KR101196747B1 - Accuracy verifying system of harmful gas measurement sensor - Google Patents

Abstract

The present invention relates to a system for verifying the accuracy of a noxious gas measuring sensor installed indoors for monitoring the noxious gas in a building, such as a archives or a museum, which is provided with a measuring sensor for measuring the concentration of noxious gas. A meter body; A transmission module connected to the main body of the measuring device and transmitting concentration data of the measured harmful gas; A receiving module for receiving harmful gas concentration data transmitted from the transmitting module; An analysis / storage device for analyzing the noxious gas concentration data received by the receiving module and storing the analysis result data; A dilution apparatus for mixing the standard gas and the zero gas to make a dilution gas; Is composed of the above-described diluter to make parallel and receiving the diluting gas inlet and the inlet where by the direction, of the hollow provided that the incoming dilution gas is discharged discharge sensor cap, comprising: a, the measurement sensor measures The present invention relates to an accuracy verification system of a noxious gas measuring sensor located at an outlet of a sensor cap to measure a standard gas concentration in a diluent gas.
In addition, the accuracy verification system of the noxious gas measuring sensor according to the present invention more accurately measures the standard gas concentration in the diluent gas supplied to the inlet of the measuring cap by the measuring sensor provided in the main body of the measuring instrument more accurately to ensure the accuracy of the noxious gas measuring sensor. It is effective to know.

Description

Accuracy verifying system of harmful gas measurement sensor

The present invention relates to a system for verifying the accuracy of a noxious gas measuring sensor installed indoors to constantly monitor the noxious gas in a building such as a archive or a museum. Transmission / reception module for transmitting / receiving data, analysis / storage device for analyzing harmful gas concentration data and storing analysis result data, dilution device for mixing standard gas and zero gas, measuring sensor located in the hollow by receiving dilution gas It is a field related to the accuracy verification system of the harmful gas measurement sensor including a measurement sensor cap exposed to the exposure.

In modern buildings such as archives or museums, a system that continuously checks and manages the number of harmful factors in the building is applied in order to safely preserve various records or artifacts that are being preserved in the building from harmful factors. Representatively, the state of preservation depends on the influence of harmful factors (hereinafter referred to as 'harmful gas') such as humidity, temperature, and various harmful gases in the room where the records or relics are stored. By installing a number of measuring sensors in the room that can measure various types of harmful gases using the network, and collecting the concentration of harmful gases continuously measured by the measuring sensors in the analysis and storage device, the manager can monitor them. Once the gas has been measured to damage the records or artifacts, a system has been established that allows the manager to remove the noxious gas using a noxious gas removal measure.

In addition, for the smooth operation of the hazardous gas management system as described above, the measurement sensor must first accurately measure the concentration of harmful gas present in the room, and in order to accurately measure the harmful gas by the measurement sensor, the accuracy of the measurement sensor is regularly checked. A system of verification is required. In other words, the accuracy verification system of the measurement sensor is to verify whether the manager can measure the concentration of the injected gas with a minimum error by injecting a certain concentration of gas having the same components as the noxious gas into the measurement sensor. In general, a standard gas (gas with the same composition as a harmful gas) having a certain concentration is flowed around the sensor, and then the system compares the concentration of the standard gas measured by the sensor with the natural concentration of the standard gas. In order to more accurately measure the concentration of the standard gas, as shown in FIG. 1, the measuring sensor is introduced into a chamber having a predetermined internal volume, and then the standard gas is introduced into the chamber so that the measuring sensor measures the concentration of the standard gas. The system was used to compare the measured standard gas concentration with that of the standard gas. However, the above-described harmful gas measurement sensor accuracy verification system has a problem that the standard gas of a certain concentration cannot be injected into the measurement sensor at the correct concentration. There is a fear that the error between the concentrations of can occur largely, research and development to solve this problem is constantly required.

The present invention has been made in order to improve the problems according to the prior art regarding the accuracy verification system of the harmful gas measurement sensor, the accuracy verification system of the conventional harmful gas measurement sensor is connected to the main body of the measuring apparatus installed in each of the plurality of measurement sensors installed in the room After covering the hollow chamber with standard gas inlet and outlet and having a certain internal volume, the standard gas introduced into the chamber is measured because the concentration of standard gas is measured by introducing standard gas with a certain concentration into the inlet. The main purpose is to provide a solution to this problem by convection in the dead space of the chamber having a standard gas concentration is not accurately measured.

The present invention is to realize the desired object as described above,

A measuring unit body having a measuring sensor measuring a concentration of harmful gas; A transmission module connected to the main body of the measuring device and transmitting concentration data of the measured harmful gas; A receiving module for receiving harmful gas concentration data transmitted from the transmitting module; An analysis / storage device for analyzing the noxious gas concentration data received by the receiving module and storing the analysis result data; A dilution apparatus for mixing the standard gas and the zero gas to make a dilution gas; And a hollow measuring sensor cap having a discharge port through which the dilution gas made by the dilution device is supplied and parallel to the inlet port, and having a discharge port through which the dilution gas is discharged. We present a verification system for the accuracy of hazardous gas measuring sensors located at the outlet of the sensor cap to measure the standard gas concentration in the diluent gas.

The accuracy verification system of the noxious gas measuring sensor according to the present invention presented as described above is an accuracy verification system of the noxious gas measuring sensor including a measuring body, a transmitting module, a receiving module, an analysis / storage device, a dilution device, and a measuring sensor cap. By providing a measurement sensor provided in the main body of the measuring instrument has the effect to more accurately measure the standard gas concentration in the diluent gas supplied to the inlet of the measuring sensor cap to accurately know the accuracy of the harmful gas measuring sensor.

1 is a block diagram showing an accuracy verification system of a harmful gas measurement sensor according to the prior art.
Figure 2 is a block diagram showing the accuracy verification system of the harmful gas measurement sensor according to a preferred embodiment of the present invention.
Figure 3 is a block diagram showing the accuracy verification system of the harmful gas measurement sensor according to a preferred embodiment of the present invention (when the flow control device is configured).
Figure 4 is a block diagram showing the accuracy verification system of the harmful gas measuring sensor according to a preferred embodiment of the present invention (when the measuring sensor cap is configured in the bell shape).

The present invention relates to a system for verifying the accuracy of the noxious gas measurement sensor 30 installed indoors to constantly monitor the noxious gas in buildings such as archives or museums, the measurement sensor for measuring the concentration of noxious gas Meter body 40 is provided with 30; A transmission module 50 connected to the measuring body 40 to transmit concentration data of the measured harmful gas; A receiving module 60 for receiving harmful gas concentration data transmitted from the transmitting module 50; An analysis / storage device 70 for analyzing the noxious gas concentration data received by the reception module 60 and storing the analysis result data; A dilution apparatus 10 for mixing a standard gas and a zero gas to make a dilution gas; Hollow measuring sensor having a inlet port 21 receiving the dilution gas made by the dilution device 10 and a direction parallel to the inlet port 21, and having an outlet port 22 through which the inlet dilution gas is discharged. And a cap 20; and the measuring sensor 30 is located at the outlet 22 of the measuring sensor cap 20 to determine the accuracy of the harmful gas measuring sensor for measuring the concentration of the standard gas in the dilution gas. It is about.

Hereinafter, the present invention will be described in detail with reference to FIGS. 1 to 4 showing embodiments of the present invention.

First, the accuracy verification system of the conventional noxious gas measuring sensor is connected to the measuring body 40 as shown in FIG. 1 and the standard gas inlet 21 'and the outlet 22' are provided in each of the plurality of measuring sensors 30 'installed indoors. After covering the hollow chamber 20 'having a predetermined wide internal volume, a standard gas having a predetermined concentration is introduced into the inlet 21' so that the measuring sensor 30 'is drawn into the chamber 20'. The concentration of the standard gas is measured, and the concentration data of the standard gas measured by the measuring sensor 30 'is transferred to the analysis / storage device 70' through the transmitting module 50 'and the receiving module 60'. The provided configuration was made. However, the accuracy verification system of the harmful gas measurement sensor is a standard gas introduced into the chamber 20 'convection in the dead space inside the chamber 20' can not accurately measure the concentration of the standard gas A problem occurred.

On the contrary, the present invention includes a measuring body 40, a transmitting module 50, a receiving module 60, an analysis / storage device 70, a dilution device 10, and a measuring sensor cap 20. Providing an accuracy verification system of the harmful gas measuring sensor, the measurement sensor 30 provided in the measuring instrument body 40 more accurately measures the concentration of the standard gas in the dilution gas supplied to the inlet 21 of the measuring sensor cap 20. By measuring the effect of reliably know the accuracy of the harmful gas measurement sensor 30.

Specifically, the measuring body 40, the transmitting module 50, the receiving module 60 and the analysis and storage device 70 is a configuration for monitoring the harmful gas in the building, such as archives or museums at all times. , The main body of the measuring device 40 is connected to the measuring sensor 30 which is a device that detects the concentration of the harmful gas to be measured and converts it into an electric, mechanical or optical signal, and the like, and the harmful gas measured by the measuring sensor 30. It is a configuration for generating concentration data indicating the degree of concentration. In this case, the measuring body 40 may be configured to be connected to each of the plurality of measuring sensors 30 one by one, and may be configured to connect the plurality of measuring sensors 30 to one measuring body 40. .

In addition, the transmission module 50 which is connected to the measuring body 40 and transmits the measured harmful gas concentration data and the receiving module 60 which receives the harmful gas concentration data transmitted from the transmitting module 50 is the measuring body 40 The harmful gas concentration in the room where the measuring sensor 30 is installed using the harmful gas concentration data generated by As a configuration for receiving, wired communication and wireless communication methods, which are general communication methods for data transmission / reception, may be variously applied according to the judgment of those skilled in the art.

In addition, the analysis and storage device 70 analyzes whether or not the measured harmful gas concentration meets the criteria for the harmful gas by dividing the concentration data received from the receiving module 60 by the harmful gas using micro software. The result data can be delivered to the administrator through a user interface (UI) and can be configured in various ways according to the judgment of those skilled in the art as a configuration for performing a function of storing the analysis result data.

In connection with the above, the dilution device 10 of the accuracy verification system of the harmful gas measurement sensor according to the present invention is a standard gas (eg, CO ₂₎ of the same component as the harmful gas to be measured as shown in FIGS. Concentration: 20ppm) Mixing a certain amount of zero gas (for example, zero gas) composed of a certain amount and a gas not containing the main component (CO ₂ ) of the standard gas, to make a dilution gas in which standard gases of various concentrations are diluted. As a constitution, the standard gas of the same component as the noxious gas is diluted to various concentrations according to the intention of the manager who performs the verification of the accuracy of the noxious gas measuring sensor 30 or the indoor environment management regulations (for example, 2 ppm, 4 ppm, 6 ppm, 8ppm, 10ppm ... etc.), the effect can be collectively verified using a standard gas of various concentrations, and can be supplied by constantly adjusting the amount of standard gas and zero gas mixed with diluent gas For example, any type of configuration may be used as long as it is capable of inducing proper mixing of standard gas and zero gas.

In addition, the hollow measurement having a discharge port 22 is formed in a direction parallel to the inlet port 21 and the inlet port 21 receiving the dilution gas produced by the dilution device 10, the discharged dilution gas is discharged The sensor cap 20 allows the measurement sensor 30 to be positioned at the outlet 22 so that the accuracy verification system of the harmful gas measurement sensor according to the prior art includes a standard gas supplied around the measurement sensor 30 '. It solves the problem that the gas is convection at a long distance from the measuring sensor 30 'and cannot accurately measure the concentration of the standard gas supplied to the measuring sensor 30', and there is almost no dead space compared to the chamber method. Therefore, the measuring sensor 30 exhibits the effect of accurately measuring the concentration of the standard gas contained in the diluent gas. At this time, the outlet 22 is configured in a direction parallel to the inlet port 21 to receive the dilution gas from the dilution device 10 is a measuring sensor in which the dilution gas supplied to the hollow from the inlet port 21 is located in the outlet port 22 By making it possible to directly contact 30, the measuring sensor 30 exhibits the effect of more accurately measuring the standard gas concentration in the diluent gas. In addition, the present invention is located in the outlet 22 in the direction perpendicular to the inlet port 21 of the sensor surface 31 of the measuring sensor 30 is located in the outlet 22 of the measuring sensor cap 20 to the standard gas By mixing the mixed dilution gas is injected perpendicular to the sensor surface 31, it is possible to obtain the effect of more accurately measuring the standard gas concentration in the dilution gas recognized through the sensor surface 31.

In connection with the above, the present invention is configured by measuring the sensor cap 20 in the form of a hollow bell shape of the inlet 21 side narrow, the outlet 22 side wide as shown in Figure 4, the measurement sensor cap 20 ), The dilution gas supplied to the inlet 21 is reduced to the inside of the sensor surface 31 of the measuring sensor 30 at the outlet 22 of the measuring sensor cap 20 (of the measuring sensor 30). It can be placed on the top or side) can be effectively injected ().

In addition, the present invention can be configured to further include a flow regulating device 80 between the dilution device 10 and the measuring sensor cap 20, the dilution gas produced by the dilution device 10 is a flow control device ( 80 is supplied to the inlet 21 of the measurement sensor cap 20 by adjusting the flow rate by the flow control device 80, the dilution supplied from the dilution apparatus 10 to the measurement sensor cap 20 By constantly adjusting the flow rate of the gas, the dilution gas can be stably supplied to the sensor surface 31 of the measuring sensor 30 located in the inside (hollow hole) of the measuring sensor cap 20 without changing the flow rate. Thus, it is possible to obtain an effect of more accurately measuring the concentration of the standard gas measured by the measuring sensor 30.

The above has been described with reference to a preferred embodiment of the present invention, but is not limited to the above embodiment, the person having ordinary skill in the art to which the present invention pertains through the above embodiments without departing from the gist of the present invention Can be implemented in a variety of changes.

10: dilution device 20: measuring sensor cap
20 ': chamber 21: inlet
22: outlet 30: measuring sensor
31: sensor surface 40: measuring instrument body
50: transmitting module 60: receiving module
70: analysis and storage device 80: flow control device

Claims (4)

A measuring body 40 provided with a measuring sensor 30 measuring a concentration of harmful gas;
A transmission module 50 connected to the measuring body 40 to transmit concentration data of the measured harmful gas;
A receiving module 60 for receiving harmful gas concentration data transmitted from the transmitting module 50;
An analysis / storage device 70 for analyzing the noxious gas concentration data received by the reception module 60 and storing the analysis result data;
A dilution apparatus 10 for mixing a standard gas and a zero gas to make a dilution gas;
Hollow measuring sensor having a inlet port 21 receiving the dilution gas made by the dilution device 10 and a direction parallel to the inlet port 21, and having an outlet port 22 through which the inlet dilution gas is discharged. A cap 20; configured to include,
The measuring sensor 30 is located in the outlet 22 of the measuring sensor cap 20 to measure the accuracy of the standard gas concentration in the diluent gas, the accuracy verification system of the harmful gas measuring sensor.
The method of claim 1,
Between the dilution device 10 and the measuring sensor cap 20 is further included a flow control device 80, the dilution gas produced by the dilution device 10 is supplied to the flow control device 80, the flow control Flow rate control by the device 80 is the accuracy verification system of the noxious gas measuring sensor, characterized in that supplied to the inlet 21 of the measuring sensor cap (20).
The method according to claim 1 or 2,
The measuring sensor cap 20,
The inlet (21) side is narrow, the outlet 22 side is wide, the longitudinal type of the hollow (鐘), characterized in that the accuracy verification system of the harmful gas measurement sensor.
The method of claim 1,
The measuring sensor 30,
The sensor surface 31 of the measuring sensor 30 is located in the outlet 22 in a direction perpendicular to the inlet 21 so that the dilution gas mixed with the standard gas is injected vertically into the sensor surface 31. Accuracy Verification System of Hazardous Gas Measuring Sensor.

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