KR101922208B1 - Ventilation system of house on room with Radon gas detecting data and operating method thereof - Google Patents

Abstract

The present invention relates to a ventilation system and an operating method using an indoor radon concentration detection algorithm for selecting a room having the highest radon concentration among a plurality of rooms in a residential space and ventilating each room based on a room having a high radon concentration The average pollution concentration detected in each room of the residential space is recorded and stored in the allocated memory area, and when the pollution concentration value detected in real time in the selected room is judged as the value exceeding the allowable value, A unit residential ventilation unit for converting the pollution concentration value and unique information recorded in the specified period unit into a unit concentration pollution concentration frame and transferring the pollution concentration value to the designated specific state room, a unit residential ventilation unit and a public communication network And a decontamination concentration frame of a unit size is received and decoded, And a pollution concentration database server for classifying and analyzing by unit area and time according to a search request, and a demand agency server for accessing via a pollution concentration database server and a public communication network, There are features to include.

Description

Technical Field [0001] The present invention relates to a ventilation system and a method for operating the same,

The present invention relates to a ventilation system and an operation method using an indoor radon concentration detection algorithm. More particularly, the present invention relates to a ventilation system and a method of operating the ventilation system using a room radon concentration detection algorithm, And more particularly, to a ventilation system and an operating method using an indoor radon concentration detection algorithm for creating a comfortable living space.

The amount of oxygen in the atmosphere that the human body can feel comfortable is about 22 to 23%. The average oxygen concentration in the atmosphere is about 20.9% on average, and the oxygen concentration does not affect the body, but when the oxygen concentration is lowered to 17% or less, the body experiences physical changes such as the deterioration of vision.

Radon is one of the natural radionuclides that exist in the natural environment since the beginning of mankind. It is a colorless odorless inert gas that is formed by the collapse of uranium several times and is contained in rock, soil or building materials.

The Earth's crust has 2-4 ppm of uranium, with an average of 2.6 ppm of uranium, and 99.3% of the total uranium, the uranium 238 has a half-life of 45 to 4.6 billion years. Uranium 238 is naturally decayed through half-life, transforming into radium 226, lead 206, and lead 206, resulting in radon 222, and radon 222 generates an alpha line through alpha-decay after 3.8 days of half-life.

Radon (Rn) is a natural radioactive gas produced by radioactive decay of radium (Ra) in uranium and thorium radioactive series. It has colorless and odorless characteristics. It is inactive and has good mobility and is about 8 times as heavy as air. It is very likely to be inhaled into the human body through the breathing air.

In the following description, the detection and the measurement are the same meaning, and it is selectively used in accordance with the context.

Radon is known to be a cause of lung cancer next to smoking because it damages the lungs when it is sucked into the human body. It is included in soil, building materials, groundwater, LNG and enters the indoor space. Especially, radon is dissolved in water, And the indoor movement through the water penetrates due to the capillary phenomenon through the pores of the concrete or the water pressure. The higher the temperature of the room and the lower the pressure, the more the radon gas flows into the room, There is a serious problem in that it exists anywhere on the earth.

In recent years, domestic media have warned of the danger of radon, and there is increasing interest in the necessity of infrastructure to measure the concentration of radon easily and accurately in living space. The Ministry of Environment establishes comprehensive measures (2007 ~ 2012) It is true.

In order to effectively establish the national radon management measures, radon measurement should be performed nationwide. Therefore, the selection of the measurement location and number, the supply of measurement equipment, and the reliability of the measurement equipment and method should be secured.

On the other hand, the human body is exposed to artificial radiation (radiation generated from all products such as medical radiation, TV, fluorescent lamp, computer, electronic products, machinery, transportation means) generated from civilization in addition to natural radiation in daily life. Since the radiation has various effects on the human body, the International Atomic Energy Agency sets a recommendation level of 3 mSv (irradiation unit) per year, and accordingly, the allowable radiation safety guide limit is set in Korea so as not to expose more than 1 mSv per year.

The amount of exposure of the human body to radiation is accounted for by more than 50% of the effect of natural radiation, so the exposure of the alpha radiation by the radon gas contained in the air is specially controlled separately.

It is common to recommend that the concentration of radon in the atmosphere (air) be kept below 60-200 Bq / m3. There are slight differences among countries, but in Korea, the quality recommendation standard for indoor air is 4 pCi / L (148 Bq / m3).

In order to investigate the radon content of crust, soil and groundwater are used in a lot of groundwater. A method of collecting groundwater samples from bore holes and analyzing them using LSC (Liquid Scintillation Counter) 2). A method for analyzing groundwater radon gas that has been degassed from groundwater in an alfa cup in a well (a borehole and a synonym) (System and method for measuring radon gas for earthquake forecasting: Korean Patent Registration No. 10-0952657; ).

Analysis of radon content in groundwater gauges using water solubility, which is a characteristic of radon dissolving in water, is very useful for predicting underground resources (uranium, geothermal, petroleum) and geologic disasters (active faults, earthquakes, volcanic eruptions) .

1 is a functional block diagram of a radon concentration measuring apparatus according to an embodiment of the prior art.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings. In the following description, a packer 10 capable of contracting and expanding, a hose 30 connected to an upper portion of the packer 10, And an air pump 40 are included.

In the prior art, the packer 10 is disposed at an upper portion from the water surface of the borehole 102, and air is injected through the air pump 40 and the hose 30, so that the outer peripheral surface of the packer 10 is connected to the inner peripheral surface of the borehole 102 And the space S between the underground water surface and the packer 10 is sealed. Then, the radon gas is measured by the time-integrated radon concentration meter 200.

However, the prior art is a technology for detecting the radon concentration contained in the groundwater, and there is a problem that the radon concentration can not be measured in a specific space.

Korean Patent Laid-Open No. 10-2001-0103440 (Nov. 23, 2001, online radon concentration measurement system), which has partially improved such a problem, monitors on-line radon and radon daughter nuclide on a nuclear power plant and in an ordinary environment, A technique is known for an on-line radon concentration measuring system that accurately estimates an exposure dose by a natural radiation source to be received.

The improved prior art patent discloses a lagnon gas monitor (scintillator) which emits light generated by reaction with alpha particles generated by the collapse of lannan gas which is coated with ZnS on the inner wall through transparent glass, A detector for detecting the generated light by the photomultiplier tube and generating an electrical signal, a microcomputer for calculating and processing the electrical signal detected from the detector and storing it in a recording medium or outputting it to an external device, A liquid crystal display for visually displaying a signal, and an interface for communicating a signal output from the microcomputer, so that the radon concentration can be continuously measured, monitored and analyzed.

In addition, with the improved prior art, the Korean Patent Registration No. 10-0936298 (Jan. 14, 2010, method and apparatus for detecting the radon gas concentration) is capable of realizing low-cost real- A method of detecting the concentration of the radon gas continuously detecting the concentration of the radon gas in the reactor, and a technique relating to the apparatus are known.

An improved prior art patent discloses that the air in the atmosphere is pumped into the first proportional detection means through air pumping and the coefficient of the pulse due to the number of alpha particles of the radon gas collapsed in the air introduced into the first proportional detection means The number of alpha particles of the radon gas collapsing in the air introduced into the second proportional detecting means in which the alpha particle emission material is introduced and the air having passed through the first proportional detecting means is obtained and the alpha particle emission material collapses The second measured number which is the coefficient of the pulse by the number of alpha particles is obtained and the difference between the first measured number and the second measured number is calculated to detect the concentration of the radon gas in the atmosphere.

However, the conventional technique described above is a technique for measuring the radon concentration contained in the underground or ground water, and detects the concentration of the radon contained in the indoor air in the residential area including each home, The indoor air is ventilated, so that there is a problem that a pleasant residential space can not be created.

Therefore, it is necessary to develop a technology to create a comfortable living environment by ventilating the indoor air immediately with the outside air if the radon concentration is detected to be higher than the recommended value (acceptable value) in the indoor space including each home.

Korea Patent Registration No. 10-0952657 (2010. 04. 06.) 'Radon gas measurement system and method for earthquake forecasting' Korean Patent Publication No. 10-2001-0103440 (Nov. 23, 2001) 'Online Radon Concentration Measurement System' Korean Patent Application No. 10-2008-7006508 (Mar. 17, 2008) " Method and Apparatus for Improving Air Quality in a Closed Space " Korean Patent Registration No. 10-0936298 (Jan. 04, 2010) 'Method and apparatus for detecting radon gas concentration' Korean Patent Application No. 10-2010-0013301 (Feb. 12, 2010) "USN based indoor air quality monitoring and improvement system"

In order to solve the problems and necessities of the related art as described above, the present invention measures the radon concentration in a plurality of rooms formed in a residence space including each house (house) and measures the radon concentration And to provide a ventilation system and an operating method using an indoor radon concentration detection algorithm for ventilating with other rooms based on a detected value.

In order to achieve the above object, the ventilation system using the indoor radon concentration detection algorithm of the present invention records and stores an average pollution concentration detection value measured in each room of a residence space in an allocated memory area, If the value of the contamination concentration detected in real time is determined to be equal to or higher than the allowable value, it is ventilated until a value below the permissible value is detected. Unit to send to the state room residential ventilation; The pollution concentration frame of the unit size is connected to the unit residential ventilation unit via a public communication network, and the pollution concentration frame of the unit size is received and decoded to record and store the data in the allocated area as a big database. Database server; And a demanding authority server connected to the pollution concentration database server via a public communication network and confirming the concentration concentration distribution of the unit area over time; . ≪ / RTI >

The unit residential ventilation unit includes pollution concentration detection sensor means installed in a selected room in a residential space and detecting and measuring the concentration of pollution with respect to air within a radius of 10 meters and wirelessly transmitting the measured concentration to a specific counterpart designated in a beacon manner; And a controller configured to wirelessly connect to the contaminated concentration detecting sensor means in a beacon manner, receive and store the detected contamination concentration value in the allocated area, and if the detected contamination concentration value is higher than the reference value, A residential unit hub center that converts the pollutant concentration value recorded in a predetermined cycle unit and converts the pollutant concentration value into a contaminated concentration frame unit and transmits the pollution concentration frame unit to a designated remote site; . ≪ / RTI >

Wherein the residential unit hub center comprises a beacon residential wireless unit for real-time wireless connection with the contamination concentration detection sensor unit in a beacon system, receives a measured and measured contamination concentration value, and transmits a corresponding control command signal; And a control unit for controlling the operation of each functional unit constituting the residential unit hub center when the detected concentration value is greater than a permissible value and outputs a corresponding control signal for ventilation, A residential unit hub control unit for controlling and monitoring the state; A reference value unique information storage unit connected to the residential unit hub control unit and recording and storing unique information including the allowed value of pollution concentration and the address information of the residential unit according to the control signal; A pollution concentration table unit connected to the residential unit hub control unit and recording and storing the pollution concentration value and the detected time value detected in each room of the residential space by the corresponding control signal in the assigned area, respectively; A ventilation module unit connected to the residential unit hub control unit and driving one or more selected one or more selected one or more ventilation units provided by the control signal; A touch input / output unit connected to the residential unit hub control unit, displaying an operation state in an infant mode according to a corresponding control signal, and inputting a command signal assigned to a soft button selected by a touch; And a communication unit connected to the residential unit hub control unit and wirelessly connected to a specific counterpart by a corresponding control signal, . ≪ / RTI >

The contamination concentration includes a radon concentration, a temperature, a humidity, a fine dust concentration, a formaldehyde concentration, and a carbon dioxide concentration, which are detected in the surroundings of the room, and the unique information includes coordinate information, address information, . ≪ / RTI >

The contamination concentration frame is recorded in the contamination concentration detection value and has a format of 20 words. The unit of the word consists of 20 bytes, and the unit of bytes can be 20 bits.

In order to accomplish the above object, the method of operating the ventilation system using the indoor radon concentration detection algorithm of the present invention includes a unit indoor ventilation unit, a public communication network, a pollution concentration database server, and a demand server A method for operating a ventilation system, comprising: a first step of recording and storing unique information of a permissible value of a concentration of pollutants and an installation position in an assigned area by the unit residential ventilation unit; A second step of detecting and measuring the contamination concentration of air in the surrounding environment when the detection period time of the pollution concentration is determined by the unit residential ventilation unit and recording the pollution concentration in an allocated area; If the measured concentration value of the contaminated concentration measured by the unit residential ventilation unit is greater than the stored stored value, the ventilation module unit is turned on and ventilated to detect and measure the concentration of pollution in the surrounding air. A third step; If the measured concentration value of the contaminated concentration measured by the unit residential ventilation unit is smaller than the stored stored value, the ventilation module unit is turned off to stop the ventilation, and the contamination concentration of air in the surrounding environment is detected and measured, A fourth step of recording and storing; And a fifth step of converting the pollution concentration information recorded and recorded in the reporting cycle time unit specified by the unit residential ventilation unit into a pollution concentration frame and transmitting the pollution concentration frame to the pollution concentration data server. . ≪ / RTI >

The specified detection cycle time may be any one value selected from 1 second, 30 seconds, 1 minute, 5 minutes, 10 minutes, 30 minutes and 1 hour units. If the detection value is larger than the allowable value, And the specified reporting cycle time is any value selected from the group consisting of 6 hours, 12 hours, 1 day, 1 week, 5 months, 1 month, and the average value of the pollution concentration reported in the report cycle time of the present step If it is higher than the average value of the pollution concentration reported in the reporting cycle time of the previous step, the currently selected reporting cycle time can be changed to a faster time value.

According to the present invention having the above-described structure, the radon concentration of a plurality of rooms formed in a residence space is measured and the ventilation is performed with the other room based on the radon concentration detection value of the room measured with the highest radon concentration, It has the advantage of creating a residential environment.

1 is a functional block diagram of a radon concentration measuring apparatus according to an embodiment of the prior art,
FIG. 2 is a state explanatory view illustrating the flow of lagoon gas into a residential space or a building for the purpose of explaining the present invention;
FIG. 3 is an explanatory diagram illustrating a function of a ventilation system using an indoor radon concentration detection algorithm according to an embodiment of the present invention. FIG.
FIG. 4 is an explanatory diagram of an arrangement state of a unit residential ventilation unit according to an embodiment of the present invention;
FIG. 5 is a detailed functional configuration diagram of a unit residential ventilation unit according to an embodiment of the present invention;
FIG. 6 is an explanatory diagram of a field configuration state of a contamination concentration frame according to an embodiment of the present invention;
And
7 is a flowchart illustrating a method of operating a ventilation system using an indoor radon concentration detection algorithm according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention is capable of various modifications and various embodiments, and specific embodiments are illustrated in the drawings and will be described in detail in the detailed description. It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

In the following description, the permissible value and the reference value have the same meaning, and they are selectively used in accordance with the context.

FIG. 2 is a state explanatory view illustrating the inflow of lagoon gas into a residential space or a building for explaining the present invention. FIG. 3 is a diagram illustrating a function of a ventilation system using an indoor radon concentration detection algorithm according to an embodiment of the present invention FIG. 5 is a detailed structural diagram of the unit residential ventilation unit according to an embodiment of the present invention, and FIG. 6 is a sectional view of the unit residential ventilation unit according to an embodiment of the present invention. FIG. 7 is a flowchart illustrating a method of operating a ventilation system using an indoor radon concentration detection algorithm according to an embodiment of the present invention.

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

The radon, which is contained in the soil, is introduced through a gap in the residential space or the building that is in contact with the soil, and the corresponding radon concentration accounts for 85 to 97% of the indoor radon concentration. In addition, radon can be generated from radium (Ra-226) contained in building materials, and the concentration of radon in the indoor air is about 2 to 5%. On the other hand, when the groundwater is used indoors, the radon which is dissolved in the groundwater can be introduced into the room air. This state is well illustrated in detail in FIG.

A ventilation system 900 using an indoor radon concentration detection algorithm according to an embodiment of the present invention includes a unit residential ventilator 1000, a public communication network 2000, a pollution concentration database server 3000, a demand agency server 4000, .

The unit residential ventilation unit 1000 records and stores an average pollution concentration detection value measured in each room of the residential space in the allocated memory area, and judges that the pollution concentration value detected in real time in a specifically selected room is an allowable value or more The pollution concentration value and the unique information recorded in the specified period unit are converted into the pollution concentration frame of the unit size and transmitted to the designated specific state room.

The unit residential ventilation unit 1000 includes a contamination concentration detection sensor unit 1200 and a residential unit hub center 1400.

The contamination concentration detection sensor means 1200 detects and measures the concentration of pollution of air in a selected specific room of a residential space and within a radius of 10 meters and wirelessly transmits the measured concentration to a specific designated beacon. Here, the specific party may be the residential unit hub center 1400.

The contamination concentration detection sensor means 1200 detects and measures the contamination concentration of the surrounding air per specific detection cycle time unit by the corresponding control signal of the residential unit hub center 1400.

Here, the unit of a specific detection cycle time is a value selected from continuous time, 1 second, 30 seconds, 1 minute, 5 minutes, 10 minutes, 30 minutes, 1 hour unit, Of course.

The residential unit hub center 1400 is wirelessly connected to the contamination concentration detection sensor means 1200 in a beacon manner, receives and stores the detected contamination concentration value in the allocated area, and detects the contamination concentration value from the reference value The pollution concentration value recorded in the predetermined period unit is converted into the contamination concentration frame unit and transmitted to the designated counterpart at the remote site.

Here, beacon is a term used in the bluetooth field. IBeacon defined by Apple uses radio frequency (RF) of 2.4GHz band which is ISM band, and FLE (Find Me Profile) and PXP Proximity Profile). The beacon is a simple structure that calculates the proximity with the RSSI (Receive Signal Strength Indication), and enables battery operation with low power consumption. By way of example, the coin cell battery can operate for more than one year and the duration of operation can vary depending on the signal output and period. Therefore, the beacon does not require a separate operation power supply configuration and can be manufactured in a small size of a coin, so that it can be easily applied to a variety of indoor and outdoor environments. Positioning by beacon signal can be precise measurement with error level of about 5cm, and the signal reaching distance can be extended to the straight line distance of 50m according to the output setting.

Hereinafter, the beacon system will be described in the same meaning as the Bluetooth system.

The residential unit hub 1400 includes a beacon residential wireless unit 1410, a residential unit hub control unit 1420, a reference value unique information storage unit 1430, a contamination concentration table unit 1440, a ventilation module unit 1450, An input / output unit 1460, and a communication unit 1470.

The beacon housing radio unit 1410 real-time wirelessly connects with the contamination concentration detection sensor means 1200 in a beacon manner, receives the measured and measured contamination concentration value, and transmits a corresponding control command signal.

The residential unit hub controller 1420 is connected to the beacon residential wireless unit 1410 to receive and store the pollution concentration value in the allocated area and outputs a corresponding control signal for ventilation when the value is determined to be greater than the permissible value, Unit Controls and monitors the operation status of each function unit constituting the hub center.

The reference value specific information storage unit 1430 is connected to the residential unit hub control unit and records and stores unique information including the allowable value of the contamination concentration and the address information of the residential unit according to the corresponding control signal.

The pollution concentration includes the radon concentration, temperature, humidity, fine dust concentration, formaldehyde concentration, carbon dioxide concentration and air pressure detected in the vicinity of the room, and the unique information includes coordinate information, address information and room number information do.

The pollution concentration table unit 1440 is connected to the residential unit hub control unit and stores the pollution concentration value and the detected time value detected in each room of the residential space by the corresponding control signal in the allocated area, respectively.

The pollution concentration table portion 1440 includes a room 1 contamination concentration portion 1441, a room 2 contamination concentration portion 1442, a room 3 pollution concentration portion 1443, a kitchen pollution concentration portion 1444, a toilet pollution concentration portion 1445, A living room contamination concentration portion 1446, a balcony 1 contamination concentration portion 1447, and a balcony 2 contamination concentration portion 1448. [

The first contamination concentration section 1441 is a region in which the contamination concentration detection sensor 1200 is installed in the room 1 and the contamination concentration measured and detected from the air in the room 1 is stored and the contamination concentration detection section 1460 through the touch input / The data input from the sensor 1200 is input to the residential unit input unit control unit 1420 to record and store the data in the room 1 contamination concentration unit 1441, and the corresponding control of the residential unit input unit control unit 1420 .

The contamination concentration of the room 2 1442, the contamination concentration of the room 3 1443, the concentration of the kitchen contamination 1444, the concentration of the toilet contamination concentration 1445, the living room contamination concentration 1446, The pollution concentration detection unit 1200 and the touch input / output unit 1460 installed in the corresponding place can be controlled by the command signal inputted from the touch input / output unit 1460 and the corresponding control signal of the residential unit control unit 1420 The pollution concentration information detected at the corresponding position and the measured pollution concentration information are recorded and stored, respectively, so that redundant description will be omitted.

Here, the pollution concentration is defined as the radon concentration, temperature, humidity, fine dust concentration, formaldehyde concentration, carbon dioxide concentration, and air pressure values detected in the vicinity of the room.

The ventilation unit module 1450 is connected to the residential unit hub control unit and drives one or more selected one or more selected ones of the one or more ventilation units provided by the corresponding control signal.

The ventilating unit module 1450 includes a first external ventilator 1452 connected to one side of the residential space to discharge the air to the outside or to introduce fresh fresh air into the room, A second external ventilating unit 1454 which is a ventilating unit for ventilating indoor air to the outside or introducing external fresh air into the indoor space, and a second external ventilating unit 1454 installed inside the room to discharge the inside air to the outside, And an indoor ventilation unit 1456 which is a ventilation facility for introducing the air after the process.

The touch input / output unit 1460 is connected to the residential unit hub control unit 1420, and displays operation state information and operation result information according to the corresponding control signal in a UI (User Interface) A command signal assigned to a soft button selected by a touch is inputted and is well known, so that a further detailed description will be omitted.

The communication unit 1470 is connected to the residential unit hub control unit 1420. The communication unit 1470 is connected to the residential unit hub control unit 1420 and has a function of a TRS method, an Internet method, a wire telephone line method, and a mobile communication method by W- One or more selected functional units are concurrently operated and simultaneously communicated.

The residential unit hub control unit 1420 converts all the information stored in the contamination concentration table unit 1440 into a contamination concentration frame at a specified reporting period time. That is, since the pollution concentration frame records all information recorded and stored in the pollution concentration table portion 1440, it can be encrypted so as to restrict the unauthorized persons, institutions, and devices from hacking.

The residential unit hub control unit 1420 can extract each corresponding information data from the received pollution concentration frame. In the following description, the pollution concentration frame is encrypted or decrypted (decrypted) when the pollution concentration frame is transmitted or received It is very natural that it has the function, and it will not be duplicated.

The specifically designated reporting cycle time is any value selected from the group of 30 minutes, 1 hour, 3 hours, 6 hours, 12 hours, 1 day, 1 week, 1 week, 1 month, 1 month, and can be further added or subtracted as necessary.

The pollution concentration frame is detected and recorded, and the pollution concentration value recorded and recorded is recorded. The pollution concentration frame is composed of a frame format of 20 word units. The unit of word is 20 bytes (Byte) Is composed of 20 bits. The word, byte and bit are well known and will not be described in detail.

The public communication network 2000 is a communication network including a wired communication network, the Internet, an optical communication network, a wireless communication network, and a mobile communication network.

The pollution concentration database server 3000 is composed of a computer and is connected to the unit residential ventilator 1000 via the public communication network 2000. The pollution concentration database 300 receives and decodes a pollution concentration frame of a unit size and records the pollution concentration frame as a big database in an allocated area It provides classification analysis by unit area and time according to search request.

The pollution concentration database server 3000 analyzes the information recorded in the big database, so that the state of change of the pollution concentration is analyzed in the form of a distribution chart in units of year, season, month, week, and day for each region, And these functions are known by common statistical functions.

The pollution concentration database server (3000) can confirm the neighborhood where the living environment is comfortable and the living environment by using the contamination concentration map analyzed by the region, and it is very natural that such information can be utilized for the real estate transaction.

The demand agency server 4000 is connected to the pollution concentration database server 3000 via the public communication network 2000 and can check the pollution concentration distribution chart of the selected unit area over time. Such information may be provided for a fee or may be provided free of charge.

The demand agency server 4000 may include an institution, a group computer, or a personal computer used by an individual who needs the information.

The method for operating the ventilation system using the indoor radon concentration detection algorithm will be described in detail. The indoor radon 1000 including the indoor residential ventilator 1000, the public communication network 2000, the pollution concentration database server 3000 and the demand agency server 4000 In the operation method of the ventilation system using the concentration detection algorithm, the allowable value of the pollution concentration is recorded and stored by the unit residential ventilation unit (S2010), and the unique information of the installation location or the unit residential ventilation unit is recorded and stored in the allocated area (S2020).

 If it is determined that the detection cycle time has been specified to detect the contamination concentration by the unit residential ventilation unit (S2030), the concentration of pollution with respect to air in the surrounding environment is detected and measured in the unit time period and recorded and stored in the allocated area (S2040 ).

If it is determined that the contaminated concentration value detected by the unit residential ventilation unit is greater than the recorded allowable value (S2050), the ventilation unit module is controlled to be on and ventilated, And measures and stores the data in the allocated area (S2060).

If it is determined that the contamination concentration value detected by the unit residential ventilation unit is smaller than the recorded allowable value (S2070), the ventilation module unit is turned off to stop the ventilation, The detected and measured area is stored in the allocated area (S2080).

The unit residential ventilation unit converts the pollution concentration information recorded in the specified reporting cycle time unit into the pollution concentration frame, and transmits the pollution concentration frame to the pollution concentration data server (S2090). Although it has been described that the process is terminated here, it is quite natural that it can be repeated like an infinite orbit.

The specified detection cycle time is any one of 1 second, 30 seconds, 1 minute, 5 minutes, 10 minutes, 30 minutes and 1 hour unit. If the detection value is larger than the allowable value, And the specified reporting cycle time is any one value selected from 6 hours, 12 hours, 1 day, 1 week, 15 days, 1 month, and 1 month period unit, Is greater than the average value of the pollutant concentrations reported in the reporting cycle time of the current reporting cycle time, the currently selected reporting cycle time can be changed to a faster time value.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art.

900: Ventilation system using indoor radon concentration detection algorithm
1000: Unit Residential ventilation part 1200: Pollution concentration detection sensor
1400: Residential unit hub center 2000: Communication network
3000: Pollution concentration database server 4000: Demand agency server

Claims (7)

The specific values of the pollution concentration and the specific location of the installation location are stored in the assigned memory area and the pollution concentration of the surrounding air is detected according to the specified detection cycle time of the pollution concentration in each room unit of the residence space. And if it is judged that the contamination concentration value measured in real-time in the selected room is larger than the record-stored tolerance value, the ventilation module module is turned on and ventilated, and the pollution concentration The control unit controls the ventilation unit module to be turned off to stop the ventilation and to control the air pollution concentration of the surrounding environment And records and stores the data in the allocated memory area, Record unit stored residential ventilation unit for transmitting the contamination concentration values and unique information of the installation location to a contamination concentration data server converts the pollution levels of the frame unit size;
The pollution concentration frame of the unit size is connected to the unit residential ventilation unit via a public communication network, and the pollution concentration frame of the unit size is received and decoded to record and store the data in the allocated area as a big database. Database server; And
And a demand agency server which accesses the pollution concentration database server via the public communication network and confirms the concentration concentration distribution of the unit area over time.
The method according to claim 1,
The unit residential ventilation unit
A contamination concentration detection sensor means installed in a selected specific room of a residential space and detecting and measuring the concentration of pollution with respect to air within a radius of 10 meters and wirelessly transmitting the measured concentration to a specified counterpart designated by a beacon; And
The pollution concentration detection sensor means is wirelessly connected to the pollution concentration detection sensor means in a beacon manner, and the detected pollution concentration value is received and stored in the allocated area. If the detected pollution concentration value is higher than the reference value, A residential unit hub center for converting the pollutant concentration value recorded in a predetermined cycle unit, which is controlled and set, into a contaminated concentration frame unit and transmitting the pollutant concentration value to a designated remote site; A ventilation system using indoor radon concentration detection algorithm.
3. The method of claim 2,
The residential unit hub center
A beacon residential wireless unit for real-time wireless connection with the contamination concentration detection sensor means in a beacon manner and receiving a measured and measured contamination concentration value and transmitting a corresponding control command signal;
And a control unit for controlling the operation of each functional unit constituting the residential unit hub center when the detected concentration value is greater than a permissible value and outputs a corresponding control signal for ventilation, A residential unit hub control unit for controlling and monitoring the state;
A reference value unique information storage unit connected to the residential unit hub control unit and recording and storing unique information including the allowed value of pollution concentration and the address information of the residential unit according to the control signal;
A pollution concentration table unit connected to the residential unit hub control unit and recording and storing the pollution concentration value and the detected time value detected in each room of the residential space by the corresponding control signal in the assigned area, respectively;
A ventilation module unit connected to the residential unit hub control unit and driving one or more selected one or more selected one or more ventilation units provided by the control signal;
A touch input / output unit connected to the residential unit hub control unit, displaying an operation state in an infant mode according to a corresponding control signal, and inputting a command signal assigned to a soft button selected by a touch; And
A communication unit connected to the residential unit hub control unit and wirelessly connected to a specific counterpart by a corresponding control signal; A ventilation system using indoor radon concentration detection algorithm.
The method of claim 3,
The contamination concentration includes radon concentration, temperature, humidity, fine dust concentration, formaldehyde concentration, carbon dioxide concentration and air pressure detected in the surroundings of the room,
Wherein the unique information includes coordinate information of a living space, address information, and room number information.
The method according to claim 1,
Wherein the contamination concentration frame is recorded in a format of 20 words in which the detected contamination concentration value is recorded, the unit of the word is 20 bytes, the unit of bytes is 20 bits,
The specified detection cycle time may be any one value selected from 1 second, 30 seconds, 1 minute, 5 minutes, 10 minutes, 30 minutes and 1 hour units. If the detection value is larger than the allowable value, Time value,
The specified reporting cycle time may be any one of 6 hours, 12 hours, 1 day, 1 week, 1 week, 1 month, and 1 month, and the average value of the concentration of pollutants reported in the reporting cycle time of the current stage is the reporting cycle time Wherein the currently selected reporting cycle time is changed to a faster time value if the measured concentration value is higher than the average value of the pollution concentration reported in the ventilation system.
1. A method for operating a ventilation system using an indoor radon concentration detection algorithm including a unit residential ventilation unit, a public communication network, a pollution concentration database server and a demand agency server,
A first step of recording and storing the permissible value of the pollution concentration and the unique information of the installation position in the allocated area by the unit residential ventilation unit;
A second step of detecting and measuring the contamination concentration of air in the surrounding environment when the detection period time of the pollution concentration is determined by the unit residential ventilation unit and recording the pollution concentration in an allocated area;
If the measured concentration value of the contaminated concentration measured by the unit residential ventilation unit is greater than the stored stored value, the ventilation module unit is turned on and ventilated to detect and measure the concentration of pollution in the surrounding air. A third step;
If the measured concentration value of the contaminated concentration measured by the unit residential ventilation unit is smaller than the stored stored value, the ventilation module unit is turned off to stop the ventilation, and the contamination concentration of air in the surrounding environment is detected and measured, A fourth step of recording and storing; And
A fifth step of converting the pollution concentration information recorded and recorded in the reporting cycle time unit specified by the unit residential ventilation unit into a pollution concentration frame and transmitting the pollution concentration frame to the pollution concentration data server; A method of operating a ventilation system using an indoor radon concentration detection algorithm.
The method according to claim 6,
The specified detection cycle time may be any one value selected from 1 second, 30 seconds, 1 minute, 5 minutes, 10 minutes, 30 minutes and 1 hour units. If the detection value is larger than the allowable value, Time value,
The specified reporting cycle time may be any one of 6 hours, 12 hours, 1 day, 1 week, 1 week, 1 month, and 1 month, and the average value of the concentration of pollutants reported in the reporting cycle time of the current stage is the reporting cycle time Wherein the currently selected reporting cycle time is changed to a faster time value if the pollution concentration average value is higher than the reported air pollution concentration average value.

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