KR20220108438A - System for the selective output of warning signal through detection of toxic gas - Google Patents

Abstract

The present invention relates to an optional warning signal output system through harmful gas detection. Disclosed is a technical idea, which includes: a detecting unit which detects harmful gases in indoor air and detects potential values of the harmful gases in real time; a managing unit which collects and stores the potential values of the detected harmful gases in a server and selectively analyzes the potential values of the harmful gases; and a warning signal unit which outputs a predetermined warning signal when the potential values of the harmful gases increases more than a preset default value.

Description

System for the selective output of warning signal through detection of toxic gas

The present invention relates to a system for selectively outputting a warning signal through detection of harmful gas. In more detail, in order to prevent gas leakage and gas explosion accidents caused by frequent safety accidents and harmful gases that occur frequently in industrial sites, and to perform safe work, it detects harmful gases contained in the air of industrial sites, It is a technical field related to a system for outputting caution and warning signals to workers in an industrial field when the concentration of a hazardous gas to be detected exceeds a standard value.

The gas sensor means a device that detects a gas of a specific component contained in a gas, converts the concentration into an electrical signal, and outputs the detected gas. Gas sensors are mainly used to sense toxic or harmful gases produced, stored, transported, used, and discarded in industrial sites.

The gas sensor may be largely classified into an electrochemical gas sensor, a catalytic combustion gas sensor, a semiconductor gas sensor, an optical gas sensor, and the like according to a gas detection method.

Among them, the electrochemical gas sensor is a sensor that detects the change in the current value generated by the oxidation-reduction reaction between the anode and the cathode in the electrolyte. It consists of a counter electrode that takes place and a reference electrode that senses the potential that changes with the redox reaction and keeps the potential constant. The electrochemical gas sensor is divided into a galvanic cell method and a potentiostatic electrolysis method according to the operating principle.

As an example of a related prior patent document, "noxious gas detection device and its method (Registration No. 10-1749734, hereinafter referred to as Patent Document 1)" exists.

In the case of the invention according to Patent Document 1, a harmful gas detection device and method capable of photographing the color of a dye that changes color in response to the harmful gas and detecting whether the harmful gas is leaked based on the photographed image are disclosed. . The harmful gas detection device calculates the concentration of harmful gas based on the harmful gas detection dye that changes color according to the harmful gas, the image sensor that generates color data by photographing the harmful gas detection dye, and the color data provided by the image sensor and a main control unit for alarm processing based on the calculated concentration and the preset allowable concentration.

As another example of a patent document, there is a “closed space gas detection system (registration number 10-2077038, hereinafter referred to as patent document 2)”.

In the case of the invention according to Patent Document 2, by continuously detecting harmful gas generated inside the enclosed space to monitor the enclosed space, and transmitting an appropriate alarm signal to the operator and the situation room according to the detected harmful gas, suffocation or suffocation caused by harmful gas It relates to a confined space gas detection system that can prevent accidents such as explosions.

As another example of the patent document, there is a “toxic gas monitoring system using a mobile communication terminal (Registration No. 10-1695596, hereinafter referred to as Patent Document 3)”.

In the case of the invention according to Patent Document 3, a plurality of semiconductor gas sensors are used to detect harmful gases that exist indoors or outdoors in real time, and by analyzing them, the concentration data for each type of harmful gas of each semiconductor gas sensor is calculated by wire or wireless. Through a portable harmful gas detection device transmitted to the It includes a mobile communication terminal for controlling the conversion of the concentration data for each type into a numerical value to be displayed on the display screen.

As an example of another patent document, there is a gas detection alarm system (Registration No. 10-1922727, hereinafter referred to as Patent Document 4)”.

In the case of the invention according to Patent Document 4, a gas detection terminal for detecting harmful gas at a work site and outputting a harmful gas detection value and a warning signal corresponding thereto. The gas detection terminal includes a sensor unit, an imaging camera, and an LED module. and a speaker, a data storage unit, an arithmetic control unit, an RFID module, a location information acquisition module, and a wireless communication unit, wherein the sensor unit is composed of a harmful gas sensor and an oxygen sensor, and the imaging camera is used for the switching operation of the operator. Take a scene image according to it, but the site image is an image of a site where there is a gas leak or a gas leak is suspected. A warning sound corresponding to the human danger level signal of the concentration of harmful gas is output, the data storage unit stores the standard range value of the risk level for each harmful gas and the reference range value of the oxygen deficiency risk level, and the operation and control unit stores the risk level standard stored in the data storage unit It receives the range value and the detected harmful gas detection value, and outputs the human danger level signal corresponding to the harmful gas detection value detected from the danger level reference range value to the LED module and speaker, and the RFID module is The RFID information installed in the meter may be acquired, the location information acquisition module may acquire location data of the gas detection terminal, and the wireless communication unit may transmit/receive signals and data to/from the grouped gas detection terminal and the management center.

Registration No. 10-1749734 Registration No. 10-2077038 Registration No. 10-1695596 Registration No. 10-1922727

The selective warning signal output system through the detection of harmful gas according to the present invention has been devised to solve the conventional problems as described above, and presents the following problems.

First, it is intended to detect hazardous gases exposed in industrial sites in real time.

Second, it is intended to selectively detect a case in which harmful gas in the indoor air of an industrial site increases than the permitted standard.

Third, it is intended to selectively output a warning signal as the harmful gas increases than the permitted standard for a predetermined time.

The problems to be solved of the present invention are not limited to those mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

The selective warning signal output system through the detection of harmful gas according to the present invention has the following problem solving means for the above problem to be solved.

A system for selectively outputting a warning signal through detection of harmful gas according to the present invention includes a detecting unit that detects harmful gas in indoor air and detects a potential value of the noxious gas in real time; a managing unit that collects the potential value of the noxious gas detected from the detecting unit, stores it in a server, and selectively analyzes the potential value of the noxious gas; and a warning signal unit for outputting a predetermined warning signal when the potential value of the harmful gas analyzed from the managing unit increases greater than a preset default value. can be done with

The detecting unit of the selective warning signal output system through the detection of harmful gas according to the present invention,

a detecting frame unit into which the harmful gas in the indoor air is introduced to form a body accommodating the harmful gas; a decreasing detecting unit provided inside the detecting frame unit to detect a decrease in the number of electrons of the harmful gas introduced into the detecting frame unit; and a potential detecting unit provided inside the detecting frame unit and configured to detect the potential value of the noxious gas according to the increase/decrease in the number of electrons of the noxious gas detected by the decrising detecting unit. can be characterized as

The detection unit of the system for selectively outputting a warning signal through the detection of harmful gas according to the present invention is provided on one side of the detecting frame part, induces a predetermined reaction to the harmful gas and flows into the detection unit It may further include a filtering unit for selectively filtering the harmful gas.

The managing unit of the system for selectively outputting a warning signal through detection of noxious gas according to the present invention includes: a gathering unit configured to collect the potential value of the noxious gas detected from the detecting unit in real time; a saving unit for storing the potential value of the harmful gas collected from the gathering unit in a server every predetermined time; a salting unit for aligning the potential value of the harmful gas stored in the saving unit according to a predetermined time or area of the indoor space; and an analyzing unit for comparing and analyzing the potential value of the harmful gas arranged from the salting unit with the preset default value.

The saving unit of the system for selectively outputting a warning signal through detection of a harmful gas according to the present invention is at least one of an average value, a maximum value, a minimum value, a median value, or a standard deviation of the potential values of each of the harmful gases according to a predetermined time It may be characterized by selectively calculating and storing one or more values.

The salting unit of the selective warning signal output system through detection of noxious gas according to the present invention selectively extracts the potential value of the noxious gas stored in the saving unit and aligns it with the potential value of the noxious gas for a unit time a time salting (time sorting) unit; and selectively extracting the potential value of the noxious gas stored in the saving unit according to a preset area in the indoor space and aligning it with the potential value of the noxious gas for a unit time in the preset area. sorting) may be characterized in that it includes a part.

The analyzing unit of the selective warning signal output system through detection of noxious gas according to the present invention, within the potential value of the noxious gas aligned from the salting unit, is greater than the preset default value of the noxious gas It may be characterized in that only the potential value is selectively extracted.

The warning signal unit of the selective warning signal output system through the detection of harmful gas according to the present invention, the potential value of the noxious gas greater than the preset default value from the analyzing unit N times consecutively for a predetermined time an attention alarm unit that outputs an attention signal when detected as ; and a risk alarm unit that outputs a risk signal when the potential value of the noxious gas greater than the preset default value from the analyzing unit is continuously detected M times for a predetermined time. can

The warning signal unit of the selective warning signal output system through detection of noxious gas according to the present invention randomly detects the potential value of the noxious gas greater than the preset default value from the analyzing unit for a predetermined time It may be characterized in that it further comprises an error alarm (error alarm) for outputting an error signal.

The saving unit of the selective warning signal output system through detection of harmful gas according to the present invention converts the potential value of the noxious gas collected from the gathering unit in bit units and lists them as a converting stream. A converting unit ; an omitting unit configured to set a predetermined section among the converted streams listed from the converting unit and selectively omit the predetermined section to generate an omitting stream; and a transmitting unit that independently transmits the o-meeting stream generated from the o-meeting unit and the converting stream in which the predetermined section is omitted to a server.

The selective warning signal output system through the detection of harmful gas according to the present invention configured as described above provides the following effects.

First, it is possible to detect harmful gases exposed at industrial sites in real time and store them in the server in real time.

Second, it is possible to align the potential values of the detected harmful gases and to compare and analyze them with a preset default value.

Third, it is possible to selectively output an attention signal or a risk signal according to the number of times that the potential value of the harmful gas is continuously increased from a preset default value.

Effects of the present invention are not limited to those mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the following description.

1 is a conceptual diagram of a system for selectively outputting a warning signal through detection of a harmful gas according to an embodiment of the present invention.
2 is a block diagram of a detection unit of a system for selectively outputting a warning signal through detection of a harmful gas according to an embodiment of the present invention.
3 is a conceptual diagram of a detection unit of a system for selectively outputting a warning signal through detection of a harmful gas according to an embodiment of the present invention.
4 is a block diagram of a managing unit of a system for selectively outputting a warning signal through detection of a harmful gas according to an embodiment of the present invention.
5 is a conceptual diagram of a saving unit of a system for selectively outputting a warning signal through detection of a harmful gas according to an embodiment of the present invention.
6 is a conceptual diagram of an analyzing unit of a system for selectively outputting a warning signal through detection of a harmful gas according to an embodiment of the present invention.
7 is a block diagram of a warning signal unit of a system for selectively outputting a warning signal through detection of a harmful gas according to an embodiment of the present invention.
8 is a conceptual diagram of an attention alarm unit of a system for selectively outputting a warning signal through detection of a harmful gas according to an embodiment of the present invention.
9 is a conceptual diagram of a risk alarm unit of a system for selectively outputting a warning signal through detection of a harmful gas according to an embodiment of the present invention.
10 is a conceptual diagram of an error alarm unit of a system for selectively outputting a warning signal through detection of a harmful gas according to an embodiment of the present invention.

Since the selective warning signal output system through the detection of harmful gas according to the present invention can have various changes and can have various embodiments, specific embodiments are illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the present invention to a specific embodiment, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

1 is a conceptual diagram of a system for selectively outputting a warning signal through detection of a harmful gas according to an embodiment of the present invention. 2 is a block diagram of a detection unit of a system for selectively outputting a warning signal through detection of a harmful gas according to an embodiment of the present invention. 3 is a conceptual diagram of a detection unit of a system for selectively outputting a warning signal through detection of a harmful gas according to an embodiment of the present invention. 4 is a block diagram of a managing unit of a system for selectively outputting a warning signal through detection of a harmful gas according to an embodiment of the present invention. 5 is a conceptual diagram of a saving unit of a system for selectively outputting a warning signal through detection of a harmful gas according to an embodiment of the present invention. 6 is a conceptual diagram of an analyzing unit of a system for selectively outputting a warning signal through detection of a harmful gas according to an embodiment of the present invention. 7 is a block diagram of a warning signal unit of a system for selectively outputting a warning signal through detection of a harmful gas according to an embodiment of the present invention. 8 is a conceptual diagram of an attention alarm unit of a system for selectively outputting a warning signal through detection of a harmful gas according to an embodiment of the present invention. 9 is a conceptual diagram of a risk alarm unit of a system for selectively outputting a warning signal through detection of a harmful gas according to an embodiment of the present invention. 10 is a conceptual diagram of an error alarm unit of a system for selectively outputting a warning signal through detection of harmful gas according to an embodiment of the present invention.

The selective warning signal output system through the detection of harmful gas according to the present invention is to prevent safety accidents and gas leakage and gas explosion accidents caused by harmful gases frequently occurring in industrial sites in advance, and for safe work performance, It relates to a system for detecting a harmful gas contained in the air of a field, and outputting a caution and a warning signal to workers in an industrial site when the concentration of the detected harmful gas exceeds a standard value.

The harmful gas referred to herein is a generic term for combustible gas, toxic gas, inert gas, flammable gas, non-combustible gas, etc. generated at major industrial sites. Types of harmful gases include LNG, LPG, methane (CH ₄ ), hydrogen (H ₂ ), which burn and explode by reacting with oxygen in the air, carbon monoxide (CO), hydrofluoric acid (HF), and hydrogen chloride (HCl) that are toxic to the human body. Chlorine (Cl ₂ ) Hydrogen sulfide (H ₂ S), sulfur dioxide (SO ₂ ), nitrogen dioxide (NO ₂ ), ammonia (NH ₃ ) and the like are present. In the present invention, various types of harmful gases are independently and selectively detected without mutual interference to prevent gas leakage and gas explosion accidents.

In the case of the selective warning signal output system through the detection of harmful gas according to the present invention, as shown in FIG. 1 , a detecting unit 100 , a managing unit 200 , and a warning signal It will include a unit (warning signal unit, 300).

First, in the case of the detecting unit 100 , as shown in FIGS. 1 and 2 , a potential value of the harmful gas is detected in real time by detecting the harmful gas in the indoor air.

The detecting unit 100 includes a working electrode, a counter electrode, and a reference electrode that selectively decomposes a gas flowing into the harmful gas to form a current when an oxidation or reduction reaction occurs. And, an electrolyte is configured in the inside of the detecting unit 100 for ion conduction of harmful gases, and acts as a diffusion medium of ions in the oxidation-reduction process. For example, when the harmful gas diffused into the detecting unit 100 undergoes an oxidation reaction at the working electrode, a reaction of reducing water to water occurs at the corresponding electrode, and when the reduction reaction occurs at the working electrode, a reaction of oxidizing water occurs at the corresponding electrode.

The detecting unit 100 can selectively detect various types of harmful gases without mutual interference by setting components and electrolyte compositions according to the harmful gas to be detected.

In the case of the detection unit 100 of the system for selectively outputting a warning signal through the detection of harmful gas according to the present invention, as shown in FIGS. 2 and 3, a detecting frame unit 110, It includes a decreasing detecting unit 120 , a potential detecting unit 130 , and a filtering unit 140 .

In the case of the detecting frame unit 110 , as shown in FIG. 3 , harmful gas in the indoor air is introduced to form a body for accommodating the harmful gas.

The detecting frame unit 110 has entrances and exits formed on one side and the other side so that harmful gas can be introduced into the inside, and the decrising detecting unit 120, the potential detecting unit 130, the filtering unit 140, etc. to be fixed inside.

The decrising detecting unit 120 is provided inside the detecting frame unit 110 to detect a decrease in the number of electrons of the harmful gas introduced into the detecting frame unit 110 .

For example, in the decrising detecting unit 120, a portion of molecules constituting the harmful gas is mainly oxidized, and accordingly, the number of electrons in the molecules of the noxious gas is reduced. number will increase.

The potential detecting unit 130 is provided inside the detecting frame unit 110, and is configured to detect the potential value of the harmful gas according to the increase or decrease in the number of electrons of the harmful gas detected by the decrising detecting unit 120. .

The potential detecting unit 130 can measure the concentration of harmful gases in the air by detecting a potential that changes according to the redox reaction generated from the decreshing detecting unit 120 and the increasing detecting unit. The potential value of the harmful gas referred to herein is a current generated during oxidation-reduction and is a value corresponding to the gas concentration. That is, sensing the potential value of the noxious gas is the same as detecting the concentration of the noxious gas in the air.

In addition, the decrising detecting unit 120 , the increasing detecting unit, and the potential detecting unit 130 are preferably coated with a catalyst material on a porous membrane through which gas easily passes.

In the case of the filtering unit 140 , it is provided on one side of the detecting frame unit 110 , and causes a predetermined reaction to the harmful gas to selectively filter the noxious gas flowing into the detecting unit 100 .

As the filtering unit 140 induces a physical or chemical reaction with the harmful gas, it is possible to selectively select the harmful gas flowing into the detecting unit 100 .

The filtering unit 140 is for selectively detecting harmful gases without mutual interference, and may be classified as an adsorption type filter or a chemical type filter. In general, it is preferable to use an activated carbon filter in the form of powder sintered or mesh.

In the case of the managing unit 200, as shown in FIG. 1, the potential value of the harmful gas detected from the detecting unit 100 is collected and stored in the server in real time, and the potential value of the stored harmful gas is analyzed. is a configuration that

In the case of the managing unit 200 of the selective warning signal output system through the detection of harmful gas according to the present invention, as shown in FIG. 4 , a gathering unit 210 and a saving unit 220 ), a salting (sorting) unit 230 and an analyzing (analyzing) unit 240 are included.

First, in the case of the gathering unit 210 , the potential value of the harmful gas detected from the detecting unit 100 is collected in real time.

In the case of the saving unit 220, the potential value of the harmful gas collected from the gathering unit 210 is stored in the server every predetermined time.

The saving unit 220 selectively calculates and stores at least one of an actual measured value, an average value, a maximum value, a minimum value, a median value, or a standard deviation of the potential values of each harmful gas collected over a predetermined time.

In the case of the saving unit 220 of the system for selectively outputting a warning signal through the detection of harmful gases according to the present invention, as shown in FIG. 5 , a converting unit 221 and an omitting unit 222 . ) and a transmitting unit 223 .

The converting unit 221 converts the potential value of the harmful gas collected from the gathering unit 210 in bit units, and arranges them as a converting stream.

The omitting unit 222 is configured to set a predetermined section among the converting streams listed from the converting unit 221 and selectively omit the predetermined section to generate an omitting stream.

The bit-based omitting stream generated by selectively omitting a predetermined section by the omitting unit 222 is called an omit value. , or information in which 1 and 0 are exchanged can be transmitted. The omission unit 222 omits and arbitrarily changed information is transmitted separately from the original signal.

For example, as shown in (b) of FIG. 5 , the o-meeting unit 222 includes an o-meeting array unit 222-1, an o-meeting rolling unit 222-2, and an o-meeting rotating unit 222-3. , and an omeeting selecting unit 222-4.

The omitting array unit 222-1 arranges the ohmic values generated in units of bits in a line and gives each order.

The omiting rolling unit 222 - 2 is configured to roll the ordered omit values and arrange them in a circle.

The omitting rotating unit 222 - 3 is configured to rotate the omit values arranged in a circle in a clockwise or counterclockwise direction. At this time, the rotation direction and the number of rotations are randomly determined.

The omitting selection unit 222-4 lists the rotated omit values in order based on the origin, so that the omit values can be transmitted to the server.

The transmitting unit 223 is configured to independently transmit the o-meeting stream generated from the o-meeting unit 222 and the converting stream in which a predetermined section is omitted to the server.

In addition, the o-meeting stream and the converting stream independently transmitted from the transmitting unit 223 to the server are merged in the transmitted server, so that the original potential value can be restored. The rules of omission target information and omission information transmitted individually by the transmitting unit 223 are shared only by the transmitting end and the receiving end, thereby dispelling concerns about arbitrary hacking or information leakage by a third party to a minimum.

The salting unit 230 is configured to align the potential value of the harmful gas stored in the saving unit 220 according to a predetermined time or area of the indoor space.

The salting unit 230 includes a time salting unit 231 and a section salting unit 232 .

First, in the case of the time salting unit 231 , the potential value of the harmful gas stored in the saving unit 220 is selectively extracted and arranged by the potential value of the harmful gas for a unit time.

The time salting unit 231 aligns the potential values of harmful gases in units of seconds, minutes, hours, and days.

In the case of the section salting unit 232, the potential value of the harmful gas stored in the saving unit 220 is selectively extracted according to a preset area in the indoor space, and aligned with the potential value of the harmful gas for a unit time in the preset area. is a configuration that

The section salting unit 232 divides the industrial site into preset zones, and aligns the potential values of harmful gases in each zone.

In addition, the preset zone referred to herein divides the inside of the industrial site by n, so that n divided areas can be selectively set.

After the potential values of the harmful gases from the salting unit 230 are arranged according to time, it is necessary to analyze them.

In the case of the analyzing unit 240 , as shown in FIG. 6 , the potential value of the harmful gas aligned from the salting unit 230 is compared and analyzed with a preset default value (D).

At this time, the preset default value (D) referred to herein is a potential value as a reference when harmful gases are mixed in the air. If the potential value of the harmful gas is greater than the preset default value (D), harmful gases in the air Exceeding gas exposure standards. For example, when the potential value of the harmful gas is greater than the preset default value D, the concentration of the harmful gas allowed for the human body is exceeded, thereby having a fatal effect on the body of the operator.

In order to compare and analyze the potential value of the harmful gas and the preset default value (D), the analyzing unit 240 schematically extracts the potential value of the harmful gas arranged from the salting unit 230 as a graph or table. do it

In addition, the analyzing unit 240 allows to selectively extract only the potential value of the harmful gas greater than the preset default value (D) from among the potential values of the illustrated harmful gas. In this case, it is possible to set a reference value for extracting the potential value of the harmful gas greater than the preset default value (D). One criterion is to extract all the potential values of harmful gases greater than the preset default value (D), and another criterion is to extract only the potential values of harmful gases that are 5% or more than the preset default value (D). is to extract It is preferable to selectively extract it according to the situation of the industrial site.

The warning signal unit 300 is configured to output a predetermined warning signal when the potential value of the harmful gas analyzed by the managing unit 200 increases greater than a preset default value D.

The warning signal unit 300 outputs a warning signal only when a gas having a concentration higher than a reference value is continuously detected.

Also, in the warning signal unit 300 , it is not preferable to unconditionally sound the warning signal because the potential value of the harmful gas is greater than the preset default value (D). In the case of a temporary gas eruption in the industrial field, the potential value of the harmful gas is inevitably greater than the preset default value (D), which is a common phenomenon during work. Even if a warning signal is sounded in an emergency, awareness may be lowered.

Therefore, it is preferable that the output of the warning signal is selectively determined according to the reference concentration, exposure time, and number of times according to the type of each harmful gas according to the exposure standards of chemical substances and physical factors.

In the case of the warning signal unit 300 of the system for selectively outputting a warning signal through the detection of harmful gas according to the present invention, as shown in FIG. 7 , an attention alarm unit 310 and a risk alarm ) unit 320 , and an error alarm unit 330 .

First, in the case of the attention alarm unit 310 , as shown in FIG. 8 , the potential value of the harmful gas greater than the default value D preset by the analyzing unit 240 is consecutive N times for a predetermined time. It is a configuration that outputs an attention signal when detected.

The attention signal output from the attention alarm unit 310 is preferably an alarm for attention to workers working in the field.

In the case of the risk alarm unit 320, as shown in FIG. 9, when the potential value of the harmful gas greater than the default value D set in advance by the analyzing unit 240 is continuously detected M times for a predetermined time It is a configuration that outputs a risk signal. (At this time, it is preferable that M>N.)

The risk signal output from the risk alarm unit 320 is preferably an alarm for warning to workers working in the field.

In the case of the error alarm unit 330 , as shown in FIG. 10 , when the potential value of the harmful gas greater than the default value D set in advance by the analyzing unit 240 is randomly detected for a predetermined time, an error It is a configuration that outputs an error signal.

Since it is determined that there is a problem in the detecting unit 100 that the number of times of increase/decrease in the potential value of harmful gas is detected discontinuously and randomly, at this time, an error signal is output to check the detection unit 100 do.

The scope of the present invention is determined by the matters described in the claims, and parentheses used in the claims are not described for selective limitation, but are used for clear components, and descriptions in parentheses are also interpreted as essential components. should be

100: detecting unit 110: detecting frame unit
120: decrising detecting unit 130: potential detecting unit
140: filtering unit 200: managing unit
210: gathering unit 220: saving unit
221: converting unit 222: wrong meeting unit
222-1: O-meeting array unit 222-2: O-meeting rolling unit
222-3: O-meeting rotating unit 222-4: O-meeting selecting unit
223: transmitting unit 230: salting unit
231: time salting section 232: section salting section
240: analyzing unit 300: warning signal unit
310: attention alarm unit 320: risk alarm unit
330: error alarm unit D: preset default value

Claims (10)

a detecting unit that detects noxious gas in indoor air and detects a potential value of the noxious gas in real time;
a managing unit that collects the potential value of the noxious gas detected from the detecting unit, stores it in a server, and selectively analyzes the potential value of the noxious gas; and
and a warning signal unit that outputs a predetermined warning signal when the potential value of the harmful gas analyzed from the managing unit increases greater than a preset default value. , a selective warning signal output system through the detection of harmful gases.
According to claim 1, wherein the detecting unit,
a detecting frame unit into which the harmful gas in the indoor air is introduced to form a body accommodating the harmful gas;
a decreasing detecting unit provided inside the detecting frame unit to detect a decrease in the number of electrons of the harmful gas introduced into the detecting frame unit; and
a potential detecting unit provided inside the detecting frame unit and configured to detect the potential value of the noxious gas according to an increase or decrease in the number of electrons of the noxious gas detected by the decrising detecting unit; Characterized, selective warning signal output system through the detection of harmful gas.
According to claim 2, wherein the detecting unit,
Noxious gas provided on one side of the detecting frame, further comprising a filtering unit for selectively filtering the noxious gas flowing into the detecting unit by inducing a predetermined reaction to the noxious gas Selective warning signal output system through the detection of
The method of claim 2, wherein the managing unit comprises:
a gathering unit for collecting the potential value of the harmful gas detected from the detecting unit in real time;
a saving unit for storing the potential value of the harmful gas collected from the gathering unit in a server every predetermined time;
a salting unit aligning the potential value of the harmful gas stored in the saving unit according to a predetermined time or area of an indoor space; and
Selective warning signal output system through detection of harmful gas, characterized in that it comprises an analyzing unit for comparing and analyzing the potential value of the harmful gas arranged from the salting unit with the preset default value.
According to claim 4, The saving unit,
Detection of harmful gas, characterized in that it is selectively calculated and stored as at least one of the average value, the maximum value, the minimum value, the median value, and the standard deviation of the potential values of each of the harmful gases according to a predetermined time Optional warning signal output system via
According to claim 4, The salting portion,
a time sorting unit for selectively extracting the potential value of the noxious gas stored in the saving unit and sorting it with the potential value of the noxious gas for a unit time; and
Section sorting for selectively extracting the potential value of the noxious gas stored in the saving unit according to a preset area in the indoor space and sorting it with the potential value of the noxious gas for a unit time in the preset area ) Selective warning signal output system through the detection of harmful gas, characterized in that it comprises a part.
According to claim 4, The analyzing unit,
Selective warning signal through detection of noxious gas, characterized in that only the potential value of the noxious gas that is greater than the preset default value within the potential value of the noxious gas arranged from the salting unit is selectively extracted output system.
The method of claim 7, wherein the warning signal unit,
an attention alarm unit for outputting an attention signal when the potential value of the harmful gas greater than the preset default value is detected from the analyzing unit N times consecutively for a predetermined time; and
It characterized in that it comprises a risk alarm (risk alarm) for outputting a risk signal when the potential value of the harmful gas greater than the preset default value from the analyzing unit is continuously detected M times for a predetermined time, Selective warning signal output system through detection of harmful gas.
The method of claim 8, wherein the warning signal unit,
Harmful, characterized in that it further comprises an error alarm unit for outputting an error signal when the potential value of the noxious gas greater than the preset default value from the analyzing unit is randomly detected for a predetermined time Optional warning signal output system through gas detection.
According to claim 4, The saving unit,
a converting unit converting the potential value of the harmful gas collected from the gathering unit in bit units and arranging them as a converting stream;
an omitting unit for generating an omitting stream by setting a predetermined section among the converting streams listed from the converting section and selectively omitting the predetermined section; and
Through the detection of harmful gas, characterized in that it comprises a transmitting (transmitting) unit for independently transmitting the o-meeting stream generated from the o-meeting unit and the converting stream missing the predetermined section to a server, respectively. Optional warning signal output system.

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