KR20190102731A - Air quality improvement system and air quality improvement method using the gateway for envirunment care - Google Patents

Abstract

The present invention relates to an air quality improvement system and method for the same using a gateway for environment care, which measure the air quality in an indoor space, drive an improvement apparatus in accordance with the measured status of air quality to improve the air quality and create a pleasant indoor environment. To this end, the air quality improvement system using the gateway for environment care comprises: one or more sensor apparatuses which measure the air quality in the indoor space to generate a sensing information; a monitoring apparatus which monitors the air quality in the indoor space based on the sensing information, and, when the monitored information is the same as or higher than a pre-set driving information, generates a driving signal; an improvement apparatus circulates the air in the indoor space in accordance with the driving signal, and, when the sensing information or circulation information on the circulated air in the indoor space is the same as or less than a pre-set improvement information, stops the air circulation in the indoor space; and the gateway on which the sensor apparatuses, monitoring apparatus, and improvement apparatus are connected to communicate with each other.

Description

AIR QUALITY IMPROVEMENT SYSTEM AND AIR QUALITY IMPROVEMENT METHOD USING THE GATEWAY FOR ENVIRUNMENT CARE}

The present invention relates to an air quality improvement system and an air quality improvement method using a gateway for environmental care, and more particularly, to measure air quality in an indoor space, and to improve air quality by driving an improvement device according to the measured air quality. The present invention relates to an air quality improvement system and an air quality improvement method using an environmental care gateway to create an indoor environment.

Clean air is a prerequisite to improving the quality of life, and the demand for air purifiers to improve indoor air quality is increasing rapidly. An air purifier is a device that purifies toxic substances such as odors, volatile organic compounds (VOCs), tobacco smoke, and (fine) dust contained in the air and converts them into fresh air.

The air purifier may be classified into a filter method, an electric dust collection method, a water filter method, and a complex method according to the air purification method. Filter type air purifiers have the advantage of excellent dust collection and purification performance by utilizing a plurality of filters (HEPA, ULPA, gas filter, HAF electrostatic antibacterial filter, etc.) such as nonwoven fabric, but need periodic cleaning and filter replacement As a result, additional management costs are incurred. The electrostatic precipitating air purifier can be used semi-permanently by generating a high voltage inside the device and collecting harmful substances by the static electricity, but has the disadvantage of requiring periodic cleaning and relatively low purifying ability. Recently developed and commercialized water filter type air purifier has the advantage of being semi-permanent by purifying the air by precipitating harmful substances in the air by using the adsorption power of water, but the periodic cleaning and It has the disadvantage of having to manage (put disinfectant).

Republic of Korea Patent Application Publication No. 2018-0007033 (Invention name: Indoor air quality improvement system and method, published Jan. 22, 2018)

An object of the present invention is to solve the conventional problems, to measure the air quality in the indoor space, and to improve the air quality by driving the improvement device according to the state of the measured air quality, the gateway for environmental care to create a comfortable indoor environment The present invention provides an air quality improvement system and an air quality improvement method.

According to a preferred embodiment for achieving the above object of the present invention, the air quality improvement system using the environmental care gateway according to the present invention comprises at least one sensor device for generating the sensing information by measuring the air quality of the indoor space; A monitoring device for monitoring an air quality of an indoor space based on the sensing information, and generating a driving signal when the monitored sensing information is equal to or larger than preset driving information; An improvement device for circulating the air in the indoor space according to the driving signal, and stopping the air circulation in the indoor space when the sensing information or the circulation information about the air in the circulated indoor space is equal to or smaller than a preset improvement information; And the sensor device, the monitoring device, and the improvement device are connected to each other, and transmit information of the sensor device to the improvement device and the monitoring device, or transfer information of the improvement device to the monitoring device. And a gateway for transmitting information of the monitoring device to the sensor device and the improvement device.

Here, the sensor device, the sensor power supply to which power is applied; A sensor tag in which a sensor code of the sensor device is embedded; A sensor communication unit configured to wirelessly communicate the sensing information with the sensor code and communicate with the outside; A sensor for measuring the air in an indoor space to generate the sensing information; A sensor display unit displaying a connection state of the sensor power supply unit, a communication state of the sensor communication unit, and an operation state of the detection sensor; And a sensor controller for controlling operations of the sensor communication unit, the detection sensor, and the sensor display unit.

Here, the improvement device, the base configured to discharge air from the inlet hole formed in the upper center to be discharged to the outlet formed on the lower side; A blowing fan built in the base to discharge air introduced from the inlet to the outlet; An ultraviolet generating unit which extends in a vertical direction on the upper side of the inlet to emit ultraviolet rays of a predetermined wavelength; A hollow housing into which the ultraviolet generating unit is inserted, a first through-hole formed to penetrate air from the outside to the inside, and a first filter unit having a photocatalyst coating layer that reacts with the ultraviolet rays to generate ozone and hydroxide radicals; A second filter part which is a hollow enclosure into which the first filter part is inserted and removes foreign substances from air introduced from the outside to the inside; A case having a hollow housing into which the second filter part is inserted such that a flow part is provided to the outside of the second filter part, and the base coupled to a lower end thereof; And a cover coupled to an upper end of the case and having a suction port communicating with the flow unit so that air in the indoor space is introduced.

Here, the improvement device, the input sensor module for measuring the air quality flowing through the inlet; And an output sensor module measuring air quality discharged through the discharge port. At least any one of the more.

Here, the improvement device, the controller is provided in the cover for controlling the operation of the blowing fan and the ultraviolet generating unit; And a vortex generating unit for turning the air flowing through the suction port in the flow section along the circumference of the case; At least any one of the more.

Here, the improvement device, an air conditioner for cooling the air in the indoor space; Heating means for heating air in the indoor space; Humidification means for controlling the humidity of the indoor space to the air; Opening and closing means for opening and closing a window partitioning the indoor and outdoor; Ventilation means for discharging the air of the indoor space, supply the outdoor air to the indoor space or exchange the indoor air and the outdoor air; And fire fighting means for extinguishing the fire in the indoor space or notifying the fire of the indoor space. At least any one of the more.

Here, the monitoring device is a portable terminal that communicates with the gateway and is portable; And a management server that communicates with the gateway and is not portable. Characterized in that it comprises at least one of

Air quality improvement method using the environmental care gateway according to the present invention is a method for improving the air quality of the indoor space based on the sensing information described in the above-described air quality improvement system, the sensor code of the sensor device and the improvement code of the improvement device A device registration step of registering the sensor device and the improvement device with the monitoring device in correspondence to a unit indoor space by using; A data setting step of generating request information based on a measurement period of the sensor device; A data request step of requesting the corresponding sensor device for the request information generated through the data setting step; A sensor driving step of operating the sensor device to obtain the sensing information based on the request information transmitted through the data request step; An information analyzing step of monitoring an air quality of an indoor space based on the sensing information acquired through the sensor driving step, and generating the driving signal when the monitored sensing information is equal to or larger than preset driving information; And circulating the air in the indoor space according to the driving signal, and stopping the air circulation in the indoor space when the sensing information or the circulation information about the air in the circulating indoor space is equal to or smaller than a preset improvement information. It includes;

The sensor driving step may include: a request confirmation step of checking request information transmitted through the data request step; A request sensing step of operating the sensor device in response to the request information transmitted through the data request step; A terminal checking step of checking a communication state between the sensor device and the monitoring device; And a sensor checking step of checking a power state of the sensor device and an operating state of the sensor device.

Here, the information analysis step, the request storage step of storing the sensing information obtained through the sensor driving step; A sensor identification step of sorting the sensing information for each sensor code of the sensor device; A monitoring step of visually displaying the sensing information corresponding to the sensor code; And a state checking step of checking the sensing information on the basis of preset driving information.

According to the air quality improvement system and the air quality improvement method using the environmental care gateway according to the present invention, the air quality is measured in the indoor space, and the air quality is improved by driving the improvement device according to the measured air quality. can do.

In addition, the present invention can easily obtain the sensor code of the sensor device and the improvement code of the improvement device, it is possible to stably register the sensor device and the improvement device to the monitoring device.

In addition, the present invention can stabilize the wireless communication between the sensor device, the improvement device and the monitoring device, and can clearly monitor the sensing information.

In addition, the present invention is stable in the state check of the sensor device, the user can check in real time about the contamination and dangerous situation of the indoor space.

In addition, the present invention can stabilize the power applied to each device, and solve the problem that the sensor device is stopped.

In addition, the present invention can stably improve the air quality through the improvement device, while adsorbing foreign matter in the air, while purifying air such as odor, bacteria cleaning oxidation, etc., it is possible to comfortably maintain the air in the indoor space.

In addition, the present invention generates a swirl flow in the air flowing through the inlet port to allow the air to pass evenly through each filter portion, and to enable rapid air purification.

In addition, the present invention can simplify the maintenance of the first filter unit and the second filter unit, and can improve the air purification ability.

In addition, the present invention establishes a maintenance plan for the improvement device, and allows the corresponding improvement device disposed in the indoor space to stably improve the air quality.

In addition, the present invention can contact the user in accordance with the sensing information to inform the response to the air quality, and in connection with the control center in the emergency situation, it is possible to provide the user with an optimal customized service.

In addition, the present invention can provide convenience and reliability because the sensing information is intelligently collected, stored, and analyzed through a monitoring device to provide a customized service. In addition, when collecting a lot of sensing information for a long time, it is possible to build a big data service. In addition, when a large amount of continuous sensing information is collected, various statistical big data services may be performed.

1 is a block diagram showing an air quality improvement system using a gateway for environmental care according to an embodiment of the present invention.
Figure 2 is a block diagram showing a sensor device in the air quality improvement system using a gateway for environmental care according to an embodiment of the present invention.
3 is a block diagram illustrating a sensor controller in the sensor device of FIG. 2.
Figure 4 is a cross-sectional view showing an example of the improvement device in the air quality improvement system using a gateway for environmental care according to an embodiment of the present invention.
FIG. 5 is a block diagram illustrating a controller in the improvement device of FIG. 4.
6 is a block diagram illustrating a method for improving air quality using a gateway for environmental care according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the air quality improvement system and air quality improvement method using a gateway for environmental care according to the present invention. At this time, the present invention is not limited or limited by the embodiment. In addition, in describing the present invention, a detailed description of known functions or configurations may be omitted to clarify the gist of the present invention.

With reference to Figures 1 to 5, it will be described with respect to the air quality improvement system using a catwalk for environmental care according to an embodiment of the present invention.

For each communication described below, wireless communication may be performed through various known forms such as short-range communication, Wi-Fi, Bluetooth, 3G, and LTE. For example, between the sensor device 10, the gateway 20, the improvement device 50, and the mobile terminal 31 in a unit indoor space, direct control through a wired connection or control via a Bluetooth method is enabled. Correspondence between the gateway 20 and the management server 32 or between the mobile terminal 31 and the management server 32 by using a wireless communication such as Wi-Fi or 3G or LTE in order to prevent communication can do.

The air quality improvement system using the catwalk for environmental care according to an embodiment of the present invention may include a sensor device 10, a monitoring device 30, an improvement device 50, and a gateway 20.

At least one sensor device 10 is provided in an indoor space. The sensor device 10 generates sensing information by measuring the air quality of the indoor space. Here, the indoor space may include an indoor space of living facilities such as a kindergarten, a school, a house, an office, a study room, and the like. In addition, the interior space may include the inside of the vehicle.

In addition, when the user is included in the indoor space, the sensor device 10 may be integrally formed with the patch detachable to the user's skin or may be carried by the user. When the sensor device 10 is provided to the user, the sensor 17 included in the sensor device 10 may measure biometric information such as body temperature, pulse rate, blood pressure, odor of the human body, skin humidity, electrocardiogram, and the like.

The sensor device 10 may exhibit various forms known according to whether it is attached to a human body, attached to clothes, attached to an object, disposable, or recyclable.

The sensor device 10 may include at least one of one or more first sensor modules 101 independently installed in an indoor space, and one or more second sensor modules 102 installed in the improvement device 50. have.

The sensor device 10 includes a sensor power supply unit 11 to which power is applied, a sensor tag 13 in which a sensor code of the sensor device 10 is embedded, wireless transmission of sensing information and sensor codes, and mutual communication with the outside. The sensor communication unit 12 to be carried out, the detection sensor 17 for measuring the air in the indoor space to generate the sensing information, the connection state of the sensor power supply unit 11 and the communication state of the sensor communication unit 12 and the detection sensor 17 Sensor display unit 14 to display the operation state of the sensor, the sensor communication unit 12, the sensor 17 and the sensor controller 15 for controlling the operation of the sensor display unit 14 may be included.

One or more detection sensors 17 may be provided to measure various types of air quality at once. The sensor 17 for measuring the air quality of the indoor space includes the temperature of the indoor space, the humidity of the indoor space, the (fine) dust of the indoor space, the smell of the indoor space, the volatile organic compounds of the indoor space, the carbon dioxide of the indoor space, and the indoor space. Carbon monoxide in the space, oxygen in the room can be detected.

The sensor control unit 15 includes a request confirmation unit 151 for checking data request for the measurement information according to the monitoring sensor 17 and a measurement cycle of the corresponding measurement information, and a terminal confirmation unit for checking a communication state with the outside ( 152, a data storage unit 153 storing sensing information, and a sensor checking unit 154 that checks a power state of the sensor device 10 and an operating state of the sensor device 10.

Then, in order to improve the air quality, the terminal checking unit 152 checks the mutual communication state with the monitoring device 30 and monitors the sensing information as the communication between the sensor device 10 and the monitoring device 30 is maintained. ) Can be sent.

At this time, when the communication between the sensor device 10 and the monitoring device 30 is lost or weaker than a predetermined strength, the sensing information is stored in the data storage unit 153 and then the sensor device 10 and the monitoring device 30. When the communication resumes, the sensing information of the data storage unit 153 is transmitted to the monitoring device 30 to secure the space of the data storage unit 153, and the sensing information can be easily sorted in chronological order.

In addition, when the communication between the sensor device 10 and the monitoring device 30 is lost or weaker than the predetermined strength, the sensor device 10 is displayed on the sensor device 10 according to the preset sensor value. In other words, it is possible to check the situation according to the sensing information in the sensor device 10 itself without communication with the monitoring device 30.

The sensor display unit 14 may describe the vibration, sound, color, etc. according to the service application. The sensor display unit 14 may be set to react according to the sensing information. When the sensing information is out of the preset sensor value, the sensor display unit 14 of the sensor device 10 may inform the situation according to the sensing information by numbers, light colors (LEDs), vibrations, and sounds (voices). For example, if the sensing temperature is higher than the preset temperature, the sensor display unit 14 may be displayed in red, and if the sensing temperature is equal to or lower than the preset temperature, the sensor display unit 14 may be displayed in green.

The preset sensor value may be input through the monitoring device 30 in a communication state between the sensor device 10 and the monitoring device 30. For example, the preset sensor value can be set in the program of the management server 32 or in the program (user app) of the mobile terminal 31, so that the user quickly checks the situation according to the sensing information for the desired sensor value can do. That is, it is possible to make a customized sensor device 10 for the user's convenience.

In addition, the sensor controller 15 may further include a sensor switch 16. The sensor switch 16 may stabilize power and communication states input from the outside by switching power input from the sensor power supply unit 11.

The monitoring device 30 monitors the air quality of the indoor space based on the sensing information. The monitoring device 30 generates a driving signal when the monitored sensing information is equal to or larger than the predetermined driving information. The monitoring device 30 may monitor the air quality of the indoor space by collecting the sensing information by communicating with the gateway 20 to be described later.

The monitoring device 30 may include at least one of a portable terminal 31 that is portable and a management server 32 that is not portable. When the monitoring device 30 includes both the mobile terminal 31 and the management server 32, communication between the mobile terminal 31 and the management server 32 is also possible.

Although not shown, the monitoring device 30 includes a monitoring communication unit (not shown) for mutual communication with the gateway 20 to be described later, and device information transmitted from the sensor device 10 corresponding to the unit indoor space (sensor device 10). Power supply status, communication state with the sensor device 10, sensing information of the sensor device 10, display information of the sensor display unit 14) and device information transmitted from the improvement device 50 (improvement) Device information storage unit (not shown) that stores the power state of the device 50, the communication state with the improvement device 50, the driving state of the improvement device 50, and the filtering information of the improvement device 50 may be stored. And a device register (not shown) in which the sensor device 10 and the improvement device 50 are registered according to the unit indoor space by using the sensor code of the sensor device 10 and the improvement code of the improvement device 50. Data setting for setting the operation of the sensor device 10 in response to the device information of the sensor device 10 May include (not shown) and, for monitoring the air quality of the indoor space to receive based on (which may include device information) sensed information analysis device (not shown).

The device registration unit may include a program associated with the sensor device 10 and a device matching unit. The device matching unit may match the sensor code of the sensor device 10 with the improvement code of the improvement device 50 and register it on the program.

The data setting unit may limit the operation of the sensor device 10 by setting the operation of the sensor device 10 in response to the device information. In addition, the data setting unit may generate request information for requesting the operation of the sensor device 10.

The device analyzing unit includes a sensor identification unit for matching and sorting the sensing information, the sensor code, and the improvement code according to the sensor device 10 for each unit space according to the sensor code corresponding to the sensing information. The sensing information is matched and sorted in chronological order, and this data is stably stored in the device information storage unit. In addition, the device analysis unit includes a monitoring unit for displaying the sensor code and the sensing information corresponding to the improvement code, the user can monitor the operation of the sensor device 10 and the improvement device 50 in real time. In addition, the device analysis unit includes a state check unit for checking the sensing information based on the predetermined driving information, thereby quickly notifying the user of the error of the sensor device 10 and the improvement device 50. If the sensing information is equal to or larger than the preset driving information, the status checking unit generates a driving signal. The driving signal is transmitted to the improvement device 50 through the gateway 20, thereby driving the improvement device 50 in response to poor air quality.

The improvement device 50 circulates air in the indoor space according to the driving signal transmitted from the monitoring device 30. The improvement device 50 stops the air circulation in the indoor space when the sensing information or the circulation information on the air in the indoor space circulated is equal to or smaller than the preset improvement information.

The refiner 50 may include an air purifier to purify the air.

Accordingly, the improvement device includes a base 51 configured to discharge air from the inlet 511 formed at the upper center and discharged to the outlet 512 formed at the lower side thereof, and built into the base 51 to be introduced from the inlet 511. A blower fan 52 for discharging air to the discharge port 512, an ultraviolet generator 53 extending longer in the vertical direction above the inlet 511 to emit ultraviolet rays of a predetermined wavelength, and an ultraviolet generator 53 ) Of the first filter part 54 made of a hollow housing into which the hollow filter is inserted, the second filter part 55 made of the hollow housing into which the first filter part 54 is inserted, and the second filter part 55 It may include a case 56 made of a hollow housing into which the second filter part is inserted so that the flow part 561 is provided to the outside, and a cover 57 coupled to the upper end of the case 56.

Here, a through hole 541 is formed in the first filter part 54 so that air flows from the outside to the inside, and the surface of the first filter part 54 reacts with a ceramic coating layer and ultraviolet rays to react with ozone and hydroxide radicals. The photocatalyst coating layer is then formed.

In addition, the second filter unit 55 may remove foreign substances in the air introduced from the outside to the inside.

In addition, the base 51 is coupled to the lower end of the case 56.

In addition, the cover 57 may be formed with a suction port 571 communicating with the flow part 561 so that air in the indoor space flows therein, and the suction port 571 may be provided with an inflow preventing part for preventing the inflow of foreign substances. Through the inflow prevention unit, a material having a relatively large volume, such as an article used in daily life, may be prevented from entering the intake port.

In addition, the cover 57 facilitates the maintenance of the ultraviolet generating unit 53 through the detachable coupling with the case 56, and facilitates the replacement of the first filter unit 54 and the second filter unit 55. Can be.

Like the sensor display unit 14, the improved display unit 594 may be described in terms of vibration, sound, color, etc. according to the service application.

In addition, the improvement control unit 595 may further include an improvement switch 596. The improvement switch 596 may stabilize power and communication states input from the outside by switching power input from the improvement power supply unit 591.

The improvement device 50 may include at least one of an input sensor module 501 for measuring air quality introduced through the inlet 571 and an output sensor module 502 for measuring air quality discharged through the outlet 512. It may further include. The input sensor module 501 or the output sensor module 502 may include the sensor device 10 described above. In this case, the sensor power supply unit 11 of the sensor device 10 is included in the improvement power supply unit 591, the sensor communication unit 12 is included in the improvement communication unit 592, and the sensor display unit 14 is connected to the improvement display unit 594. Sensor switch 16 may be included in the retrofit switch 596.

Then, the driving of the improvement device 50 is stopped through the error generated between the sensing information of the input sensor module 501 and the sensing information of the output sensor module 502, or the maintenance time of the ultraviolet generating unit 53, The replacement time of the first filter unit 54 or the second filter unit 55 may be predicted.

The improvement device may further include a controller 59 provided in the cover 57 to control the operation of the blower fan 52 and the ultraviolet ray generator 53.

In addition, the controller 59 includes an improved power supply unit 591 to which power is applied, an improvement tag 593 in which an improvement code of the improvement device 50 is embedded, and drive information and improvement codes of the improvement device 50 are wirelessly transmitted. And the connected state of the improved communication unit 592 and the improved power supply unit 591, the communication state of the improved communication unit 592, and the operating states of the blower fan 52 and the ultraviolet ray generator 53. The improvement display unit 594, the improvement communication unit 592, the blower fan 52, the UV generation unit 53, and the improvement control unit 595 for controlling the operation of the improvement display unit 594 may be included.

The improvement device 50 may further include a vortex generating unit 58 for turning the air flowing through the suction port 571 from the flow unit 561 along the circumference of the case 56.

The vortex generating unit 58 includes a derivative 581 provided in the flow section 561 in a spiral shape to form a flow path for inducing swirl flow of air, and the derivative 581 is a flow part so that the height of the flow path is changed. The driving unit 582 may elastically deform the derivative 581 to extend or contract in the height direction of the 561.

Although not shown, the improvement device 50 includes an air conditioner for cooling the air in the indoor space in response to the improvement of the air quality of the indoor space, a heating means for heating the air in the indoor space, and a humidification for adjusting the humidity of the air in the indoor space. Means; opening and closing means for opening and closing windows for partitioning the interior and exterior; ventilation means for releasing the air in the indoor space, supplying outdoor air to the indoor space, or exchanging indoor and outdoor air; and fire in the indoor space. It may further include at least any one of the fire fighting means for suppressing the fire or indoor fire.

The gateway 20 is connected so that the sensor device 10, the monitoring device 30, and the improvement device 50 communicate with each other. The gateway 20 transmits the information of the sensor device 10 to the improvement device 50 and the monitoring device 30, transfers the information of the improvement device 50 to the monitoring device 30, or the monitoring device 30. Information may be transmitted to the sensor device 10 and the improvement device 50.

Here, reference numeral 40 denotes a control center such as a fire station or a medical institution where a dangerous situation is transmitted according to the air quality.

For example, the sensor device 10 may generate sensing information at a predetermined measurement period, such as at 10 second intervals and 5 second intervals, and transmit the generated sensing information to the monitoring apparatus 30 in real time via the gateway 20. have. In addition, the monitoring device 30 may analyze the sensing information in consideration of the external environment of the unit indoor space in addition to the sensing information, and predict the situation information on the unit indoor space.

In addition, the monitoring device 30 compares the sensing information with the preset driving information, and when the sensing information outside the safe air quality state is equal to or larger than the preset driving information, a dangerous situation is propagated, and the improvement device 50 is To be driven. In addition, the predetermined driving information is divided into a plurality of ranges, and according to each range, a high risk range in which the air quality is very dangerous, a bad range in which the air quality is dangerous, a slightly dangerous improvement range of the air quality, a normal range in which the air quality is normal, Air quality can be classified into good safety range. Accordingly, it is possible to improve the accuracy for improving the air quality.

For example, it is possible to prevent the fire by measuring the air quality. In this case, the sensor device 10 measures the temperature, humidity, and dust of the indoor space as a basis and analyzes it through the monitoring device 30 to inform the user of the fire prediction situation, and to drive the improvement device 50 in the corresponding indoor space. Determine whether or not, and check the indoor space.

As another example, air quality can be measured to prevent drowsiness. In this case, the sensor device 10 measures the temperature, humidity, and carbon dioxide of the indoor space as a basis and analyzes it through the monitoring device 30 to inform the user of the sleepiness prediction situation and to drive the improvement device 50 in the corresponding indoor space. Determine whether or not, and check the indoor space. At this time, the sensor device 10 is also provided to the user, it is possible to determine whether or not sleepiness by adding bio information generated from the human body.

As another example, the air quality of the indoor space may be controlled by measuring the air quality. At this time, the sensor device 10 by measuring the temperature, humidity, dust, odor of the indoor space as a basic analysis through the monitoring device 30, to inform the user of the air quality of the indoor space, and improve the device ( 50) determine whether to drive, and to check the interior space.

Now, with reference to FIGS. 1 to 5 and 6 will be described a method for improving air quality using a gateway for environmental care according to an embodiment of the present invention.

Air quality improvement method using the environmental care gateway according to an embodiment of the present invention to improve the air quality of the indoor space based on the sensing information using the air quality improvement system using the environmental care gateway according to an embodiment of the present invention. Can be.

Air quality improvement method using the environmental care gateway according to an embodiment of the present invention is to be carried out by the interlocking operation of the sensor device 10, the monitoring device 30, the improvement device 50, the gateway 20 Can be.

Air quality improvement method using the gateway for environmental care according to an embodiment of the present invention by using the sensor code of the sensor device 10 and the improved code of the improvement device 50 in response to the sensor device 10 and the unit indoor space; Device registration step (S1) for registering the improvement device 50 to the monitoring device 30, a data setting step (S2) for generating the request information based on the measurement period of the sensor device 10, and a data setting step ( The sensor device 10 so that the sensing information is acquired based on the data request step S3 for requesting the request information generated through S2 to the sensor device 10 and the request information transmitted through the data request step S3. Monitoring the air quality of the indoor space based on the sensor driving step (S4) and the sensing information obtained through the sensor driving step (S4), and if the monitored sensing information is equal to or greater than the preset driving information, the driving signal. Information analysis System may include improving the driving stage (S6) for circulating the air in the interior space according to (S5), and a driving signal.

Here, the improvement driving step S6 may stop the air circulation in the indoor space when the sensing information or the circulation information on the air in the circulated indoor space is equal to or smaller than the preset improvement information.

Device registration step (S1) is connected to the sensor installation step (S1-1) for activating the sensor device 10, the improvement installation step (S1-2) for activating the improvement device 50, and the monitoring device 30 App driving step (S1-3) for driving the program to be, the sensor code transmission step (S1-4) for receiving the sensor code from the sensor device 10, and the improvement code for receiving the improvement code from the improvement device 50 It may include a transmission step (S1-5), and a device matching step (S1-6) for matching the sensor code and the improvement code to register in the program corresponding to the unit indoor space.

In the device matching step (S1-6), the sensor code and the improvement code matched to the unit indoor space are stored in the device information storage unit.

 The sensor driving step S4 includes a request confirmation step S41 for checking request information transmitted through the data request step S3 and a sensor device 10 in response to the request information transmitted through the data request step S3. The request sensing step (S42) is operated, the terminal confirmation step (S43) for checking the communication state between the sensor device 10 and the monitoring device 30 via the gateway 20 and the sensor device 10 of It may include a sensor check step (S46) for checking the power state and the operating state of the sensor device 10. Here, the order confirmation step (S41), the terminal confirmation step (S43), and the sensor confirmation step (S46) does not limit the order, it is to be carried out at the same time through the sensor control unit 15 of the sensor device 10. Can be.

First, when the request information is received as a result of the request confirmation step S41, the request sensing step S42 is performed.

In addition, if the request information is not received as a result of the request confirmation step S41, the request information may be continuously received or the request sensing step S42 may be performed based on the request information preset in the sensor device 10. .

Second, if the communication status is normal as a result of the terminal confirmation step (S43), the request transmission step (S44) for transmitting the sensing information of the sensor device 10 corresponding to the request information to the outside (for example, the monitoring device) It may include. In the request transmission step S44, the sensing information stored in the data storage unit 153 may also be transmitted to the outside. In the request transmission step (S44), once the sensing information of the data storage unit 153 is transmitted, the storage space of the data can be secured by deleting the transmitted data, thereby reducing the capacity of the data storage unit 153.

In addition, if the communication status is bad as a result of the terminal confirmation step (S43), it is possible to perform a data storage step (S45) for storing the sensing information of the sensor device 10 corresponding to the request information. In the data storage step S45, the communication failure may be displayed through the sensor display unit 14. In addition, in the data storage step (S45) it can transmit a communication failure matter to the sensor check step (S46).

Third, if the sensor device 10 is normal as a result of the sensor checking step S46, the sensor device 10 may perform the sensor normal step S47 for displaying the normal state on the sensor display unit 14. After the sensor normal step (S47), it may return to the data request step (S3) or request confirmation step (S41) corresponding to the measurement cycle.

In addition, as a result of the sensor checking step S46, if the sensor device 10 is defective, the sensor device 10 may perform a sensor dangerous step S48 of displaying a defective state on the sensor display unit 14. In addition, in the sensor danger step (S48) it may be transmitted to the outside (defect state step (56) described later) of the defects of the sensor device 10.

Sensor driving step (S4) is to be repeated in response to the transmitted request information.

The information analysis step (S5) is a request storage step (S51) for storing the sensing information obtained through the sensor driving step (S4), and the sensor identification step (S52) to align the sensing information for each sensor code of the sensor device 10 (S52). And a monitoring step (S53) for visually displaying the sensing information corresponding to the sensor code, and a state checking step (S54) for checking the sensing information based on the preset driving information.

The sensing information stored in the request storage step S51 is updated based on the alignment through the sensor identification step S52.

In this case, when the sensing information is smaller than the predetermined driving information as a result of the status checking step S54, it is determined to be normal and includes a status normal step S55 indicating that the information displayed in the monitoring step S53 is normal. Can be.

In addition, as a result of the status check step (S54), if the sensing information is equal to or larger than the predetermined drive information, it is determined that the bad, and includes a state dangerous step (S56) indicating that the information displayed in the monitoring step (S53) is bad. can do. In the state dangerous step (S56), a driving signal for driving the corresponding improvement device is generated. After the state dangerous step (S56) may include a center transmission step (S7) to notify the fire department, medical institutions, users about the information on the unit indoor space according to the air quality of the indoor space is poor. In addition, after the state dangerous step (S56) may include a drive signal transmission step (S56-1) for transmitting a drive signal to the improvement device 50.

The information analysis step S5 may be repeatedly performed in response to the information transmitted from the sensor device 10. After passing through the normal state step S55 or the dangerous state step S56, the process returns to the data request step S3 to continuously transmit the request information to the sensor device 10.

According to the air quality improvement system and the air quality improvement method using the above-mentioned environmental care gateway, the air quality is measured in the indoor space, and the air quality is improved by driving the improvement device 50 according to the measured air quality. You can make it.

In addition, the sensor code of the sensor device 10 and the improvement code of the improvement device 50 can be easily obtained, and the sensor device 10 and the improvement device 50 can be stably registered in the monitoring device. In addition, it is possible to stabilize the wireless communication between the sensor device 10, the improvement device 50, and the monitoring device 30 via the gateway 20, and to clearly monitor the sensing information. In addition, the state check of the sensor device 10 is stabilized, and the user can check in real time about the contamination and dangerous situation of the indoor space.

In addition, it is possible to stabilize the power applied to each device, and solve the problem that the sensor device 10 is stopped.

In addition, the air quality can be stably improved through the improvement device 50, and foreign substances in the air can be adsorbed, and air purification such as odor and bacterial cleaning oxidation can be performed to maintain air in the indoor space comfortably. In addition, a swirl flow is generated in the air flowing through the inlet port so that the air passes evenly through each filter unit, and rapid air purification is achieved. In addition, the maintenance of the first filter unit 54 and the second filter unit 55 can be simplified, and the air purification ability can be improved.

In addition, to establish a maintenance plan for the improvement device 50, the improvement device 50 disposed in the indoor space to improve the air quality in a stable manner.

In addition, by contacting the user in accordance with the sensing information to inform the response to the air quality, and in connection with the control center 40 in an emergency situation, it is possible to provide the user with an optimal customized service.

In addition, since the sensing information is intelligently collected, stored, and analyzed through the monitoring device 30 to provide a customized service, convenience and reliability can be provided. In addition, when collecting a lot of sensing information for a long time, it is possible to build a big data service. In addition, when a large amount of continuous sensing information is collected, various statistical big data services may be performed.

Although the preferred embodiments of the present invention have been described with reference to the drawings as described above, those skilled in the art can variously change the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. Can be modified or changed.

10: sensor device 101: first sensor module 102: second sensor module
11: sensor power supply unit 12: sensor communication unit 13: sensor tag
14: sensor display unit 15: sensor control unit 151: request confirmation unit
152: terminal identification unit 153: data storage unit 154: sensor identification unit
16: Sensor switch 17: Sensor 20: Gateway
30: monitoring device 31: mobile terminal 32: management server
40: control center 50: improvement device 51: base
511: inlet 512: outlet 52: blowing fan
53: ultraviolet ray generating portion 54: first filter portion 541: through hole
55: second filter portion 56: case 561: flow portion
57: cover 571: suction port 58: vortex generating portion
581: derivative 582: drive 59: controller
591: improved power supply unit 592: improved communication unit 593: improved tag
594: improvement display unit 595: improvement control unit 596: improvement switch
501: input sensor module 502: output sensor module
S1: Device registration step S1-1: Sensor installation step S1-2: Improvement installation step
S1-3: App driving step S1-4: Sensor code sending step S1-5: Improvement code sending step
S1-6: device matching step S2: data setting step S3: data request step
S4: sensor driving step S41: request confirmation step S42: request sensing step
S43: terminal confirmation step S44: request transmission step S45: data storage step
S46: Sensor check step S47: Sensor normal step S48: Sensor danger step
S5: Information analysis step S51: Request storage step S52: Sensor identification step
S53: monitoring step S54: status checking step S55: status normal step
S56: State risk step S56-1: Drive signal transmission step S6: Improvement drive step
S7: Center transmission step

Claims (8)

At least one sensor device for measuring the air quality of the indoor space to generate sensing information;
A monitoring device for monitoring an air quality of an indoor space based on the sensing information, and generating a driving signal when the monitored sensing information is equal to or larger than preset driving information;
An improvement device for circulating the air in the indoor space according to the driving signal, and stopping the air circulation in the indoor space when the sensing information or the circulation information about the air in the circulated indoor space is equal to or smaller than a preset improvement information; And
The sensor device, the monitoring device and the improvement device are connected so as to communicate with each other, and transfer information of the sensor device to the improvement device and the monitoring device, transfer information of the improvement device to the monitoring device, or monitor the Gateway for delivering information of the device to the sensor device and the improvement device; Air quality improvement system using a gateway for environmental care comprising a. The method of claim 1,
The sensor device,
A sensor power supply unit to which power is applied;
A sensor tag in which a sensor code of the sensor device is embedded;
A sensor communication unit configured to wirelessly communicate the sensing information with the sensor code and communicate with the outside;
A sensor for measuring the air in an indoor space to generate the sensing information;
A sensor display unit displaying a connection state of the sensor power supply unit, a communication state of the sensor communication unit, and an operation state of the detection sensor; And
And a sensor controller configured to control operations of the sensor communication unit, the sensor, and the sensor display unit. The method of claim 1,
The improvement device,
A base configured to discharge air from the inlet hole formed in the upper center to be discharged to the outlet formed on the lower side;
A blowing fan built in the base to discharge air introduced from the inlet to the outlet;
An ultraviolet generating unit which extends in a vertical direction on the upper side of the inlet to emit ultraviolet rays of a predetermined wavelength;
A hollow housing into which the ultraviolet generating unit is inserted, a first through-hole formed to penetrate air from the outside to the inside, and a first filter unit having a photocatalyst coating layer reacting with the ultraviolet rays to generate ozone and hydroxide radicals;
A second filter part which is a hollow enclosure into which the first filter part is inserted and removes foreign substances from air introduced from the outside to the inside;
A case having a hollow housing into which the second filter part is inserted such that a flow part is provided to the outside of the second filter part, and the base coupled to a lower end thereof; And
And a cover having a suction port coupled to an upper end of the case and communicating with the flow unit so that the air in the indoor space is introduced therein. The method of claim 3,
The improvement device,
An input sensor module for measuring air quality flowing through the inlet; And
An output sensor module measuring air quality discharged through the discharge port;
Air quality improvement system using a gateway for environmental care, characterized in that it further comprises at least one of. The method of claim 3,
The improvement device,
A controller provided in the cover to control an operation of the blowing fan and the ultraviolet light generating unit; And
A vortex generating unit for turning the air flowing through the suction port from the flow unit along the circumference of the case;
Air quality improvement system using a gateway for environmental care, characterized in that it further comprises at least one of. The method of claim 3,
The improvement device,
Air conditioners for cooling the air in the indoor space;
Heating means for heating air in the indoor space;
Humidification means for controlling the humidity of the indoor space to the air;
Opening and closing means for opening and closing a window partitioning the indoor and outdoor;
Ventilation means for discharging the air of the indoor space, supply the outdoor air to the indoor space or exchange the indoor air and the outdoor air; And
Fire fighting means for extinguishing the fire in the indoor space or notifying whether the indoor space is fired;
Air quality improvement system using a gateway for environmental care, characterized in that it further comprises at least one of. The method according to any one of claims 1 to 6,
The monitoring device,
A portable terminal that communicates with the gateway and is portable; And
A management server which communicates with the gateway and is not portable;
Air quality improvement system using a gateway for environmental care, characterized in that it comprises at least any one of. A method for improving the air quality of the indoor space based on the sensing information according to any one of claims 1 to 6,
A device registration step of registering the sensor device and the improvement device with the monitoring device corresponding to a unit indoor space by using the sensor code of the sensor device and the improvement code of the improvement device;
A data setting step of generating request information based on a measurement period of the sensor device;
A data request step of requesting the corresponding sensor device for the request information generated through the data setting step;
A sensor driving step of operating the sensor device to obtain the sensing information based on the request information transmitted through the data request step;
An information analyzing step of monitoring an air quality of an indoor space based on the sensing information acquired through the sensor driving step, and generating the driving signal when the monitored sensing information is equal to or larger than preset driving information; And
An improvement driving step of circulating the air in the indoor space according to the driving signal, and stopping the air circulation in the indoor space when the sensing information or the circulation information about the air in the circulating indoor space is equal to or smaller than a preset improvement information; Air quality improvement method using a gateway for environmental care comprising a.

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