130, and one end connected to the valve 400. A gas inlet pipe 410, an odorless air inlet pipe 420 having one end connected to the valve, a flow meter 700 capable of measuring the amount of air discharged and installed in the discharge pipe 120, and The control unit 600 for controlling the operation of the valve.

FIG. 2 is a perspective view of the closed chamber of FIG. 1. FIG.

The front of the closed chamber 100 is formed with a lid 150 that can open and close the receiving space 110, the front of the dial 140 for specifying the dilution ratio, and start / end for operation start and end operation Button 160 is disposed. The lid 150 is hinged at the top and is provided with a locking device (not shown) to facilitate sealing. Therefore, the lid 150 is opened upward, and the sampling bag 200 is disposed in the accommodation space 110, and then one end of the inflow pipe 130 is hermetically coupled to the inlet of the sampling bag, and the lid 150 is closed. Close it. The dilution factor can then be assigned to the dial 140 and then press the start button 160 to begin operation.

The valve 400 is a odorless air inlet position where the inlet pipe 130 is in communication with the odor gas inlet pipe 410 and the inlet pipe 130 is in communication with the odorless air inlet pipe 420 It is selectively operated between inlet positions. More specifically, the valve 400 is formed as a three-way valve, and the inlet pipe 130, the odor gas inlet pipe 410, and the odorless air inlet pipe 420 are connected to each inlet. Valve 400 is preferably operated by a solenoid.

The odorless air inlet pipe 420 is connected to the odorless air supply unit 500 for supplying odorless air. The odorless air supply unit 500 may be operated by a separately provided activated carbon filter (not shown) and a pump. Therefore, as the sucked air passes through the activated carbon filter, all of the odor causing substances are filtered out. In addition, the odorless air supply device 500 may store the odorless air in advance in the tank, and then connect the tank to the odorless air inlet pipe 420, but in this case, the problem of carrying the tank and the cost increase. There may be a problem.

The controller 600 controls the valve and the pump according to the signal of the dial 140 and the signal of the button 160. In addition, the measurement signal received from the flow meter 700 is referred to the control.

Hereinafter, the control method of the control part 600 and the operation | movement of the air dilution apparatus for malodor sensory evaluation are demonstrated together.

First, the sampling bag 200 is located in the receiving space 110, and then the inlet of the sampling bag 200 is connected to the inlet pipe 130. Then, the lid 150 is sealed. The dial 140 is then turned to specify the desired dilution ratio. Then press the start button.

When the start button is pressed, the control unit operates the suction pump 300. At this time, the control unit is a malodorous gas inflow step of positioning the valve to the malodorous gas inflow position (when the original position of the valve is in the odorless air inflow position, to put the valve in the malodorous gas inflow position before the operation of the suction pump 300 If the original position of the valve is in the odor gas inflow position, do not adjust a separate valve), and after the odor gas inflow step, odorless air inflow to position the valve 400 to the odorless air inflow position Performing the air dilution device control method for odor sensory evaluation comprising the step.

That is, by operating the suction pump 300, a vacuum (a state in which a lower pressure than the atmospheric pressure is formed) is formed inside the receiving space, and in this state the valve 400 is in the odor gas inflow step, the odor air is collected bag It will be introduced to (200). Then, the control unit by positioning the valve 400 to the odorless air inflow position, the odorless air is introduced into the sampling bag 200. The dilution ratio of the malodorous gas and the odorless air can be achieved by controlling the inhalation time, and can be compensated by the measured value of the flow meter 700. Therefore, the dilution ratio can be adjusted more accurately.

In this way, the site where the malodorous air is in contact with the equipment is limited to the valve 400 and the inlet pipe 130, it is possible to minimize the remaining of the malodorous air.

In addition, by controlling the valve and flowing from the malodorous air and then introducing the odorless air, the odorless air flows into the sampling bag while removing all the residues of the malodorous air. Therefore, there is an advantage that the residue of the odor air can be minimized to remain in the valve 400 and the inlet pipe 130.

The method of controlling the air dilution device for odor sensory evaluation may further include a resting step of controlling the valve 400 to prevent any gas from flowing into the inflow pipe before the odor gas inflow step.

This is because air is introduced into the sampling bag 200 only after the first pump operation, the receiving space 110 is lowered below a predetermined atmospheric pressure. The duration of the dormant phase is 1.5 to 2 seconds.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

1 is a conceptual diagram of an air dilution device for odor sensory evaluation according to an embodiment of the present invention

Figure 2 is a perspective view of the closed chamber of Figure 1

DESCRIPTION OF REFERENCE NUMERALS

200: collection bag 110: storage space

100: sealed chamber 120: discharge tube

300: suction pump 130: inlet pipe

400: valve 410: odor gas inlet pipe

420: odorless air inlet pipe 700: flow meter

500: odorless air supply device 600: control unit

Claims (8)

An airtight chamber 100 in which an accommodation space 110 for accommodating the collecting bag 200 is formed therein; A discharge pipe 120 connected to the accommodation space 110; A suction pump 300 installed in the discharge pipe 120; An inlet pipe 130 connected to the accommodation space 110 and having one end sealed to the inlet of the sampling bag 200 disposed in the accommodation space 110; A valve 400 coupled to the other end exposed to the outside of the accommodation space 110 of the inflow pipe 130; Odor gas inlet pipe 410 one end is connected to the valve 400; And An odorless air inlet pipe 420 having one end connected to the valve 400; / RTI > The valve 400 may be selectively operated between the odor gas inflow position in which the inflow pipe is in communication with the odor gas inflow pipe, and the odorless air inflow position in which the inflow pipe is in communication with the odorless air inflow pipe. Air dilution device for odor sensory evaluation. The method of claim 1, A flow rate meter 700 installed in the discharge pipe 120 to measure an amount of air discharged; Odor sensory air dilution device further comprising a. The method of claim 1, Odorless air supply device 500 is connected to the odorless air inlet pipe 420; More, The odorless air supply device 500, air dilution device for odor sensory evaluation, characterized in that it comprises an activated carbon filter. 4. The method according to any one of claims 1 to 3, A control unit 600 for controlling the operation of the valve 400; Odor sensory air dilution device further comprising a. 4. The method according to any one of claims 1 to 3, A lid 150 installed in the closed chamber 100 to open and close the accommodation space 110; Odor sensory air dilution device further comprising a. 5. The method of claim 4, The control unit 600, The valve 400 is first placed in the odor gas inlet position, and then operating in the odorless air inlet position air dilution device for odor sensory evaluation, characterized in that. As a method of controlling the air dilution device for odor sensory evaluation according to any one of claims 1 to 3, Odor gas inlet step of positioning the valve 400 to the odor gas inlet position; And After the odor gas inlet step, the odorless air inlet step of positioning the valve 400 to the odorless air inlet position; Air dilution device control method for odor sensory evaluation, comprising a. The method of claim 7, wherein Before the odor gas inflow step, Resting step to control the valve 400, so that no gas is introduced into the inlet pipe; Air dilution device control method for odor sensory evaluation, comprising a.

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