KR20220108439A - System for the output of changing signal for detection of toxic gas - Google Patents

Abstract

The present invention relates to a changing signal output system for detecting harmful gases. Disclosed is a technical idea, which includes: a detecting unit which senses harmful gases in the air and detects potential values of the harmful gases in real time; a numbering unit for generating a serial number for each of the detecting units and selectively inputting information of the detecting units; a counting unit which reads the serial number generated from the numbering unit and calculates a changing time of the detecting unit; and a timer unit which outputs a changing signal for inspection or replacement of the detecting unit when the changing time calculated from the counting unit is reached.

Description

Changing signal output system for the detection of harmful gas {System for the output of changing signal for detection of toxic gas}

The present invention relates to a changing signal output system for detecting harmful gas. In more detail, in more detail, a device for detecting and detecting harmful gases contained in the air of industrial sites in order to prevent gas leakage and gas explosion accidents due to harmful gases in advance and perform safe work It is a technical field related to a system for outputting a changing signal by predicting and calculating the end time of the lifespan.

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.

Gas sensors are used in various fields such as atmospheric environment, transportation equipment, medical, food, military, and safety. For example, the gas sensor detects and monitors harmful gases that exist indoors and outdoors, is attached to air conditioning equipment to regulate exhaust gas and block harmful gases, or detect diseases such as breathalyzer measurement, diabetes, and lung cancer through human breathing. It can be used to detect or detect food poisoning and volatile organic chemicals to check the ripeness of fruits to detect the freshness and spoilage of food, or to analyze biochemical and toxic gases generated during disasters and terrorism.

In addition, as human casualties continue to occur due to frequent occurrences of safety accidents, gas leakage accidents, and explosion accidents in chemical-related industries, the use of gas sensors is continuously increasing. According to Frost & Sullivan's global gas sensor market size and forecast, the global gas sensor market is expected to grow from $2.8 billion in 2014 to a CAGR of 4.5% by 2021 to form a market of about $3.8 billion.

As an example of a related prior patent document, "a gas sensor centralized management system and its operating method (Registration No. 10-1969936, hereinafter referred to as Patent Document 1)" exists.

In the case of the invention according to Patent Document 1, a plurality of gas sensors; an information collecting unit having a gas sensor port connected to each of the plurality of gas sensors, collecting detection information detected from the plurality of gas sensors, and processing the collected information; A monitoring unit that monitors the change in the rate of change in size by classifying and recording the size and rate of change in the size of the detection factor of the processed detection information over time, and then applying the rate of change in the size of the classified detection factor to the permissible limit level section of the standard rate of change per hour ; an alarm unit that provides different alarm sounds according to the rate of change in the size of the classified detection factors; and a lamp unit for outputting warning lights of different wavelengths according to the rate of change of the classified detection factors.

As another example of the patent document, "a gas alarm method and its electronic device (Patent No. 10-2016-0131671, hereinafter referred to as Patent Document 2)" exists.

In the case of the invention according to Patent Document 2, a state detection unit for detecting the state of the electronic device, a gas sensor for detecting a gas when the sensed state is a set condition, a processor for analyzing the concentration of the sensed gas, and the analyzed gas and a display unit for displaying the concentration of It is characterized in that it includes an operation for displaying

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. 10-1969936 Publication No. 10-2016-0131671 Registration No. 10-1695596 Registration No. 10-1922727

The changing signal output system for detecting harmful gas according to the present invention has been devised to solve the problems of the related art as described above, and presents the following problems to be solved.

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

Second, a unique number is assigned to the gas sensor, and information about the gas sensor is input in the unique number.

Third, by analyzing the unique number, we want to identify the gas replacement time and output a replacement notification signal.

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 changing signal output system for detecting harmful gas according to the present invention has the following problem solving means for the above problem to be solved.

A changing signal output system for detecting a noxious gas according to the present invention includes a detecting unit that detects a noxious gas in the air and detects a potential value of the noxious gas in real time; a numbering unit generating a serial number in each of the detecting units, and selectively inputting information of the detecting unit to the serial number; a counting unit that reads the serial number generated from the numbering unit and calculates a changing time of the detecting unit; and a timer unit that outputs a changing signal for checking or replacing the detecting unit when the changing time calculated from the counting unit comes.

The detecting unit of the changing signal output system for detecting a noxious gas according to the present invention includes a detecting frame part that forms a body into which the noxious gas in the air is introduced to accommodate the noxious 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 numbering unit of the changing signal output system for detecting harmful gas according to the present invention is a data input ( date input) copy; and a section input unit for selectively inputting information on a setting area of the detecting unit to a predetermined position of the serial number.

The counting unit of the changing signal output system for detecting harmful gas according to the present invention reads the serial number to which the reference data of the detecting unit generated from the numbering unit or the information of the setting area is input reading unit; a saving unit for storing the serial number read from the reading unit in a server; and a yield unit for calculating information of the detecting unit selectively input to the predetermined position of the serial number.

The saving unit of the system for outputting a changing signal for detecting harmful gas according to the present invention includes: a converting unit for converting the serial number read from the reading unit in bit units and listing them as a converting number; an omitting unit for setting a predetermined section among the converting numbers listed from the converting section, and selectively omitting the predetermined section to generate an omitting number; and a sending unit that independently transmits the o-meeting number generated from the o-meeting unit and the conversion number in which the predetermined section is omitted to the server.

The saving unit of the changing signal output system for the detection of harmful gas according to the present invention merges the error-meeting number and the converting number in which the predetermined section is missing from the server transmitted from the sending unit, and the merged It may further include a recovering unit for restoring and storing the converting number to the serial number.

The yield unit of the changing signal output system for detecting harmful gas according to the present invention includes: a data extracting unit for extracting the reference data of the detecting unit selectively input to the predetermined position of the serial number; and a section extracting unit for extracting setting area information of the detecting unit selectively input to the predetermined position of the serial number.

The yield unit of the changing signal output system for detecting harmful gas according to the present invention is a valid counting unit for calculating a shelf life of the detecting unit from the reference data extracted from the data extracting unit ; and a D-day counting unit calculating the changing time by calculating a period from an arbitrarily designated day to the shelf life calculated by the valid counting unit.

The timer unit of the changing signal output system for detecting harmful gas according to the present invention outputs the changing signal for inspection of the detecting unit when the changing time calculated from the D-day counting unit is n months an inspection timer (inspection) unit; and a replacing timer unit for outputting the changing signal for replacement of the detecting unit when the changing time calculated from the D-day counting unit reaches m months.

The timer unit of the changing signal output system for detecting harmful gas according to the present invention outputs the changing signal when the potential value of the noxious gas is continuously and randomly detected from the detecting unit for a predetermined time It may be characterized by further comprising an error timer (error timer) unit.

The changing signal output system for detecting harmful gas according to the present invention having the above configuration 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, a serial number is assigned to each of the detecting units, and information of the detecting unit can be selectively input to each of the serial numbers.

Third, it is possible to output a changing signal by calculating the changing time of the detecting unit from the serial number.

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 changing signal output system for detecting harmful gas according to an embodiment of the present invention.
2 is a block diagram of a detecting unit of a changing signal output system for detecting harmful gas according to an embodiment of the present invention.
3 is a block diagram of a numbering unit of a changing signal output system for detecting harmful gas according to an embodiment of the present invention.
4 is a conceptual diagram of a numbering unit of a changing signal output system for detecting harmful gas according to an embodiment of the present invention.
5 is a block diagram of a counting unit of a changing signal output system for detecting harmful gas according to an embodiment of the present invention.
6 is a conceptual diagram of a converting unit of a changing signal output system for detecting harmful gas according to an embodiment of the present invention.
7 is a conceptual diagram of an omitting unit and a sending unit of a changing signal output system for detecting harmful gas according to an embodiment of the present invention.
8 is a conceptual diagram of a part of a changing signal output system for detecting harmful gas according to an embodiment of the present invention.
9 is a conceptual diagram of a valid counting unit and a D-day counting unit of a changing signal output system for detecting harmful gas according to an embodiment of the present invention.
10 is a conceptual diagram of a timer unit of a system for outputting a changing signal for detecting harmful gas according to an embodiment of the present invention.
11 is a conceptual diagram of an inspection timer unit and a replaying timer unit of a changing signal output system for detecting harmful gas according to an embodiment of the present invention.
12 is a conceptual diagram of an error timer unit of a system for outputting a changing signal for detecting harmful gas according to an embodiment of the present invention.

The changing signal output system for the detection of harmful gas according to the present invention may have various changes and may have various embodiments, and specific embodiments will be 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 changing signal output system for detecting harmful gas according to an embodiment of the present invention. 2 is a block diagram of a detecting unit of a changing signal output system for detecting harmful gas according to an embodiment of the present invention. 3 is a block diagram of a numbering unit of a changing signal output system for detecting harmful gas according to an embodiment of the present invention. 4 is a conceptual diagram of a numbering unit of a changing signal output system for detecting harmful gas according to an embodiment of the present invention. 5 is a block diagram of a counting unit of a changing signal output system for detecting harmful gas according to an embodiment of the present invention. 6 is a conceptual diagram of a converting unit of a changing signal output system for detecting harmful gas according to an embodiment of the present invention. 7 is a conceptual diagram of an omitting unit and a sending unit of a changing signal output system for detecting harmful gas according to an embodiment of the present invention. 8 is a conceptual diagram of a part of a changing signal output system for detecting harmful gas according to an embodiment of the present invention. 9 is a conceptual diagram of a valid counting unit and a D-day counting unit of a changing signal output system for detecting harmful gas according to an embodiment of the present invention. 10 is a conceptual diagram of a timer unit of a system for outputting a changing signal for detecting harmful gas according to an embodiment of the present invention. 11 is a conceptual diagram of an inspection timer unit and a replaying timer unit of a changing signal output system for detecting harmful gas according to an embodiment of the present invention. 12 is a conceptual diagram of an error timer unit of a system for outputting a changing signal for detecting harmful gas according to an embodiment of the present invention.

The changing signal output system for 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 to perform safe work, industrial sites The present invention relates to a system for detecting harmful gas contained in the air of a device, predicting and calculating the end-of-life time of a device for detecting harmful gas in advance, and outputting a changing signal for replacement of the detecting device.

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 changing signal output system for detecting harmful gas according to the present invention, as shown in FIG. 1 , a detecting unit 100 , a numbering unit 200 , and a counting unit , 300 ) and a timer unit 400 .

First, in the case of the detecting unit 100 , it is configured to detect the harmful gas in the air and detect the potential value of the harmful gas in real time.

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 detecting unit 100 of the changing signal output system for detecting harmful gas according to the present invention, as shown in FIG. 2 , a detecting frame unit 110, a decrising detecting ( 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 , harmful gas in the indoor air is introduced to form a body 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 numbering unit 200, as shown in FIGS. 3 and 4, a serial number is generated in each of the detecting units 100, and information of the detecting unit 100 is selectively input to the serial number is composition.

The serial number generated by the numbering unit 200 is made of a combination of letters or numbers, and there is no limit to the number of digits of the serial number. For example, as shown in FIG. 4 , unique information of the detecting unit 100 is embedded in a serial number composed of letters or numbers. Through the serial number, it is possible to obtain information such as the manufacturing date, setting date, operation date, and setting area of each of the detecting units 100 .

In the case of the numbering unit 200 of the changing signal output system for detecting harmful gas according to the present invention, as shown in FIG. 4 , a date input unit 210 and a section input unit (220) will be included.

First, in the case of the data input unit 210 , as shown in FIG. 4 , reference date information of the detecting unit 100 is selectively input to a predetermined position of the serial number.

The reference date referred to herein refers to a manufacturing date on which the detecting unit 100 is manufactured or a date on which the detecting unit 100 is shipped from the factory. In general, the lifespan of the detecting unit 100 is 24 months based on the reference date, and when the life of the detecting unit 100 ends, the performance of the detecting unit 100 decreases, It has reduced performance and needs to be replaced.

The data input unit 210 may selectively input to a predetermined position among the serial numbers of the detecting unit 100 , and the predetermined position may be continuously or randomly designated. For example, as shown in FIG. 4 , information of reference data may be input continuously or information of reference data may be input at random positions.

In the case of the section input unit 220, it is configured to selectively input the setting area information of the detecting unit 100 to a predetermined position of the serial number.

The section input unit 220 arbitrarily partitions a space in which noxious gas is detected, and when the detection unit 100 is set in each of the partitioned n areas, a setting area that is a setting position of the detection unit 100 . and setting date information can be input.

The section input unit 220 may also selectively input the information of the setting area or the setting date of the detecting unit 100 to a predetermined position among the serial number. It is preferable not to overlap with the input unit 210 .

The counting unit 300 is configured to read the serial number generated from the numbering unit 200 to calculate a changing time of the detecting unit 100 .

The counting unit 300 collects the serial number generated from the numbering unit 200 in real time, reads the serial number data, stores it in the server, and extracts information included in the serial number.

In the case of the counting unit 300 of the changing signal output system for detecting harmful gas according to the present invention, as shown in FIG. 5, a reading unit 310, a saving unit 320 and It includes a yield unit 330 .

First, in the case of the reading unit 310 , the reference data of the detecting unit 100 generated from the numbering unit 200 or the information of the setting area is inputted to read the serial number.

The reading unit 310 collects and reads information on the serial number generated from the numbering unit 200 in real time.

In the case of the saving unit 320 , the serial number read from the reading unit 310 is stored in the server.

In addition, information on a predetermined location applied to the serial number from the numbering unit 200 through the saving unit 320 is stored in the server. At this time, the information of the predetermined location is encrypted so that only the transmitting end and the receiving end can read it.

In the case of the saving unit 320 of the changing signal output system for detecting harmful gas according to the present invention, as shown in FIGS. 6 and 7 , a converting unit 321 and an omitting unit 322 , a sending unit 323 , and a recovering unit 324 are included.

First, in the case of the converting unit 321 , as shown in FIG. 6 , the serial numbers read from the reading unit 310 are converted in bit units and arranged as the converting numbers.

In the case of the o-meeting unit 322, as shown in (a) of FIG. 7, a predetermined section is set among the converting numbers listed from the converting unit 321, and the o-meeting number is obtained by selectively omitting the predetermined section. It is a configuration that creates

1 and 0 of the o-meeting number generated by the o-meeting unit 322 may be mutually overturned according to a preset rule. In this case, the preset rules are provided according to the transmitting end and the receiving end, but are transmitted and shared separately. For example, the preset rule of the o-meeting unit 322 may be applied in the configuration shown in FIG. 7A .

That is, the omitting unit 322 includes the omitting array unit 322-1, the omitting rolling unit 322-2, the omitting rotating unit 322-3, and the omitting selecting unit 322-4. will include

The omitting array unit 322-1 arranges the omitting numbers generated in units of bits in a line and gives each order.

The Omeeting rolling unit 322-2 is configured to roll the ordered Omeeting numbers and arrange them in a circle.

The o-meeting rotating unit 322 - 3 is configured to rotate the o-meeting numbers 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 o-meeting selecting unit 322-4 arranges the o-meeting numbers after being rotated in order based on the origin, so that the corresponding o-meeting number can be transmitted to the server.

In the case of the sending unit 323, as shown in FIG. 7(b), the o-meeting number generated from the o-meeting unit 322 and the converting number in which a predetermined section is omitted are each independently transmitted to the server. to be.

The sending unit 323 may separately and in parallel transmit the overturned Omeeting number according to a preset rule, and the preset rule is also transmitted to the server in parallel.

In addition, information such as a meeting number, a converting number, and a preset rule transmitted from the sending unit 323 to the server is shared only by the transmitting end and the receiving end to prevent hacking or information leakage from the outside in advance.

In the case of the recovering unit 324, the o-meeting number generated by the o-meeting unit 322 and the converting number in which a predetermined section is missing are merged, and the merged converting number is restored as a serial number and stored.

The recovering unit 324 restores the overturned o-meeting number to the original o-meeting number according to a preset rule, merges the restored o-meeting number and the converting number missing a predetermined section, and returns the original serial number. can be restored.

In the case of the yield unit 330 , it is configured to calculate information of the detecting unit 100 selectively input to a predetermined position of the serial number.

In the case of the yield unit 330 of the changing signal output system for detecting harmful gas according to the present invention, as shown in FIGS. 8 and 9, a date extracting unit 331, a section extract It includes a tracting unit 332 , a valid counting unit 333 , and a d-day counting unit 334 .

First, in the case of the data extracting unit 331, as shown in FIG. 8, the reference data of the detecting unit 100 selectively input to a predetermined position of the serial number is extracted.

The data extracting unit 331 is configured to extract reference data information selectively input to a predetermined position in the data input unit 210 . In this case, reference data information of the detecting unit 100 can be extracted through the information on the predetermined location stored in the saving unit 320 .

In the case of the section extracting unit 332, as shown in FIG. 8, it is configured to extract the setting area information of the detecting unit 100 selectively input to a predetermined position of the serial number.

The section extracting unit 332 is configured to extract information on a setting area or a setting date selectively input to a predetermined position in the section input unit 220 . At this time, it is possible to extract the information of the setting area or the setting date of the detecting unit 100 through the information of the predetermined location stored in the saving unit 320 .

In the case of the valid counting unit 333 , as shown in FIG. 9 , the shelf life of the detecting unit 100 is calculated from the reference data extracted from the data extracting unit 331 .

The shelf life calculated by the valid counting unit 333 means the end point of the life of the detecting unit 100 . That is, it means when the detecting unit 100 loses the function of detecting harmful gas, and the shelf life is 24 months after the reference date. As described above, the life of the detecting unit 100 is guaranteed for 24 months, but it is preferable to replace the detecting unit 100 before the shelf life.

That is, the valid counting unit 333 calculates a date 24 months after the reference date.

In the case of the D-day counting unit 334, as shown in FIG. 9, the changing time is calculated by calculating the period from an arbitrarily designated day to the shelf life calculated by the valid counting unit 333.

The arbitrarily designated day in the D-day counting unit 334 is generally the current point in time or the day the detecting unit 100 is operated, and the period from the arbitrarily designated day to the shelf life is the remaining life of the detecting unit 100. It is to calculate the changing time to be

In addition, as shown in FIG. 9 , the valid counting unit 333 and the D-day counting unit 334 are diagrammed using graphs and tables to calculate shelf life and changing time.

In the case of the timer unit 400 , when the changing time calculated from the counting unit 300 is reached, it is configured to output a changing signal for inspection or replacement of the detecting unit 100 .

In the case of the timer unit 400 of the system for outputting a changing signal for detecting harmful gas according to the present invention, as shown in FIG. 10, an inspection timer unit 410, a replacing timer It includes a unit 420 and an error timer unit 430 .

First, in the case of the inspection timer unit 410, as shown in (a) of FIG. 11, when the changing time calculated from the D-day counting unit 334 becomes n months, the detection unit 100 for inspection A changing signal is output.

For example, the inspection timer unit 410 outputs a changing signal when the changing time reaches 6 months to check the detecting unit 100 . At this time, it is possible to determine whether the performance of the detecting unit 100 has deteriorated or has deteriorated through the inspection.

In the case of the replaying timer unit 420, as shown in (b) of FIG. 11 , when the changing time calculated from the D-day counting unit 334 reaches m months, the detecting unit 100 is changed for replacement. It is a configuration that outputs a signal.

The replaying timer unit 420 outputs a changing signal when the changing time reaches 2 months, that is, 2 months before the end of the life of the detecting unit 100, so that before the end of the life of the detecting unit 100 By pre-ordering the detecting unit 100, it is possible to replace the detecting unit 100 before the end of its lifespan.

In addition, in the case of the changing time, it can be set arbitrarily, and it is preferable that n>m.

As shown in FIG. 12 , the error timer unit 430 is configured to output a changing signal when the potential value of the harmful gas is continuously and randomly detected from the detecting unit 100 for a predetermined period of time.

The error timer unit 430 detects that the potential value of the harmful gas detected by the detecting unit 100 is irregularly generated, and it can be determined that there is a problem in the performance of the detecting unit 100, It is possible to replace the faulty detecting unit 100 .

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: numbering unit
210: date input unit 220: section input unit
300: counting unit 310: reading unit
320: saving unit 321: converting unit
322: O-meeting unit 322-1: O-meeting array unit
322-2: O-meeting rolling unit 322-3: O-meeting rotating unit
322-4: O-meeting selecting unit 323: Sending unit
324: recovering unit 330: yield unit
331: date extracting unit 332: section extracting unit
333: valid counting unit 334: D-day counting unit
400: timer unit 410: inspection timer unit
420: replaying timer unit 430: error timer unit

Claims (10)

a detecting unit that detects noxious gas in the air and detects a potential value of the noxious gas in real time;
a numbering unit generating a serial number in each of the detecting units, and selectively inputting information of the detecting unit to the serial number;
a counting unit that reads the serial number generated from the numbering unit and calculates a changing time of the detecting unit; and
Changing signal output for detection of harmful gas, characterized in that it includes a timer unit for outputting a changing signal for inspection or replacement of the detecting unit when the changing time calculated from the counting unit is reached system.
According to claim 1, wherein the detecting unit,
a detecting frame portion into which the harmful gas in the air is introduced to form a body for 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, a changing signal output system for the detection of harmful gases.
According to claim 1, wherein the numbering unit,
a date input unit for selectively inputting information of a reference date of the detecting unit to a predetermined position of the serial number; and
Changing signal output system for detecting harmful gas, characterized in that it comprises a section input (section input) for selectively inputting information on the setting area of the detecting unit to a predetermined position of the serial number.
According to claim 3, wherein the counting unit,
a reading unit for reading the serial number to which the reference data of the detecting unit generated from the numbering unit or the information of the setting area is input;
a saving unit for storing the serial number read from the reading unit in a server; and
Changing signal output system for the detection of harmful gas, characterized in that it comprises a yield (yield) for calculating the information of the detecting unit selectively input to the predetermined position of the serial number.
According to claim 4, The saving unit,
a converting unit for converting the serial number read from the reading unit in bit units, and arranging them as a converting number;
an omitting unit configured to set a predetermined section among the converting numbers listed from the converting unit, and selectively omit the predetermined section to generate an omitting number; and
Changing for the detection of harmful gas, characterized in that it comprises a sending unit that independently transmits the omeeting number generated from the omeeting unit and the conversion number in which the predetermined section is omitted to the server, respectively. signal output system.
According to claim 5, The saving unit,
The server transmitted from the sending unit merges the erroneous number and the converting number in which the predetermined section is missing, and a recovery unit for restoring and storing the merged converting number as the serial number further comprising A changing signal output system for detecting harmful gases, characterized in that.
The method of claim 4, wherein the yield unit,
a date extracting unit for extracting the reference data of the detecting unit selectively input to the predetermined position of the serial number; and
Changing signal output for detecting harmful gas, characterized in that it comprises a section extracting unit for extracting the setting area information of the detecting unit selectively input to the predetermined position of the serial number system.
The method of claim 7, wherein the yield unit,
a valid counting unit for calculating a shelf life of the detecting unit from the reference data extracted from the data extracting unit; and
Changing signal for detecting harmful gas, further comprising a d-day counting unit for calculating the changing time by calculating a period from an arbitrarily designated day to the shelf life calculated by the valid counting unit output system.
The method of claim 8, wherein the timer unit comprises:
an inspection timer unit outputting the changing signal for inspection of the detecting unit when the changing time calculated from the D-day counting unit reaches n months; and
When the changing time calculated from the D-day counting unit reaches m months, a replacing timer unit for outputting the changing signal for replacement of the detecting unit is included. changing signal output system for
The method of claim 9, wherein the timer unit comprises:
When the potential value of the harmful gas is continuously and randomly detected from the detecting unit for a predetermined time, the detection unit further comprises an error timer for outputting the changing signal. changing signal output system for

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