KR102266710B1 - Smart Gate with functions to block the inflow of fine dust - Google Patents

Abstract

Provided is a smart gate with a fine dust ingress blocking function. The smart gate according to an embodiment of the present invention comprises: a gate main body formed so that both side surfaces are open; and an air conditioning unit installed in the gate main body and improving an internal air quality of the gate main body. Accordingly, it is possible to improve the internal air quality of the gate main body and quality of the air around an operation door, and sterilize virus around the door.

Description

Smart Gate with functions to block the inflow of fine dust

The present invention relates to a smart gate that is provided in a form that can be docked at the entrance of a facility, such as a building, and allows users to pass through when entering and exiting a facility, and more particularly, to a smart gate having a function of blocking the inflow of fine dust.

Recently, the problem of fine dust contained in the atmosphere is at a serious level and is gradually getting worse.

Various hazardous substances are contained in the air at bus stops, high traffic areas, roadside pedestrian paths, and adjacent areas, as well as in daily living, work, and general life. It is brought into the room as it is through the use of airborne substances, thereby inevitably acting on risk factors that cause various respiratory diseases both outdoors and indoors.

In addition, in recent years, due to the epidemic of viruses such as Corona virus-19 (COVID-19), a virus sterilization function is required in a small multi-use facility such as a bus stop or a waiting facility, but an alternative to this is insufficient.

Therefore, there is a need to find a way to improve the air quality flowing into the room and sterilize the virus.

The present invention has been devised to solve the above problems, and an object of the present invention is a smart gate that is docked in a facility and serves as a gate for entering the facility, a smart gate that can improve the internal air quality of the gate body to provide a gate.

In addition, another object of the present invention is to improve the air quality of the air around the door by using the air curtain generating means provided on the door, and to sterilize the virus around the door so that users who pass through the smart gate pass through the gate. It is to provide a smart gate to not only provide a clean and comfortable environment, but also to prevent pollutants from being transmitted into the facility.

According to an embodiment of the present invention for achieving the above object, a smart gate includes: a gate body formed so that both sides are open; and an air conditioning unit installed in the gate body to improve the internal air quality of the gate body.

At this time, the air conditioning unit, in order to remove the fine dust inside the gate, a HEPA filter that filters the fine dust contained in the air flowing into the interior; may include.

In addition, the air conditioning unit may increase the air pressure inside the gate body to perform a positive pressure function to block external air from flowing into the gate body.

In addition, the smart gate according to an embodiment of the present invention, provided on the inside of the gate body, to measure the internal air quality of the gate body, and an air quality indicator for displaying the measurement result; may further include.

And the air conditioning unit, the inlet for introducing air to the inside; an outlet for discharging air with improved air quality; a blowing module provided to introduce and exhaust air; a motion detection sensor that detects the user's motion and determines whether the user is present; and a processor for determining whether to operate an air quality improvement function according to the presence of a user inside the gate body.

In addition, a plurality of motion detection sensors are provided, and when the inside of the gate body is divided into a plurality of regions, they are individually arranged in each divided region, and the processor uses each motion detection sensor to determine the number of users and The space occupied is scored, and based on the scored result, the greater the number of users and the larger the area of the space occupied, the greater the amount of air introduced and discharged, the strength of the blower module's operation can be determined.

And according to an embodiment of the present invention, the smart gate includes: an image collecting unit for collecting an image inside the gate body; and an information processing unit that extracts a movement trajectory of an object (user) detected from the image and predicts a future predicted path of the user based on the extracted movement trajectory, wherein the information processing unit is configured to: If the predicted path includes the area around the outlet, a message requesting that the operation of the blowing module be restricted may be transmitted to the processor.

In addition, in the air conditioning unit, one or more motion detection sensors are disposed around the outlet, and in this case, the processor may limit the operation of the blowing module when a user's movement is detected around the outlet.

And according to an embodiment of the present invention, the smart gate, the air curtain generating unit provided on the upper or lower side of the open surface of the gate body to generate an air curtain to block fine dust; may further include.

In this case, the air curtain generating unit includes: a UVC light source for sterilizing viruses contained in the air surrounding the open surface of the gate body; HEPA filter that filters fine dust contained in the introduced air when ambient air is introduced into the interior; and an air curtain generating unit generating an air curtain by discharging fine dust-filtered air at a high pressure through the HEPA filter.

As described above, according to the embodiments of the present invention, it operates to improve the internal air quality of the gate body, detects the user's motion, and determines whether to operate the air quality improvement function according to the presence of the user inside the gate body can

In addition, by using the air curtain generating means provided on the door, it is possible to improve the air quality of the air around the door and sterilize the virus around the door.

In addition, by improving the air quality inside and around the smart gate and sterilizing the virus inside and around the smart gate, users can be provided with a clean and comfortable environment by going through the gate under normal circumstances.

1 is a conceptual diagram of a smart gate according to an embodiment of the present invention;
2 is a block diagram provided for the description of the configuration of a smart gate according to an embodiment of the present invention,
3 is a block diagram provided for explaining the configuration of an air conditioning unit according to an embodiment of the present invention;
4 is a flowchart provided for explaining the operating characteristics of an air conditioning unit according to an embodiment of the present invention;
5 is a block diagram for explaining the operational characteristics of a second image collection unit and an information processing unit according to an embodiment of the present invention;
6 is a flowchart for explaining the operational characteristics of a second image collection unit and an information processing unit according to an embodiment of the present invention;
7 is a block diagram for explaining the configuration of an air curtain generating unit according to an embodiment of the present invention,
8 is a block diagram for explaining the configuration of an information processing unit according to an embodiment of the present invention, and
9 is a flowchart for explaining the operating characteristics of the air curtain generating unit, the first image collecting unit, and the information processing unit according to an embodiment of the present invention.

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

1 is a conceptual diagram of a smart gate according to an embodiment of the present invention, and FIG. 2 is a block diagram provided to explain the configuration of a smart gate according to an embodiment of the present invention.

The smart gate according to this embodiment operates to improve the internal air quality of the gate body 100, but detects the user's motion, and determines whether the air quality improvement function operates according to the presence of the user inside the gate body 100 can decide

In addition, the smart gate can improve the air quality of the air around the door and sterilize the virus around the door by using the air curtain generating means provided at the door.

To this end, the present smart gate includes a gate body 100 , an air conditioning unit 200 , an access door 300 , an air curtain generating unit 400 , a first image collection unit 500 , and a second image collection unit 600 . ), an information processing unit 700 , a solar panel 800 , and an air quality indicator 900 .

The gate body 100 is implemented as a facility that provides an internal space, and is formed so that both directions are open, so that users entering into a separate facility (B) such as a building to which the smart gate is docked can be kept clean and comfortable. It will allow you to enter the facility (B) of

In addition, the gate body 100, the inner wall may be coated with an antiviral coating agent of a predetermined thickness so that the disinfection and sterilization effect is improved.

The air conditioning unit 200 is installed in the gate body 100 to increase the air pressure inside the gate body 100 to prevent external air from flowing into the gate body 100 while performing a positive pressure function. , to improve the air quality by sucking the internal air of the gate body 100 to the inside, and to sterilize the virus through short-wavelength ultraviolet (UVC).

In addition, the air conditioning unit 200, when introducing the outside air into the inside of the gate body 100, the air quality of the outside air may be improved and then introduced into the inside.

At this time, the air conditioning unit 200 is a wall mounted UV air conditioning unit mounted on the wall of the gate body 100 , a ceiling type UV air conditioning unit embedded or mounted in the ceiling of the gate body 100 , and provided inside a chair for a bus gate It can be implemented as a chair-type UV air-conditioning unit that becomes

The access door 300 may be provided on both open sides of the gate body 100 in a sliding manner.

For example, when both sides of the gate body 100 are opened, the access door 300 may be provided on both open sides of the gate body 100 .

Specifically, the access door 300 is provided with a motion detection sensor 210 , and when the user stands in front of the access door 300 , the access door 300 is automatically opened or an open switch around the access door 300 . may be provided so that the access door 300 is opened through an open switch.

The air curtain generating unit 400 is provided above or below at least one of both open sides of the gate body 100 to generate an air curtain to block fine dust.

For example, the air curtain generating unit 400 is provided on the upper side or the side of the access door 300 , is generated toward the front of the access door 300 , and when the access door 300 is opened, fine By creating an air curtain to block dust, it is possible to prevent fine dust contained in external air from flowing into the gate body 100 .

The first image collection unit 500 may be provided outside the gate body 100 to collect images around the gate body 100 .

The second image collection unit 600 may be provided inside the gate body 100 to collect images inside the gate body 100 .

Here, the first image collection unit 500 and the second image collection unit 600 may be implemented as CCTV cameras or the like.

The information processing unit 700 is provided to process all matters of the smart gate.

For example, the information processing unit 700 extracts a movement trajectory of an object (user) detected in a peripheral (external) image of the gate body 100 collected through the first image collection unit 500, and extracts The predicted future path of the user is predicted based on the movement trajectory, and when the predicted future path includes a path entering the interior of the gate body 100 through the entrance door 300, the air curtain generation unit 410 ) can be controlled.

For another example, the information processing unit 700 extracts a movement trajectory of an object (user) detected from an image inside the gate body 100 collected through the second image collection unit 600 , and the extracted movement The predicted future path of the user is predicted based on the trajectory, and when the predicted future path includes an area around the outlet, a message requesting that the operation of the blowing module 230 be restricted may be transmitted to the processor 220 .

In addition, the information processing unit 700 checks the internal image of the gate body 100 collected through the second image collection unit 600 , and sends an emergency notification message in order to respond and take action in connection with the relevant authorities in case of an emergency. may be forwarded to the relevant authorities.

As another example, the information processing unit 700 may be configured to, based on the internal image of the gate body 100 collected through the second image collection unit 600 , if a user does not exist inside the gate body 100 . In this case, the operating performance of the air conditioning unit 200 is operated at a low stage through the processor 220 so that the first UVC light source 240 operates normally, but maintains a minimum positive pressure and improves air quality. This is for explaining an example of an operation method, and of course, it may be implemented to operate at all times regardless of whether an insider user exists.

The solar panel 800 may be installed above the gate body 100 .

The air quality indicator 900 is provided inside the gate body 100 to measure the air quality of the internal air of the gate body 100, and a plurality of LEDs having a unique color are provided to display the measurement results to the outside. can

Specifically, the air quality indicator 900 may be provided with a fine dust measurement sensor that measures the fine dust concentration of the internal air of the gate body 100, and is graded 3 (good) based on the fine dust measurement result of the internal air. , normal, bad) or 4 grades (good, normal, bad, very bad), the indicator light 900 of a unique color may be turned on according to a preset grade.

That is, for example, the air quality indicator 900 is, when the air quality of the internal air is good grade, the blue indicator is turned on, in the case of the normal grade, the green indicator is turned on, and in the case of the bad grade, the orange indicator is turned on and, in the case of a very poor grade, the air quality of the air inside the gate body 100 may be displayed in such a way that a red indicator light is turned on.

In addition, the present smart gate includes a gate body 100 , an air conditioning unit 200 , an access door 300 , an air curtain generating unit 400 , a first image collection unit 500 , and a second image collection unit 600 . , the information processing unit 700 , the solar panel 800 , and the air quality indicator 900 , a power supply unit (not shown) and a battery unit (not shown) may be additionally provided.

The power supply unit is connected to the external power supply line and the solar panel 800 to supply power necessary for the components of the smart gate to operate, and the battery unit is connected to the solar panel 800 to charge power and , when the power supply unit does not operate normally, it is possible to supply power to the components.

3 is a block diagram provided to explain the configuration of the air conditioning unit 200 according to an embodiment of the present invention, and FIGS. 4 to 5 are the operation of the air conditioning unit 200 according to an embodiment of the present invention. A flow chart provided for the description of the properties.

The air conditioning unit 200 sucks the internal air of the gate body 100 to the inside to improve air quality, and to sterilize viruses through short-wavelength ultraviolet (UVC), an inlet (not shown) and an outlet (not shown) , a motion detection sensor 210 , a processor 220 , a blowing module 230 , a first HEPA filter (not shown), and a first UVC light source 240 .

The inlet may be provided at one side of the air conditioning unit 200 to introduce air into the air conditioner, and the outlet may be provided at the other side of the air conditioning unit 200 to discharge air with improved air quality.

The motion detection sensor 210 may be provided on one side of the air conditioning unit 200, detect a motion of a user around the air conditioning unit 200, and determine whether a user around the air conditioning unit 200 exists. .

The processor 220 may determine whether to operate the air quality improvement function according to the presence of a user inside the gate body 100 .

Specifically, the processor 220, through one or more motion detection sensors 210 disposed around the outlet,

When the user is not detected near the outlet (S410-N), the operation of the blower module 230 operates normally (S420), so that air with improved air quality is discharged through the first HEPA filter, but the user near the outlet When is detected (S410-Y), the operation of the blowing module 230 may be stopped (limited) (S430).

In addition, the processor 220 may determine whether to operate the virus sterilization function according to the presence of a user inside the gate body 100 .

Specifically, the processor 220 detects a user inside the gate body 100 through the motion detection sensor 210 , and when the user does not exist inside the gate body 100 , the first UVC light source 240 ) operates normally to sterilize the virus, but if a user exists inside the gate body 100, the operation of the first UVC light source 240 is stopped until the user leaves the gate body 100, The sterilization function can be temporarily suspended.

For another example, when the processor 220, the motion detection sensor 210, is provided in plurality, divides the inside of the gate body 100 into a plurality of regions, and is individually disposed in each of the divided regions, Using each motion detection sensor 210, the number of users and the space occupied are scored, and based on the scored result, the more the number of users and the larger the area of the space occupied, the more air inflow and exhaust It is possible to determine the operation strength of the blowing module 230 to increase the amount.

The blowing module 230 is provided to introduce and discharge air.

The blowing module 230 may discharge less than the amount of incoming air, so that the positive pressure function is maintained.

The first HEPA filter (not shown) operates the air conditioning unit 230 to remove fine dust inside the gate body 100 when the air is introduced into the air conditioning unit 200 by operating the air conditioning unit ( 200) can filter the fine dust contained in the air flowing into the inside.

The first UVC light source 240 may be provided inside the air conditioning unit 200 to sterilize the first HEPA filter and viruses included in the air introduced into the air conditioning unit 200 .

Through this, the virus is sterilized through short-wavelength ultraviolet (UVC), but by determining whether or not the first UVC light source 240 operates according to the presence of the user, it operates only when the user is not present, thereby safely sterilizing the virus. have.

Meanwhile, in the air conditioning unit 200 , the inner surface provided with the first UVC light source 240 may be coated with _{a photocatalyst (TiO 2 ) having a predetermined thickness so as to improve the disinfection and sterilization effect.}

5 is a block diagram illustrating the operation characteristics of the second image collection unit 600 and the information processing unit 700 according to an embodiment of the present invention, and FIG. 6 is a block diagram according to an embodiment of the present invention. It is a flowchart for explaining the operation characteristics of the second image collection unit 600 and the information processing unit 700,

The information processing unit 700, when the image inside the gate body 100 is collected through the second image collection unit 600 (S610), extracts the movement trajectory of the object (user) detected from the collected image ( S620), predicts the user's future path based on the extracted movement trajectory (S630), and when the predicted future path includes the area around the outlet (S640-Y), the operation of the blowing module 230 is limited You can (S650).

At this time, the information processing unit 700 transmits, to the processor 220, a message requesting that the operation of the blowing module 230 be restricted when the area around the outlet is included in the predicted future path. 230) may be restricted.

7 is a block diagram illustrating the configuration of an air curtain generating unit 400 according to an embodiment of the present invention, and FIG. 8 is a configuration of an information processing unit 700 according to an embodiment of the present invention. It is a block diagram for explanation, and FIG. 9 is a flowchart for explaining the operational characteristics of the air curtain generating unit 400 , the first image collecting unit 500 , and the information processing unit 700 according to an embodiment of the present invention to be.

The air curtain generating unit 400 is provided in the upper or lower side of each of the open both side entrance doors 300 of the gate body, and is provided in plurality provided around one entrance door 300 to form one group, You can create an air curtain to block fine dust.

To this end, each air curtain generating unit 400, the air curtain generating unit 410, the second HEPA filter (not shown) and the second UVC light source 420 may be provided separately.

The air curtain generating unit 410 may generate an air curtain by discharging fine dust-filtered air at a high pressure through the HEPA filter.

In this case, the air curtain may be disposed to face the front of the access door 300 .

A second HEPA filter (not shown) is provided inside the air curtain generating unit 400 , and when ambient air of the air curtain generating unit 400 flows into the air curtain generating unit 400 , the air It can filter the fine dust contained in it.

That is, the air curtain generating unit 400 injects air with improved air quality through the second HEPA filter at a high pressure to generate an air curtain, thereby improving the fine dust blocking effect, and passing through the air curtain to the gate Even while passing through the air curtain to users entering the interior of the main body 100, it is possible to provide air with improved air quality.

The second UVC light source 420 may be provided inside and outside the air curtain generating unit 400, respectively, to sterilize the virus contained in the air around the open surface of the gate body 100 and the air introduced into the inside, respectively. have.

The information processing unit 700 extracts a movement trajectory of an object (user) detected from an external image collected through the first image collection unit 500 , and predicts a future predicted path of the user based on the extracted movement trajectory And, when the predicted future path includes a path entering the interior of the gate body 100 through the entrance door 300, in order to control the operation of the air curtain generating unit 410, the communication unit 710, It may include an information processing unit 720 and a storage unit 730 .

The communication unit 710 may transmit and receive data necessary for the information processing unit 720 to operate by performing communication with the outside.

For example, the communication unit 710 may be connected to an external weather agency server provided separately to receive information on the external fine dust concentration in the area where the smart gate is installed, and transmit it to the information processing unit 720 .

For another example, the communication unit 710 may connect to an external server supporting a deep learning model for extracting a movement trace of an object to transmit/receive data required for the movement trace of the object.

The information processing unit 720 may determine the strength of the operating performance of the air conditioning unit 200 based on information on the external fine dust concentration in the area where the smart gate is installed.

For example, when the external fine dust concentration is bad or very bad, the information processing unit 720 operates the operation performance of the air conditioning unit 200 at a higher stage than in the case of good or normal, and maintains positive pressure. and an air quality improvement function can be effectively performed.

In addition, the information processing unit 720 extracts a movement trajectory of an object (user) detected from an external image collected through the first image collection unit 500 , and predicts a future expected path of the user based on the extracted movement trajectory And, when the predicted future path includes a path entering the interior of the gate body 100 through the entrance door 300 , the operation of the air curtain generating unit 410 may be controlled.

For example, when an image around the gate body 100 is collected through the first image collection unit 500 by the information processing unit 720 ( S910 ), the movement trajectory of an object (user) detected from the collected image extracts (S920), predicts the user's future predicted path based on the extracted movement trajectory (S930), and the access door 300 provided on the open side of the gate body 100 in the predicted future path. When the interior of the gate body 100 is included (S940-Y), the second UVC light source 420 is operated (S950), and the user accesses the door 300 provided on the open surface of the gate body 100 (S950). When reaching the periphery (front) of (S960-Y), the operation of the second UVC light source 420 is limited (stopped) (S970), but the air curtain generator 410 can be operated.

That is, the information processing unit 720, when it is determined that the user's future predicted path enters the inside of the gate body 100 by passing the user through the access door 300, the user will reach the access door 300. Until the second UVC light source 420 is operated, the virus sterilization function is performed, and when the user reaches the access door 300, the operation of the second UVC light source 420 is stopped, and the air curtain generator ( By operating only 410 , it is possible to prevent fine dust contained in the outside air from flowing into the interior of the gate body 100 .

At this time, the information processing unit 720 extracts the movement trajectory of the object by itself using a deep learning model that extracts the movement trajectory of the object, and applies a Long Short Term Memory (LSTM) technique to the movement trajectory information of the object. Thus, the predicted future path of the object may be predicted, or an external server may be accessed to provide an image to the external server, and a result of extracting a movement trajectory and a future predicted path may be received.

The storage unit 730 is a storage medium for storing programs and data necessary for the information processing unit 720 to operate.

Through this, by using the air curtain generating means provided on the door, it is possible to improve the air quality of the air around the door and sterilize the virus around the door.

In the above, preferred embodiments of the present invention have been illustrated and described, but the present invention is not limited to the specific embodiments described above, and it is common in the technical field to which the present invention pertains without departing from the gist of the present invention as claimed in the claims. Various modifications may be made by those having the knowledge of, of course, and these modifications should not be individually understood from the technical spirit or perspective of the present invention.

100: gate body 200: air conditioning unit
210: motion detection sensor 220: processor
230: blowing module 240: first UVC light source
300: entrance door
400: air curtain generating unit 410: air curtain generating unit
420: second UVC light source
500: first image collection unit 600: second image collection unit
700: information processing unit 710: communication unit
720: information processing unit 730: storage unit
800: solar panel 900: air quality indicator

Claims (10)

In the smart gate, one side of the gate body formed so that both sides are open is docked to the facility and serves as a gate for entering the facility,
an entrance door provided on an open side of the gate body;
an air conditioning unit installed in the gate body and sterilizing viruses using short-wavelength ultraviolet (UVC) by sucking air inside the gate body;
An air curtain generating unit that is provided around the entrance door and generates an air curtain for blocking fine dust when the entrance door is opened, and an air curtain generation unit provided inside and outside the unit, respectively, surrounding the open surface of the gate body and air introduced into the interior an air curtain generating unit including a second UVC light source for sterilizing each virus contained in the air curtain;
a first image collecting unit provided outside the gate body to collect images around the gate body;
Extracting the movement trajectory of the user detected from the image collected through the first image collection unit and predicting the user's future path based on the extracted movement trajectory, wherein the predicted future path of the user is An information processing unit that operates the second UVC light source only until the user reaches the access door when it is determined that the user enters the door, and operates only the air curtain generator when the user reaches the access door smart gate. The method according to claim 1, The air conditioning unit,
Smart gate comprising a; HEPA filter that filters the fine dust contained in the air flowing into the gate to remove the fine dust inside the main body. delete The smart gate according to claim 1, further comprising: an air quality indicator provided inside the gate body to measure the internal air quality of the gate body and display the measurement result. The method according to claim 1, The air conditioning unit,
an inlet for introducing air into the interior;
an outlet for discharging air with improved air quality;
a blowing module provided to introduce and exhaust air;
a motion detection sensor for determining whether a user exists in the vicinity of the air conditioning unit;
a first UVC light source for generating the short wavelength ultraviolet (UVC);
The smart gate further comprising; a processor for determining whether to operate the air quality improvement function according to the presence of the user. The method according to claim 5, wherein the motion detection sensor is provided in plurality, when the inside of the gate body is divided into a plurality of regions, they are individually arranged in each of the divided regions,
The processor, using each of the motion detection sensors, scores the number of users and the space occupied, and based on the scored result, the more the number of users and the larger the area of the space occupied, the more air that flows in and out Smart gate, characterized in that determining the operating strength of the blowing module to increase the amount of. The method according to claim 1, A second image collecting unit for collecting the image inside the gate body; further comprising, the information processing unit,
Extracting the movement trajectory of the user detected from the image collected through the second image collection unit and predicting the user's future path based on the extracted movement trajectory, but in the predicted future path around the outlet of the air conditioning unit Smart gate, characterized in that when the area is included, a message requesting that the operation of the blowing module be restricted is transmitted to the processor of the air conditioning unit. delete The method according to claim 1 or 7, wherein the information processing unit,
a communication unit for receiving information on the fine dust concentration in the area where the smart gate is installed from an external server;
The smart gate comprising a; an information processing unit for determining and operating the strength of the operating performance of the air conditioning unit based on the information on the fine dust concentration received through the communication unit; The method according to claim 7, wherein the information processing unit,
The smart gate, characterized in that by checking the internal image of the gate body collected through the second image collection unit, and delivering an emergency notification message to the relevant organization in case of an emergency.

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