KR102640826B1 - Internet of things smart atomization system to reduce scattering dust and temperature - Google Patents

Abstract

The present invention relates to an IoT smart fine spray system for reducing flying dust and temperature. More specifically, it is an IoT smart fine spraying system for reducing flying dust and temperature. A temporary fence is installed to block noise and line of sight at a construction site. A spray device unit installed to spray water in the form of mist into the atmosphere to minimize scattering of dust and dust generated during construction; An air quality measurement unit that measures flying dust, temperature, and humidity at a construction site where the temporary fence is installed and transmits them wirelessly; a main server that wirelessly transmits, stores, and manages the flying dust, temperature, and humidity measured and collected from the air quality measurement unit; And a driving control unit that remotely controls the operation of the spraying device unit so that external scattering of dust and dust at the construction site where the temporary fence is installed is minimized based on the collected flying dust, temperature and humidity stored and managed in the main server. It is a characteristic of its composition that it contains.
According to the IoT smart fine spray system for reducing flying dust and temperature proposed in the present invention, it is installed on a temporary fence installed to block noise and line of sight at the construction site, and the scattering of dust and dust generated during construction will be minimized. A spray device unit for spraying water in the form of mist into the atmosphere, an air quality measurement unit that measures flying dust, temperature and humidity at a construction site where a temporary fence is installed and transmits it wirelessly, and an air quality measurement unit that measures and collects the air quality measurement unit. Minimizes external scattering of dust and dust at construction sites where temporary fences are installed based on the main server that receives and manages flying dust, temperature and humidity wirelessly, and the collected flying dust, temperature and humidity stored and managed in the main server. By including a drive control unit that remotely controls the operation of the spray device unit so that water can be sprayed into the atmosphere in the form of mist through the top of the temporary fence, scattering of dust and dust from the construction site into the external atmosphere is suppressed and blocked. You can make it happen.
In addition, according to the IoT smart fine spray system for reducing flying dust and temperature of the present invention, the spraying device installed on the temporary fence at the construction site is remotely operated in conjunction with the flying dust concentration, temperature, and humidity measured and transmitted based on IoT. By configuring it to be controlled, automatic and manual control is possible based on the measured values of fugitive dust concentration, temperature, and humidity, and the convenience and efficiency of use are further enhanced by enabling remote control from a short and long distance through mobile devices and PCs. It can be improved.
In addition, according to the IoT smart fine spray system for reducing flying dust and temperature of the present invention, it is configured to spray water in the form of mist through the upper part of the temporary fence at the construction site, thereby preventing dust or dust generated at the construction site from going outside. Scattering into the atmosphere can be prevented as much as possible, and civil complaints or disputes with neighboring areas can be prevented in advance.

Description

IoT smart fine spray system for reducing flying dust and temperature {INTERNET OF THINGS SMART ATOMIZATION SYSTEM TO REDUCE SCATTERING DUST AND TEMPERATURE}

The present invention relates to an IoT (Internet of Things) smart fine spray system for reducing fugitive dust and temperature. More specifically, it measures the temperature, humidity, and fugitive dust concentration at a construction site where dust or dust is generated based on IoT. Based on the measured temperature, humidity, and scattering dust concentration, water in the form of mist is sprayed through a spray nozzle installed on the temporary fence of the construction site, so that dust and dust from the construction site can be suppressed and blocked from flying into the outside atmosphere. This is about an IoT smart fine spray system for reducing flying dust and temperature.

In general, a lot of dust and dust are generated at construction sites such as demolition, civil engineering work, and building work. In this way, industrial facilities that generate a lot of dust and dust are required to improve the environment to reduce dust and dust.

In other words, construction sites can be said to be workplaces that generate large amounts of flying dust and fine dust, and as a result, many civil complaints are generated. The construction industry (construction sites) accounts for most of the total complaints related to fine dust in 2015, which is 91.11%. (Ministry of Environment 2015) has been notified. Since such dust is difficult to manage once it is generated and spread, it is very important to manage it at the stage of occurrence. To minimize the scattering of large amounts of dust and ultrafine dust generated from demolition, earthwork, and construction work outside the construction site, It takes effort.

In general, in order to prevent large amounts of dust and ultrafine dust generated at construction sites from scattering to the outside, flying dust is managed by installing a wheel washer or using a sprinkler truck. However, there is a problem with the limitation that it is difficult to prevent the scattering of large amounts of dust and ultrafine dust generated at construction sites with only a wheel washer or sprinkler truck.

External scattering of large amounts of dust or ultrafine dust generated from such construction sites causes damage to adjacent areas, which causes environmental damage to residents and citizens of nearby areas, resulting in a negative image of the construction site and civil complaints. It becomes a cause of conflict and causes unnecessary social costs.

The present invention was proposed to solve the above-mentioned problems of previously proposed methods. It is installed on a temporary fence installed to block noise and line of sight at a construction site, and minimizes the scattering of dust and dust generated during construction. A spray device unit for spraying water in the form of mist into the atmosphere, an air quality measurement unit that measures flying dust, temperature and humidity at a construction site where a temporary fence is installed and transmits it wirelessly, and an air quality measurement unit that measures and collects the air quality measurement unit. Minimizes external scattering of dust and dust at construction sites where temporary fences are installed based on the main server that receives and manages flying dust, temperature and humidity wirelessly, and the collected flying dust, temperature and humidity stored and managed in the main server. By including a drive control unit that remotely controls the operation of the spray device unit so that water can be sprayed into the atmosphere in the form of mist through the top of the temporary fence, scattering of dust and dust from the construction site into the external atmosphere is suppressed and blocked. The purpose is to provide an IoT smart fine spray system to reduce flying dust and temperature.

In addition, the present invention configures the spray device installed on the temporary fence at the construction site to be remotely driven and controlled in conjunction with the fugitive dust concentration, temperature, and humidity measured and transmitted based on IoT, so that the fugitive dust concentration, temperature, and humidity can be controlled remotely. IoT for reducing fugitive dust and temperature, which further improves convenience and efficiency of use by enabling automatic and manual control based on measured values, and remote control from near and far distances through mobile devices and PCs. Another purpose is to provide a smart fine spray system.

In addition, the present invention is configured to spray water in the form of mist through the upper part of the temporary fence at the construction site, so that the scattering of dust or dust generated at the construction site into the external atmosphere is suppressed as much as possible, and the resulting Another purpose is to provide an IoT smart fine spray system for reducing fugitive dust and temperature so that complaints or disputes can be prevented in advance.

The IoT smart fine spray system for reducing flying dust and temperature according to the characteristics of the present invention to achieve the above purpose is,

As an IoT smart fine spray system for reducing flying dust and temperature,

A spray device unit installed on a temporary fence installed to block noise and line of sight at a construction site, to spray water in the form of mist into the atmosphere to minimize scattering of dust and dust generated during construction;

An air quality measurement unit that measures flying dust, temperature, and humidity at a construction site where the temporary fence is installed and transmits them wirelessly;

a main server that wirelessly transmits, stores, and manages the flying dust, temperature, and humidity measured and collected from the air quality measurement unit; and

It includes a driving control unit that remotely controls the operation of the spraying device unit so that external scattering of dust and dust at the construction site where the temporary fence is installed is minimized based on the collected flying dust stored and managed in the main server and the temperature and humidity. It is a characteristic of its composition that it does so.

Preferably, the spray device unit,

A piping unit installed at the top of a temporary fence installed to block noise and line of sight at the construction site and equipped with a plurality of spray nozzles for spraying water in the form of mist into the atmosphere;

a water supply unit for supplying water to be sprayed through a plurality of spray nozzles of the piping unit;

a high-pressure pump unit for pressurizing water supplied for spraying from the water supply unit and supplying high-pressure water to a piping unit where the plurality of spray nozzles are installed; and

It may be configured to include a control device unit that controls operation so that water is sprayed through a plurality of spray nozzles installed in the piping unit under the control of the drive control unit.

More preferably, the piping unit,

Water in the form of mist is sprayed through the plurality of spray nozzles to minimize scattering of dust and dust at the construction site where the temporary fence is installed, and the particles of water sprayed through the plurality of spray nozzles are 40 to 100 μm or less. It may be composed in the form of a mist.

Even more preferably, each of the plurality of spray nozzles is,

By using water particles sprayed in the form of mist of 40 to 100㎛ or less, it is easy to combine with dust or dust of similar size, and the mass of the combined material increases, allowing it to naturally fall to the ground.

Preferably, the air quality measuring unit,

It may be configured as an IoT measurement device that measures flying dust, temperature, and humidity at a construction site where the temporary fence is installed and transmits them wirelessly to the main server via wireless Internet.

More preferably, the air quality measuring unit,

A fine dust measurement sensor for measuring the concentration of flying dust at a construction site where the temporary fence is installed;

A temperature measurement sensor for measuring the temperature of the construction site where the temporary fence is installed;

A humidity measurement sensor for measuring humidity at a construction site where the temporary fence is installed; and

It may be configured to include a wireless communication unit that wirelessly transmits the concentration of flying dust of the fine dust measurement sensor, the temperature of the temperature measurement sensor, and the humidity of the humidity measurement sensor to the main server using IoT-based wireless Internet.

Even more preferably, the main server:

The flying dust, temperature and humidity measured and collected from the air quality measurement unit are wirelessly transmitted, stored and managed, and the spraying device unit is automatically driven based on preset time and day settings, and the spraying device unit and air quality are measured. It can function so that the operator can monitor whether the unit is operating normally.

Even more preferably, the drive control unit,

It may be composed of a mobile device or a personal computer (PC) that allows an operator to remotely control it from a short or long distance based on the flying dust, temperature, and humidity collected and managed by the main server.

According to the IoT smart fine spray system for reducing flying dust and temperature proposed in the present invention, it is installed on a temporary fence installed to block noise and line of sight at the construction site, and the scattering of dust and dust generated during construction will be minimized. A spray device unit for spraying water in the form of mist into the atmosphere, an air quality measurement unit that measures flying dust, temperature and humidity at a construction site where a temporary fence is installed and transmits it wirelessly, and an air quality measurement unit that measures and collects the air quality measurement unit. Minimizes external scattering of dust and dust at construction sites where temporary fences are installed based on the main server that receives and manages flying dust, temperature and humidity wirelessly, and the collected flying dust, temperature and humidity stored and managed in the main server. By including a drive control unit that remotely controls the operation of the spray device unit so that water can be sprayed into the atmosphere in the form of mist through the top of the temporary fence, scattering of dust and dust from the construction site into the external atmosphere is suppressed and blocked. You can make it happen.

In addition, according to the IoT smart fine spray system for reducing flying dust and temperature of the present invention, the spraying device installed on the temporary fence at the construction site is remotely operated in conjunction with the flying dust concentration, temperature, and humidity measured and transmitted based on IoT. By configuring it to be controlled, automatic and manual control is possible based on the measured values of fugitive dust concentration, temperature, and humidity, and the convenience and efficiency of use are further enhanced by enabling remote control from a short and long distance through mobile devices and PCs. It can be improved.

In addition, according to the IoT smart fine spray system for reducing flying dust and temperature of the present invention, it is configured to spray water in the form of mist through the upper part of the temporary fence at the construction site, thereby preventing dust or dust generated at the construction site from going outside. Scattering into the atmosphere can be prevented as much as possible, and civil complaints or disputes with neighboring areas can be prevented in advance.

Figure 1 is a diagram showing the configuration of an IoT smart fine spray system for reducing flying dust and temperature according to an embodiment of the present invention in functional blocks.
Figure 2 is a diagram showing the configuration of the spray device part of the IoT smart fine spray system for reducing flying dust and temperature according to an embodiment of the present invention in functional blocks.
Figure 3 is a diagram illustrating the configuration of the air quality measurement unit of the IoT smart fine spray system for reducing flying dust and temperature according to an embodiment of the present invention in functional blocks.
Figure 4 is a diagram illustrating the configuration of the driving control unit of the IoT smart fine spray system for reducing flying dust and temperature according to an embodiment of the present invention in functional blocks.
Figure 5 is a diagram showing the application configuration of an example of installation of a temporary fence of an IoT smart fine spray system for reducing flying dust and temperature according to an embodiment of the present invention.
Figure 6 is a diagram schematically showing a conceptual configuration for explaining an IoT smart fine spray system for reducing flying dust and temperature according to an embodiment of the present invention.
Figure 7 is a diagram showing an example of the operating configuration of an IoT smart fine spray system for reducing flying dust and temperature according to an embodiment of the present invention.
Figure 8 is a diagram showing the configuration of water droplets sprayed using an IoT smart fine spray system for reducing flying dust and temperature according to an embodiment of the present invention.
Figure 9 is a reference diagram showing an example of damage to adjacent areas due to dust generation before application of the IoT smart fine spray system for reducing flying dust and temperature according to an embodiment of the present invention.
Figure 10 is a reference diagram illustrating the improvement situation in adjacent areas through minimizing dust generation after application of the IoT smart fine spray system for reducing flying dust and temperature according to an embodiment of the present invention.

Hereinafter, with reference to the attached drawings, preferred embodiments will be described in detail so that those skilled in the art can easily practice the present invention. However, when describing preferred embodiments of the present invention in detail, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description will be omitted. In addition, the same symbols are used throughout the drawings for parts that perform similar functions and actions.

Additionally, throughout the specification, when a part is said to be 'connected' to another part, this is not only the case when it is 'directly connected', but also when it is 'indirectly connected' with another element in between. Includes. Additionally, ‘including’ a certain component does not mean excluding other components, but rather including other components, unless specifically stated to the contrary.

Figure 1 is a diagram showing the configuration of an IoT smart fine spray system for reducing fugitive dust and temperature according to an embodiment of the present invention in functional blocks, and Figure 2 is a diagram showing the configuration of fugitive dust and temperature reduction according to an embodiment of the present invention. It is a diagram showing the configuration of the spray device part of the IoT smart fine spray system for functional blocks, and Figure 3 shows the configuration of the air quality measurement part of the IoT smart fine spray system for reducing flying dust and temperature according to an embodiment of the present invention. Figure 4 is a diagram showing the configuration of the driving control unit of the IoT smart fine spray system for reducing flying dust and temperature according to an embodiment of the present invention, and Figure 5 is a diagram showing the configuration of the functional block of the present invention. It is a diagram showing the application configuration of an example of installation of a temporary fence of an IoT smart fine spray system for reducing flying dust and temperature according to an embodiment of the present invention, and Figure 6 shows the application configuration for reducing flying dust and temperature according to an embodiment of the present invention. This is a diagram schematically showing the conceptual structure to explain the IoT smart fine spray system. As shown in FIGS. 1 to 6, the IoT smart fine spray system 100 for reducing flying dust and temperature according to an embodiment of the present invention includes a spray device unit 110 and an air quality measurement unit 120. , a main server 130, and a drive control unit 140.

The spray device unit 110 is installed on the temporary fence 101, which is installed to block noise and line of sight at the construction site, and sprays water in the form of mist into the atmosphere to minimize scattering of dust and dust generated during construction. This is the configuration of the spraying device to do this. This spray device unit 110 is installed at the top of the temporary fence 101 installed to block noise and line of sight at the construction site, and a plurality of spray nozzles 111 are installed to spray water in the form of mist into the atmosphere ( 112), a water supply unit 113 for supplying water to be sprayed through a plurality of spray nozzles 111 of the piping unit 112, and a plurality of sprays by pressurizing the water supplied for spraying from the water supply unit 113. A high-pressure pump unit 114 for supplying high-pressure water to the piping unit 112 where the spray nozzle 111 is installed, and a plurality of spray nozzles 111 installed in the piping unit 112 under the control of the drive control unit 140. ) can be configured to include a control device unit 115 that controls the operation so that water spraying occurs. Here, the spray device unit 110 may be automatically or manually controlled and operated in conjunction with the flying dust, temperature, and humidity of the air quality measurement unit 120 under the control of the main server 130 or the drive control unit 140, which will be described later. You can.

In addition, the piping unit 112 sprays water in the form of mist through the plurality of spray nozzles 111 to minimize scattering of dust and dust at the construction site where the temporary fence 101 is installed. The water particles sprayed through (111) may be in the form of a mist of 40 to 100 μm or less. That is, the plurality of spray nozzles 111 are fine spray nozzles, and in order to minimize the scattering of dust and dust at the construction site where the temporary fence 101 is installed, the mist is finely sprayed and combined with the dust and dust to create dust and dust at the construction site. This prevents scattering to the outside.

In addition, each of the plurality of spray nozzles 111 uses water particles sprayed in the form of mist of 40 to 100㎛ or less, so it is easy to combine with dust or dust of similar size, and the mass of the combined material increases so that it naturally falls to the ground. It can function as much as possible.

In addition, the plurality of spray nozzles (111) are mixed with air and sprayed in the form of small water mist, so it has a long stay in the air and is light, so it has an average spray distance of more than 10M. In particular, it is used as a temporary fence (101) at construction sites where dust or dust is generated. When sprayed in the form of a fine spray from the top, it functions as a fog curtain to prevent dust or dust generated from the ground from flying. Additionally, fine water particles that are not associated with dust may naturally evaporate in the atmosphere.

In addition, the spray pressure of each of the plurality of spray nozzles 111 may be adjusted through control of a proportional control valve at the final spraying stage under the driving control of the control device unit 115.

The air quality measurement unit 120 is configured to measure flying dust, temperature, and humidity at a construction site where the temporary fence 101 is installed and transmit them wirelessly. This air quality measurement unit 120 may be configured as an IoT measurement device that measures flying dust, temperature, and humidity at a construction site where the temporary fence 101 is installed and transmits them wirelessly to the main server 130 via wireless Internet.

In addition, as shown in FIG. 3, the air quality measurement unit 120 includes a fine dust measurement sensor 121 for measuring the concentration of flying dust at a construction site where a temporary fence 101 is installed, and a temporary fence 101. The temperature measurement sensor 122 for measuring the temperature of the construction site where the temporary fence 101 is installed, the humidity measurement sensor 123 for measuring the humidity at the construction site where the temporary fence 101 is installed, and the flying dust from the fine dust measurement sensor 121 It can be configured to include a wireless communication unit 124 that wirelessly transmits the concentration, the temperature of the temperature measurement sensor, and the humidity of the humidity measurement sensor to the main server 130 using IoT-based wireless Internet.

The main server 130 is configured to wirelessly transmit, store and manage the flying dust, temperature and humidity measured and collected from the air quality measurement unit 120. This main server 130 wirelessly transmits, stores, and manages the flying dust, temperature, and humidity measured and collected from the air quality measurement unit 120, and operates the spray device unit 110 based on preset time and day settings. It operates automatically and can function so that the operator can monitor whether the spray device unit 110 and the air quality measurement unit 120 are operating normally.

The drive control unit 140 is a spray device that minimizes the external scattering of dust and dust at the construction site where the temporary fence 101 is installed based on the collected flying dust stored and managed in the main server 130 and the temperature and humidity. This configuration remotely controls the operation of the unit 110. This driving control unit 140 is a mobile device 141 or a personal computer (PC) 142 that allows the operator to remotely control it from a short distance or a long distance based on the flying dust, temperature, and humidity collected and managed by the main server 130. ) can be composed of.

Figure 7 is a diagram showing an example of the operating configuration of an IoT smart fine spray system for reducing flying dust and temperature according to an embodiment of the present invention, and Figure 8 is a diagram showing an example of operating configuration for reducing flying dust and temperature according to an embodiment of the present invention. It is a diagram showing the composition of water droplet particles sprayed using an IoT smart fine spray system for dust generation before application of the IoT smart fine spray system for reducing flying dust and temperature according to an embodiment of the present invention. It is a reference diagram showing the damage situation in the adjacent area as an example, and Figure 10 shows the improvement of the adjacent area by minimizing dust generation after application of the IoT smart fine spray system for reducing flying dust and temperature according to an embodiment of the present invention. This is a reference diagram showing the situation as an example. Figure 7 shows an example of the installation of smart temporary fences and plant facilities for reducing flying dust and temperature, and Figure 8 shows sprayed water droplets with an average particle diameter of 200 to 800㎛ and sprayed water droplets with an average particle diameter of 40 to 100㎛. It shows a comparison of . That is, the present invention sprays sprayed water particles into the atmosphere in the form of mist with an average size of 40 to 100㎛ or less to reduce small particles of atmospheric dust and flying dust in the atmosphere, and to suppress and block scattering from the ground into the atmosphere. It can function.

In this way, the temperature, humidity, and fine dust concentration within the construction site where the temporary fence 101 is installed are measured and operated automatically based on set values for each time and day. At the same time, the collected data is transmitted to the central server using wireless Internet to ensure normal operation. The IoT smart fine spray system 100 for reducing fugitive dust and temperature according to an embodiment of the present invention, which allows operator monitoring such as operation status and remote control from a short distance and a long distance with a mobile device and PC, is used for demolition, earthwork, and construction. By minimizing the outside of the construction site, such as large amounts of flying dust and ultrafine dust generated during construction, we present efforts and alternatives to improve the environment to existing local residents and citizens, and prevent unnecessary social issues by preventing negative images, civil complaints, and disputes. Costs can be reduced. In addition, if a new construction site generates a lot of dust and requires abatement equipment, construction can be done quickly without much space constraints as long as water and electricity are available. In particular, it can be installed when it is necessary to reduce odor from a garbage disposal site in an apartment complex or when an outdoor space in an apartment complex where children can play even in the heat is needed.

As described above, the IoT smart fine spray system for reducing flying dust and temperature according to an embodiment of the present invention is installed on a temporary fence installed to block noise and line of sight at a construction site, and is installed on a temporary fence to block dust generated during construction and A spray device unit for spraying water in the form of mist into the atmosphere to minimize scattering of dust, an air quality measurement unit that measures flying dust, temperature and humidity at a construction site where a temporary fence is installed and transmits them wirelessly, and air quality measurement unit. A main server that wirelessly transmits and manages the scattered dust, temperature, and humidity measured and collected from the main server, and dust and By including a drive control unit that remotely controls the operation of the spray device to minimize the external scattering of dust, water is sprayed into the atmosphere in the form of mist through the top of the temporary fence, causing dust and dust from the construction site to enter the outside atmosphere. Scattering can be suppressed and blocked, and in particular, the spray device installed on the temporary fence at the construction site can be remotely driven and controlled in conjunction with the scattering dust concentration, temperature, and humidity measured and transmitted based on IoT. By doing so, automatic and manual control is possible based on the measured values of fugitive dust concentration, temperature, and humidity, and the convenience and efficiency of use can be further improved by enabling remote control from close and long distances through mobile devices and PCs. In addition, by spraying water in the form of mist through the upper part of the temporary fence at the construction site, scattering of dust or dust generated at the construction site into the external atmosphere is suppressed as much as possible, resulting in civil complaints from adjacent areas. It is possible to prevent disputes from occurring in advance.

The present invention described above can be modified or applied in various ways by those skilled in the art, and the scope of the technical idea according to the present invention should be determined by the claims below.

100: IoT smart fine spray system according to an embodiment of the present invention
101: Temporary fence
110: Spray device unit
111: plural spray nozzles
112: Plumbing department
113: Water supply department
114: High pressure pump unit
115: Control device unit
120: Air quality measurement unit
121: Fine dust measurement sensor
122: Temperature measurement sensor
123: Humidity measurement sensor
124: Wireless Communications Department
130: main server
140: Drive control unit
141: mobile device
142: Personal computer (PC)

Claims (8)

As an IoT smart fine spray system (100) for reducing flying dust and temperature,
A spray device unit (110) is installed on the temporary fence (101) installed to block noise and line of sight at the construction site and sprays water in the form of mist into the atmosphere to minimize scattering of dust and dust generated during construction. ;
An air quality measurement unit 120 that measures flying dust, temperature, and humidity at a construction site where the temporary fence 101 is installed and transmits them wirelessly;
A main server 130 that wirelessly transmits, stores, and manages the flying dust, temperature, and humidity measured and collected from the air quality measurement unit 120; and
Based on the collected flying dust stored and managed in the main server 130 and the temperature and humidity, the spray device unit 110 is installed so that external scattering of dust and dust at the construction site where the temporary fence 101 is installed can be minimized. Includes a driving control unit 140 that remotely controls the driving of
The spray device unit 110,
A piping unit 112 installed at the top of the temporary fence 101 installed to block noise and line of sight at the construction site and equipped with a plurality of spray nozzles 111 that spray water in the form of mist into the atmosphere, and the piping unit A water supply unit 113 for supplying water to be sprayed through the plurality of spray nozzles 111 of (112), and the water supplied for spraying from the water supply unit 113 is pressurized to spray the plurality of spray nozzles 111. ) a high-pressure pump unit 114 for supplying high-pressure water to the piping unit 112, and a plurality of spray nozzles 111 installed in the piping unit 112 under the control of the drive control unit 140. It is configured to include a control device unit 115 that controls the operation so that water is sprayed through,
The plurality of spray nozzles 111 are,
It is sprayed in the form of a fine spray from the top of the temporary fence (101) at a construction site where dust or dust is generated by mixing with air in the form of small water mist, and functions as a fog curtain to block dust or dust generated on the ground from flying.
The air quality measurement unit 120,
It consists of an IoT measurement device that measures flying dust, temperature, and humidity at a construction site where the temporary fence 101 is installed and transmits it wirelessly to the main server 130 via wireless Internet,
The main server 130,
The flying dust, temperature and humidity measured and collected from the air quality measurement unit 120 are wirelessly transmitted, stored and managed, and the spraying device unit 110 is automatically operated based on preset time and day settings, It functions to allow the operator to monitor whether the spray device unit 110 and the air quality measurement unit 120 are operating normally,
The drive control unit 140,
It is composed of a mobile device 141 or a personal computer (PC) 142 that allows the operator to remotely control it from a short or long distance based on the flying dust, temperature, and humidity collected and managed by the main server 130,
The spray device unit 110,
Functions to be automatically or manually controlled and operated in conjunction with the flying dust, temperature, and humidity of the air quality measurement unit 120 under the control of the main server 130 or the drive control unit 140,
The piping part 112 is,
Water in the form of mist is sprayed through the plurality of spray nozzles 111 to minimize scattering of dust and dust at the construction site where the temporary fence 101 is installed, and sprayed through the plurality of spray nozzles 111. The water particles are in the form of mist of 40 to 100㎛ or less,
Each of the plurality of spray nozzles 111,
Using water particles sprayed in the form of mist of 40 to 100㎛ or less, it is easy to combine with dust or dust of similar size, and the mass of the combined material increases so that it naturally falls to the ground.
The plurality of spray nozzles 111 are,
As a fine spray nozzle, in order to minimize the scattering of dust and dust at the construction site where the temporary fence 101 is installed, the mist is finely sprayed and combined with the dust and dust to prevent the dust and dust from scattering outside the construction site. function,
The plurality of spray nozzles 111 are,
It is sprayed in the form of small water mist mixed with air, so it stays in the air for a long time and is light, so it has an average spray distance of more than 10 meters. Fine water particles that are not combined with dust function to naturally evaporate in the air.
The plurality of spray nozzles 111 are,
Under the driving control of the control device unit 115, the spray pressure is adjusted through control of the proportional control valve at the final spraying stage,
The air quality measuring unit 120,
A fine dust measurement sensor 121 for measuring the concentration of flying dust at a construction site where the temporary fence 101 is installed, and a temperature measurement sensor 122 for measuring the temperature at a construction site where the temporary fence 101 is installed. and a humidity measurement sensor 123 for measuring the humidity of a construction site where the temporary fence 101 is installed, the concentration of flying dust from the fine dust measurement sensor 121, the temperature of the temperature measurement sensor, and the humidity measurement. An IoT smart fine spray system for reducing flying dust and temperature, characterized in that it includes a wireless communication unit 124 that wirelessly transmits the humidity of the sensor to the main server 130 using IoT-based wireless Internet. delete delete delete delete delete delete delete

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