KR102124589B1 - Apparatus for testing sensor - Google Patents

Abstract

The present invention relates to a sensor test device comprising: an air supply unit to supply air at a flow rate determined by a first MFC through indirect suction in an odorless state by filtering the air via a filter; a sample dilution unit to selectively each of supply different materials to be analyzed to the air supplied by the air supply unit by opening and closing of each opening/closing valve, and dilute the supplied materials to be analyzed with the air supplied at a flow rate determined by a second MFC; a sampling bag to be filled with the air in which the materials to be analyzed are diluted from the air supply unit and the sample dilution unit; a sample supply unit to supply the air in which the materials to be analyzed, which are filled from the sampling bag, are diluted for a sensor test; and measurement equipment to receive the air in which the materials to be analyzed, which are supplied from the sample supply unit, are diluted to perform a test of a sensor by analysis on the materials to be analyzed. According to the present invention, materials to be analyzed are diluted with the air at desired ratios and are stored in the sampling bag to stably supply the materials to be analyzed, which are diluted with the air, to a sensor from the sampling bag, thereby increasing the convenience and reliability for tests of the sensor.

Description

Sensor testing device {Apparatus for testing sensor}

The present invention relates to a sensor test apparatus, and more specifically, by diluting an analyte in an odorless atmosphere at a desired ratio and storing it in a sampling bag, thereby stably supplying an analyte diluted in the atmosphere from the sampling bag to the sensor. , It relates to a sensor test device to increase the convenience and reliability for the test of the sensor.

In general, while the convenience of life increases as the industry develops, environmental destruction by various pollutants from industries, etc., is widely occurring, and the effect of odors from industrial complexes on surrounding areas is a social problem. And, accordingly, the amount of odor is legally regulated.

In order to prevent environmental pollution of the atmosphere and the like due to the occurrence of odor, and to prevent damage from odor or VOC substances that may cause various diseases to the human body, the need for odor management is increasing. It is necessary to accurately monitor and trace the source of odor.

Due to this need, various sensors are used, for example, sensors that measure H ₂ S, MM, NH ₃ , and VOCs, respectively. Therefore, when monitoring for air pollution, it can be configured to measure various substances contained in the atmosphere by a sensor. On the other hand, in order to confirm that such a sensor is operating properly, a test is performed. As a technology related to the test device of such a sensor, "Sensor Test Device" of Korean Patent Publication No. 10-2010-0045643 has been proposed, which A sensor test device for testing a sensor reacting to a gas, comprising: a sensor mounting unit for mounting the sensor; A reaction gas supply unit including a plurality of gas storage tanks in which reaction gases reacted by the sensors are stored and connected in parallel to each other; A delivery gas supply unit supplying a delivery gas having no reactivity with the sensor; A mass flow controller connected to the reaction gas supply unit and the transfer gas supply unit to control the mass flow rate of the reaction gas and the transfer gas supplied to the sensor through the sensor mounting unit; And a controller configured to continuously supply reaction gas from other gas storage tanks in the gas storage tank when the remaining amount of gas in the gas storage tank supplying the reaction gas among the gas storage tanks is exhausted below a certain level while the reaction gas is supplied. Including, during the test of the sensor, the delivery gas is continuously supplied, and the reaction gas is supplied at a constant cycle.

However, such a conventional technique has a problem in that it is difficult to provide a structure for stably diluting the analyte to the atmosphere and providing it to the sensor stably, thereby increasing reliability with convenience of test operation.

In order to solve the problems of the prior art as described above, the present invention is to dilute the analyte in an odorless atmosphere at a desired rate and store it in a sampling bag, so that the analyte diluted in the atmosphere from the sampling bag is stably applied to the sensor. The purpose is to increase the convenience and reliability of the sensor by being supplied.

Other objects of the present invention will be easily understood through the description of the following examples.

In order to achieve the above object, according to an aspect of the present invention, the atmosphere is filtered by the filter, the atmospheric supply unit to be supplied at a flow rate determined by the first MFC through indirect suction in an odorless state; Each of the different analytes to be analyzed is selectively supplied to the atmosphere supplied by the atmospheric supply by opening and closing of the on-off valves, and the supplied analyte to be supplied is supplied by the atmospheric supply at a flow rate determined by the second MFC. Diluent sample to be diluted in; A sampling bag to fill the atmosphere in which the substance to be analyzed is diluted from the air supply unit and the sample dilution unit; A sample supply unit configured to supply an atmosphere diluted with the analyte to be filled from the sampling bag for sensor test; And a measuring device that receives an atmosphere diluted with the analyte to be supplied by the sample supply unit and performs a test of the sensor through analysis on the analyte.

The air supply unit, an air supply line is connected to supply air to the sampling bag, a filter for filtering odor substances from the air is installed on the air supply line, and the air for the air supplied on the air supply line is installed. A heat sensor and a temperature sensor are installed to measure heat and temperature, respectively, and an inflow line connected to supply air to the sample dilution unit is provided, and a supply control module for controlling supply of air to the inflow line may be installed. .

In the sample dilution unit, a dilution line is connected to supply the analyte to the atmospheric supply unit, a plurality of unit material supply units for supplying each of the analyte materials to the end of the dilution line are connected, and from the unit material supply unit A plurality of pressure sensors are installed to measure the supply pressure of each of the analyzed substances to be supplied, and the plurality of on-off valves are installed to open and close the supply to each of the unit material supply parts, and the plurality of on-off valves in the dilution line The second MFC is installed at a portion where A is joined, and a dilution valve may be installed to open and close the dilution of the substance to be analyzed with respect to the atmosphere at the connection portion of the dilution line and the air supply.

In the sample dilution unit, a dilution line is connected to supply the analyte to the atmospheric supply unit, and a plurality of connectors are provided at the end of the dilution line to connect a plurality of canisters for supplying each analyte. A plurality of pressure sensors are installed to measure the supply pressure of each analyte to be supplied from the canister, and the plurality of on-off valves are installed to open and close the supply to each of the canisters, and the plurality of opening and closing in the dilution line The second MFC may be installed at a portion where the valve is joined, and a dilution valve may be installed to open and close the dilution of the substance to be analyzed with respect to the atmosphere at a connection portion between the dilution line and the air supply.

The sample supply unit is connected to a sample supply line to receive an atmosphere in which the substance to be analyzed is diluted from the sampling bag side to the measurement equipment, and discharges for discharging the atmosphere in which the substance to be analyzed is diluted from the sample supply line side. An additional connection is made, and a supply valve is installed to open and close the supply of the atmosphere in which the analyte to be analyzed is diluted to the sample supply line, and the discharge unit is configured to discharge the atmosphere in which the analyte to be analyzed is diluted from the sample supply line side. A discharge line is connected, and a vacuum pump is installed in the discharge line to provide suction power for discharging the atmosphere to which the analyte is diluted, and the discharge line is opened and closed to open and close the discharge of the diluted analyte. A discharge valve can be installed.

According to the sensor test apparatus according to the present invention, by diluting the analyte in an odorless atmosphere at a desired rate and storing it in a sampling bag, the analyte diluted in the atmosphere is supplied to the sensor stably from the sampling bag, thereby allowing the sensor to It has the effect of increasing convenience and reliability for testing.

1 is a configuration diagram showing a sensor module test apparatus according to a first embodiment of the present invention.
2 is a configuration diagram showing a sensor monitoring system test apparatus according to a second embodiment of the present invention.

The present invention can be variously changed, and may have various embodiments, and specific embodiments will be illustrated in the drawings and described in detail. However, this is not intended to limit the present invention to specific embodiments, and should be understood as including all modifications, equivalents, and substitutes included in the technical spirit and scope of the present invention, and to be modified in various other forms. May be, the scope of the present invention is not limited to the following examples.

Hereinafter, exemplary embodiments according to the present invention will be described in detail with reference to the accompanying drawings, and the same reference numerals will be assigned to the same or corresponding components regardless of reference numerals, and redundant description thereof will be omitted.

1 is a configuration diagram showing a sensor module test apparatus according to a first embodiment of the present invention.

Referring to FIG. 1, the sensor module test apparatus 100 according to an embodiment of the present invention includes an air supply unit 110, a sample dilution unit 120, a sampling bag 130, a sample supply unit 140, and measurement equipment ( 150).

The atmospheric supply unit 110 allows the atmosphere to be filtered by the filter 112 and supplied at a flow rate determined by the first mass flow controller (MFC) 113 through indirect suction in an odorless state. The atmospheric supply unit 110 may allow the outside of the sampling bag to be decompressed and restored to atmospheric pressure by actively using the pumping force of the pump to supply air, for example, to be introduced by indirect suction.

The air supply unit 110 may be connected to the air supply line 111 to supply air to the sampling bag 130, and a filter 112 for filtering malodorous substances from the air may be installed on the air supply line 111. The heat sensor 114 and the temperature sensor 115 may be installed to measure heat and temperature of the air supplied to the air supply line 111, respectively, and supply air to the sample dilution unit 120. By doing so, an inflow line 116 connected to be able to perform cleaning or the like may be provided, and a supply control module 117 for controlling supply of air to the inflow line 116 may be installed. Here, the supply control module 117 may be configured with, for example, a valve.

The sample dilution unit 120 selectively supplies each of the different analytes to be supplied to the atmosphere supplied by the atmospheric supply unit 110 by the opening and closing of each of the on-off valves 127, and supplies the analyte to be supplied to the second MFC 125 ) To be diluted in the air supplied by the air supply unit 110 at a flow rate determined by.

The sample dilution unit 120 may be connected to the dilution line 121 to supply the analyte to the atmospheric supply 110, and a unit material supply unit 122,123,124 for supplying each of the analytes to the end of the dilution line 121 ) May be connected in a number, the pressure sensor 126 may be installed in a number to measure the supply pressure of each of the analytes to be supplied from the unit material supply unit (122,123,124), supply for each of the unit material supply unit (122,123,124) A plurality of on-off valves 127 may be installed to open and close, and a second MFC 125 may be installed at a portion where a plurality of on-off valves 127 join in the dilution line 121, and the dilution line ( 121) and a dilution valve 128 may be installed to open and close the dilution of the substance to be analyzed with respect to the atmosphere at the connection portion of the atmospheric supply unit 110. Here, the unit material supply unit (122,123,124) may be configured to supply the material to be analyzed by the compressed pressure of its own from the storage container of the material to be analyzed, or by using a separate pump or the like. In addition, the material to be analyzed supplied by the unit material supply unit (122,123,124) may include various other materials, including isobutylene, NH ₃ , H ₂ S, MM, VOCs.

The sampling bag 130 allows the atmosphere to be diluted with the material to be analyzed from the air supply unit 110 and the sample dilution unit 120 to be filled, for example, may have various capacities such as 5 liters or 10 liters, and the polyester bag ( It can be made of chemical resistant materials such as Polyester bag or Tedlar bag.

The sample supply unit 140 may supply an atmosphere diluted with the analyte to be filled from the sampling bag 130 for sensor test.

The sample supply unit 140 may be connected to the sample supply line 141 so as to receive the atmosphere in which the substance to be analyzed is diluted from the sampling bag 130 side to the measurement equipment 150, and the analysis target from the sample supply line 141 side A discharge unit 160 for discharging the atmosphere in which the substance is diluted may be connected, and a supply valve 142 may be installed in the sample supply line 141 to open and close the supply of the atmosphere in which the substance to be analyzed is diluted.

The discharge unit 160 may be connected to the discharge line 161 so that the atmosphere in which the substance to be analyzed is diluted is discharged from the sample supply line 141 side, and the discharge line 161 is discharged from the atmosphere in which the substance to be analyzed is diluted. A vacuum pump 162 may be installed to provide suction power for the discharge, and a discharge valve 163 may be installed in the discharge line 161 to open and close the discharge of the atmosphere in which the substance to be analyzed is diluted.

The measurement equipment 150 receives the atmosphere to which the analyte to be analyzed supplied by the sample supply unit 140 is diluted, and performs a sensor test through analysis of the analyte. The measurement equipment 150 may be provided with a vacuum pump 151 so as to provide a pumping force for receiving an atmosphere in which a substance to be analyzed is diluted through, for example, a sample supply unit 140, at the front end of the vacuum pump 151. At least one sensor may be installed, and a sensor room 152 in which an atmosphere to be analyzed is diluted is supplied. As a sensor provided in the sensor room 152, for example, isobutylene, NH ₃ , H ₂ S, MM, and VOCs can be measured, and in addition to measuring various substances contained in the atmosphere, Various sensors that require testing may be applicable.

2 is a configuration diagram showing a sensor monitoring system test apparatus according to a second embodiment of the present invention.

Referring to FIG. 2, the sensor test apparatus 200 according to an embodiment of the present invention includes an air supply unit 210, a sample dilution unit 220, a sampling bag 230, a sample supply unit 240, and measurement equipment 250 ) May be included, but the configuration of the same name in the sensor test apparatus 100 according to the first embodiment of the present invention is the same for each of these configurations, and therefore, description will be mainly focused on different contents.

The air supply unit 210 may be connected to the air supply line 211 to supply an odorless air to the sampling bag 230, as in the previous embodiment, and to filter odorous substances from the air on the air supply line 211. A filter 212 may be installed, and a heat sensor 214 and a temperature sensor 215 may be installed to measure heat and temperature for air supplied to the air supply line 211, respectively, and a sample dilution unit is provided. An inflow line 216 connected to supply air to the 220 side may be provided, and a supply control module 217 for controlling supply of air may be installed in the inflow line 216. Here, the supply control module 217 may be a restrictor that restricts the flow of fluid.

The sample dilution unit 220 may be connected to the dilution line 221 to supply the analyte to the atmospheric supply 210, and canisters (222,223,224) for supplying each of the analytes to the end of the dilution line 221 ) May be provided in a number of connectors (222a, 223a, 224a) to be connected to a number, a plurality of pressure sensors 226 to be installed to measure the supply pressure of each analyte supplied from the canisters (222,223,224) A plurality of on/off valves 227 may be installed to open and close the supply to each of the canisters 222, 223, and 224, and the second MFC ( 225) may be installed, and a dilution valve 228 may be installed to open and close the dilution of the substance to be analyzed for the atmosphere at the connection portion between the dilution line 221 and the air supply unit 210. Here, the connectors 222a, 223a, and 224a may have, for example, a screw coupling structure so that the canisters 222,223,224 are detachably coupled. In addition, as an analysis target material supplied by the canisters 222, 223, and 224, various other materials may be included, including isobutylene, NH ₃ , H ₂ S, MM, and VOCs.

The sample supply unit 240 may be connected to the sample supply line 241 to receive an atmosphere in which the substance to be analyzed is diluted from the sampling bag 230 side to the measurement equipment 250, and the analysis target from the sample supply line 241 side A discharge unit 260 for discharging the atmosphere in which the substance is diluted may be connected, and a supply valve 242 may be installed in the sample supply line 241 to open and close the supply of the atmosphere in which the substance to be analyzed is diluted.

The discharge unit 260 may be connected to the discharge line 261 so that the atmosphere in which the substance to be analyzed is diluted is discharged from the sample supply line 241 side, and discharges the atmosphere in which the substance to be analyzed is diluted to the discharge line 261. A vacuum pump 262 may be installed to provide suction power for the discharge, and a discharge valve 263 may be installed in the discharge line 261 to open and close the discharge of the atmosphere in which the substance to be analyzed is diluted. In addition, the discharge unit 260 is to open and close the flow to the suction line 264 and the suction line 264 connected to the sample dilution unit 220 for cleaning, etc. for the sample dilution unit 220 as in this embodiment. So suction valve 265 may be installed.

According to the sensor test apparatus according to the present invention, by diluting the analyte in an odorless atmosphere at a desired rate and storing it in a sampling bag, the analyte diluted in the odorless atmosphere from the sampling bag is stably supplied to the sensor. , It can increase the convenience and reliability for testing the sensor.

Although the present invention has been described with reference to the accompanying drawings, various modifications and variations can be made without departing from the technical spirit of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the claims described below, but also by the claims and equivalents.

110,210: Air supply unit 111,211: Air supply line
112,212: Filter 113,213: 1st MFC
114,214: Heat sensor 115,215: Temperature sensor
116,216: Inflow line 117,217: Supply control module
120,220: Sample dilution 121,221: Dilution line
122,123,124: Unit material supply unit 125,225: Second MFC
126,226: Pressure sensor 127,227: Open/close valve
128,228: Dilution valve 130,230: Sampling bag
140,240: Sample supply unit 141,241: Sample supply line
142,242: Supply valve 150,250: Measuring equipment
151: vacuum pump 152: sensor room
160,260: Discharge section 161,261: Discharge line
162,262: Vacuum pump 163,263: Discharge valve
222,223,224: Canister 222a,223a,224a: Connector
264: suction line 265: suction valve

Claims (5)

Atmospheric supply unit that allows the atmosphere is filtered by the filter to be supplied at a flow rate determined by the first MFC through indirect suction in an odorless state;
Each of the different analytes to be analyzed is selectively supplied to the atmosphere supplied by the atmospheric supply by opening and closing of the on-off valves, and the supplied analyte to be supplied is supplied by the atmospheric supply at a flow rate determined by the second MFC. Diluent sample to be diluted in;
A sampling bag to fill the atmosphere in which the substance to be analyzed is diluted from the air supply unit and the sample dilution unit;
A sample supply unit configured to supply an atmosphere diluted with the analyte to be filled from the sampling bag for sensor test; And
A measurement device that receives an atmosphere in which the analyte to be analyzed supplied by the sample supply unit is diluted and performs a sensor test through analysis of the analyte;
Including,
The atmospheric supply unit,
An air supply line is connected to supply air to the sampling bag, a filter for filtering malodorous substances from the air is installed on the air supply line, and heat and temperature for the air supplied to the air supply line are respectively measured. A heat sensor and a temperature sensor are installed so that an inflow line is connected to supply air to the sample dilution side, and a supply control module is installed to control the supply of air to the inflow line,
The sample supply unit,
A sample supply line is connected to the atmosphere to which the analyte to be analyzed is diluted from the sampling bag side, and an outlet for discharging the atmosphere to which the analyte is diluted is connected from the sample supply line side, and the A supply valve is installed in the sample supply line to open and close the supply of the atmosphere to which the substance to be analyzed is diluted,
The discharge unit,
A discharge line is connected to discharge the atmosphere in which the substance to be analyzed is diluted from the sample supply line side, and a vacuum pump is installed in the discharge line to provide suction power for discharge of the atmosphere in which the substance to be analyzed is diluted, and the A sensor test device in which a discharge valve is installed to open and close the discharge of the atmosphere in which the substance to be analyzed is diluted in the discharge line. delete The method according to claim 1,
The sample dilution unit,
A dilution line is connected to supply the analyte to the atmospheric supply, and a plurality of unit material supply units for supplying each of the analyte materials to the ends of the dilution line are connected, and the analyte material supplied from the unit material supply unit A plurality of pressure sensors are installed to measure each supply pressure, and the plurality of on-off valves are installed to open and close the supply to each of the unit material supply parts, and in the dilution line, the plurality of on-off valves are joined. The second MFC is installed, a sensor test device, the dilution valve is installed to open and close the dilution of the substance to be analyzed with respect to the atmosphere on the connection portion of the dilution line and the atmospheric supply. The method according to claim 1,
The sample dilution unit,
A dilution line is connected to supply the analyte to the air supply unit, and a plurality of connectors are provided at the end of the dilution line to connect a plurality of canisters for supplying each analyte, and supplied from the canister A plurality of pressure sensors are installed to measure the supply pressure of each substance to be analyzed, a plurality of the on-off valves are installed to open and close the supply to each of the canisters, and a portion where the plurality of on-off valves are joined in the dilution line In the second MFC is installed, the dilution valve is installed to open and close the dilution of the substance to be analyzed with respect to the atmosphere at the connection portion of the dilution line and the atmospheric supply, sensor test device. delete

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