KR102032302B1 - Nanofog spray system by Using hypochlorous acid - Google Patents

Abstract

A nanofog spray system using hypochlorous acid water of the present invention comprises: a raw water supply unit; a filtration device; a spray liquid storage tank; a filtered water supply valve; a second raw water supply unit; a second filtration device; a hydrochloric acid storage tank; a hydrochloric acid regulating valve; a hydrochloric acid pump; a DC power supply; a diaphragm electrolyzer; a hypochlorous acid storage tank; a hypochlorous acid control valve; a high pressure pump. In the present invention, since the spray contains hypochlorous acid water having a sterilizing power when spraying, the occurrence of mold that can be produced in a wet state can be prevented.

Description

Nanoofog spray system by using hypochlorous acid

The present invention relates to a nano-fog spraying system, which is sprayed into a room by spraying a liquid such as water in an environment in which outdoor and indoor fine dust and ultrafine dust concentrations are poor for a long time, such as today, fine dust or ultrafine It is to reduce the concentration of indoor fine dust or ultra-fine dust by falling in combination with the dust.

      Prior art related to the present invention is disclosed in Republic of Korea Patent Registration No. 10-1879999 (July 19, 2018). 1 is a configuration diagram of a temperature and humidity control system using the conventional spray nozzle. 1 is a conventional temperature and humidity control system using a spray nozzle is connected to each of the plurality of water distribution supply unit 10 and the plurality of water distribution supply unit 10 provided along the longitudinal direction of the house (H) house A plurality of spray nozzles 20 spraying mist therein, a distributor 30 connected to each of the plurality of water distribution supply units 10 to distribute water to each of the plurality of water distribution supply units 10, Drive pump 40 for supplying water to the distributor 30 side, the water tank 50 is connected to the drive pump 40 to store the water supplied to the distributor 30 by the drive pump 40 And a first valve 41 interposed between the driving pump 40 and the distributor 30 to supply or block the water supplied to the distributor 30, the distributor 30, and the water tank 50. ) And the fluid flow of the bypass pipe 60 and the bypass pipe 60 A comprises a second valve 61 for intermittent. In addition, a heater 70 is further installed in parallel between the driving pump 40 and the distributor 30. When the flow path is changed by the operation of the on / off valve, the temperature of the fluid passing through the heater 70 is increased and output. It helps to maintain the temperature and humidity inside the house (H). In addition, the water tank 50 is further connected to the cooling unit 80 and the filtering unit 90. The cooling unit 80 is composed of a first circulation pump and a cooler to circulate the water in the water tank 50, so as to lower the water temperature by using a cooler. In this case, it is possible to lower the temperature inside the water tank 50 in summer. In addition, the filtration unit 90 includes a second circulation pump and a third filter to circulate water in the water tank 50, and periodically the water in the water tank 50 using the third filter. Remove foreign substances contained in. In addition, a first filter 51 is installed at an inlet end of the water tank 50, and a second filter 52 is installed at an outlet pipe discharged from the water tank 50 to perform a filtering operation. The water distribution supply unit 10 may be made of a tubular, such as a pipe or made of a hose and is provided along the longitudinal direction on the upper side of the house (H). The spray nozzle 20 is provided in each of the water distribution supply unit 10 to spray the mist inside the house (H), the temperature inside the house (H) is controlled by the mist sprayed through the spray nozzle (20) do. At this time, the mist sprayed through the spray nozzle 20, for example, in the case of summer cold mist may be sprayed, in the case of winter on mist may be sprayed. The driving pump 40 is a means for forcibly supplying a fluid such as water stored in the water tank 50 to the distributor 30. The distributor 30 is provided by a forced fluid supply of the driving pump 50. Fluid is delivered to each of the plurality of water distribution supply units 10 through the spray mist sprayed by the spray nozzle 20. According to the related art, the driving pump 40 is operated to adjust the temperature inside the house H, and the fluid stored in the water tank 50 is operated by the operation of the driving pump 40. Fluid supplied to the distributor side and supplied to the distributor 30 side is supplied to the water distribution supply unit 10 provided along the longitudinal direction inside the house (H) spray nozzles 20 connected to each of the plurality of water distribution supply unit (10) Spray mist into house (H) through). In addition, when the mist is sprayed through the spray nozzle 20 to stop the operation of the drive pump 40 after controlling the internal temperature of the house (H), the water pressure is rapidly lowered and the water of the low pressure dispenser 30 Through the spray nozzle 20 is reached. Therefore, the spray nozzle 20 may not be sprayed (sprayed) above a certain pressure, so that water droplets fall from the spray nozzle 20. The water droplets fall into the house (H) to adversely affect crop growth, the prior art is interposed between the drive pump 40 and the distributor 30 to prevent this supply to the distributor 30 The first valve 41 for supplying or blocking the water to be supplied, the bypass pipe 60 connected between the distributor 30 and the water tank 50, and the fluid flow of the bypass pipe 60 It is provided with the 2nd valve 61 which interrupts. Looking at the operation thereof, when the driving of the drive pump 40 is stopped and the water supply to the distributor 30 is stopped, the first valve 41 is closed immediately and the second valve 61 is opened. Let's do it. Therefore, the high pressure water supplied through the driving pump 40 is cut off, and the already discharged water is recovered to the water tank 50 through the distributor 30 and the bypass pipe 60.

Temperature and humidity control system using a conventional spray nozzle configured as described above is to control the temperature and humidity of the room by spraying water through the nozzle, there is a problem that the sprayed liquid mist falls on the floor of the room, if there is clothing There is a problem in the mold to create a mold. Therefore, the nano-fog spraying system comprising the present invention hypochlorous acid solution for solving the problems of the prior art as described above is to spray the particles to be sprayed in the air in a short time by nanonizing the particles to be sprayed to wet the indoor floor or to the clothes This is to avoid. In addition, another object of the present invention is to add a bactericidal effect upon liquid spraying to prevent the generation of indoor pollutants.

Nano-fog spraying system using hypochlorous acid water of the present invention having the above object is a filtration device and the filtration device for supplying raw water from the raw water supply unit for supplying the raw water and the raw water supply to filter the raw water to the spray liquid storage tank Sprayed liquid storage tank having a water level control device for receiving and storing the filtered water from the water and the filtrate to adjust the level of the filtered water, and a sprayed liquid comprising a filtered water supply valve configured between the sprayed liquid storage tank and the high pressure pump to control the filtered water supply A high pressure pump which receives the filtrate from the spray liquid storage tank of the storage unit, the spray liquid storage unit through the filtrate supply valve, and supplies the filtered water through the transfer control valve to the spray line, and regulates the pressure of the high pressure filtrate transferred by the high pressure pump. Feed control valve for transmitting to the spray line and the pressure in the feed control valve A spray line for receiving the controlled filtered water and sending it to the spray nozzle, a spray nozzle for receiving the sprayed pressure-controlled filtered water from the spray line, and a spray line connected to the spray line to pump the remaining spray liquid from the spray line to the outside To control the on and off of the spraying unit consisting of an air pump and an air pump discharged to the outside by pumping the remaining spray liquid in the spray line, and controlling the on and off of the filtered water supply valve. To control the opening degree of the transfer control valve by receiving the temperature information and the humidity information of the sensor unit, and a sensor that senses the temperature and humidity of the spraying place and transmits the sensed temperature information and humidity information to the ICT control unit. It is characterized by consisting of a controller unit including a unit.

Nano-fog spraying system using the present invention hypochlorous acid is configured as described above is spraying nano fine spray is easy to dry it has the effect of not wet the floor or wet clothes after spraying. In addition, the present invention is to be sprayed by containing hypochlorous acid water having a bactericidal power when spraying, there is an effect that can prevent the occurrence of mold and the like that can be produced in a wet state. In addition, another effect of the present invention is to feed back the temperature and humidity of the spraying location by controlling the supply amount of the sterilizing spray liquid supplied to the spray line has the effect of minimizing energy consumption.

1 is a configuration diagram of a temperature and humidity control system using a conventional spray nozzle,
Figure 2 is a block diagram of a first embodiment of the present invention nano fog spray system,
3 is a configuration diagram of a first embodiment of the present invention nano fog spray system,
Figure 4 is a block diagram of a nano fog spray system using the present invention hypochlorous acid,
Figure 5 is a configuration diagram of a second embodiment of the nano-fog spraying system using the present hypochlorous acid water
6 is a detailed block diagram of a controller unit applied to the present invention;
7 is a detailed configuration diagram of the second controller unit applied to the present invention.

Referring to the nano-fog spraying system using the present invention hypochlorous acid water having the above object as described on the basis of Figures 2 to 7 as follows.

Figure 2 is a block diagram of a first embodiment of the present invention nano fog spray system. In FIG. 2, the first embodiment block configuration of the present invention nano fog spray system is a filtration device for supplying raw water from the raw water supply unit 102 for supplying the raw water and the raw water supply and filtering the raw water to the spray liquid storage tank ( 104 and between the spray liquid storage tank 108 and the spray liquid storage tank and the high-pressure pump equipped with a water level control device 106 for receiving and storing the filtered water from the filtration device 104 and adjusting the level of the filtered water. And the filtrate is supplied through the filtrate supply valve 109 from the spray solution storage unit 110 and the spray solution storage tank 108 including the filtrate supply valve 109 for controlling the filtrate supply. The opening ratio is controlled by the high pressure pump 124 passing through the valve 122 and the high pressure spray liquid (filtered water) transferred by the high pressure pump 124 to the spray line. The spray control valve 122 is connected to the spray line 128 and the spray line and the spray line 128 to receive the spray solution from the feed control valve and to the spray nozzle and the spray solution supplied from the spray line The raw water is supplied to the raw water supply unit 102 by controlling the spray unit 120 including an air pump 129 which pumps the remaining spray liquid from the line and discharges it to the outside through a discharge control valve, and a raw water pump that may be configured in the raw water supply line. ), The on / off of the filtered water supply valve 109, the on, off and the pumping pressure of the high-pressure pump 124, the temperature control and humidity information of the sensor unit to control the transfer control valve 122 ICT control unit for controlling the opening rate of the control unit, controlling the on and off of the discharge control valve, and controls the on and off of the air pump 129 for pumping the remaining spray liquid of the spray line 126 to the outside ( 132) and spraying A controller 130 including a sensor 134 for sensing the temperature and humidity of the place and transmitting the sensed temperature information, and humidity information in ICT, characterized in that the control unit is configured.

3 is a configuration diagram of a first embodiment of the present invention nano fog spray system. In FIG. 3, a first embodiment of the nano-fog spraying system of the present invention is a raw water supply unit 102 including a raw water pump connected to a raw water line and pumping and supplying raw water to a filtration device, and foreign substances of raw water supplied from a raw water pump. Spray storage tank is attached to the filtration device 104 for filtering the water and the level control device 106 for sensing the water level by storing the filtered water filtered by the filtration device and transmits the sensed water level information to the ICT control unit 132. 108, the filtered water supply valve 109 for turning on and off the supply of the sprayed liquid transmitted from the sprayed liquid storage tank 108 to the high pressure pump, and raising and lowering the pressure of the sprayed liquid passed through the filtered water supply valve. The high pressure pump 124 for transmitting to the valve, the feed control valve 122 for turning on and off the supply of the spray liquid raised to high pressure from the high pressure pump, and the spray liquid passing through the feed control valve I A spray line 126 for distributing to the furnace nozzle, a plurality of spray nozzles 128 for forming and spraying the sprayed liquid dispensed in the spray line into nano-fogs, and sprays connected to the spray line and remaining in the spray line after completion of spraying A discharge control valve 127 for turning on and off the discharge of the remaining spray liquid for discharging the liquid to the outside, and an air pump 129 for pumping out the residual spray liquid to the outside while the discharge control valve 127 is opened. Receiving water level information from the level control device 106 of the spray liquid storage tank, controlling ON and OFF of the raw water pump according to the water level information, controlling ON and OFF of the filtrate supply valve 109, and supplying the filtrate In the open (0N) state, the high pressure pump 124 is controlled to transmit the spray liquid to the high pressure transfer control valve 122, and receives the temperature information and the humidity information from the sensor unit 134 based on this. ON of feed control valve 122 ICT control unit 132 for controlling the transmission of the spray liquid to the spray line by controlling the OFF, opening and opening rate, the on and off of the discharge control valve 127 and the on, off of the air pump 129 and The sensor unit 134 senses temperature and humidity and transmits the sensed temperature information and humidity information to the ICT control unit. The water level control device transmits the water level information to the ICT control unit when the water level reaches a predetermined height in a floating manner. In addition, the spray liquid storage tank has a water quality preservation rotating part 140 composed of a support shaft 142 having a rotary blade at the end and a rotating motor 144 connected to the support shaft in order to preserve the quality of the filtered water stored in the spray liquid. It may be configured, and also, in preparation for the failure of the level control device of the spray liquid storage tank 108, if the filtrate level of the spray liquid storage tank is formed at a predetermined height or more, the pipe to the spray liquid storage tank 108 to recover the filtered water. It may be provided with a buffer tank 150 connected, and a recovery pipe 152 for recovering the stored filtrate of the buffer tank to the front of the filtration device. The water quality preservation rotating unit 140 may preserve the spray liquid for a longer time without contamination by causing the ICT control unit to aeration at a predetermined time when the spray liquid stored in the spray liquid storage tank is not used for a long time. In addition, the spray line 126 has a coupling structure in which nozzles are connected by using a SIMLEX stainless steel and / or PE pipe having a length of 1 to 2 m, and sprays installed in the spray line 240. The interval of installation of the nozzle 128 is to maintain the interval of 1 ~ 2m to be sprayed in the air so that the pressure dispersion of the spray liquid supplied to the spray nozzle to have a nano-sized fog particle size. If the spacing is less than 1m, there is a problem that condensation occurs due to interference between the nozzles and the mist particles sprayed from the nozzles, and if it exceeds 2m, the particles evaporated and sprayed through the nozzle sterilize and cool the hot air. Has the disadvantage of falling below expectations.

Figure 4 is a block diagram of a nano fog spray system using the present hypochlorous acid water. In FIG. 4, the nano-fog spraying system using the present hypochlorous acid water is a raw water supply unit 102 for supplying raw water and a filtration device 104 for supplying raw water from the raw water supply unit and filtering the raw water to supply the spray liquid storage tank. And is provided between the spray liquid storage tank 108 and the spray liquid storage tank and a high-pressure pump, which is provided with and stores the filtered water from the filtration device 104 and adjusts the level of the filtered water. A spray liquid storage unit 110 including a filtered water supply valve 109 to regulate the supply, and a second raw water pump connected to the second raw water line to pump and feed raw water to the second filtration device 204. A second filtration device 204 for filtering the foreign matter of the raw water supplied from the second raw water supply unit 202 and the second raw water supply unit and transmitting the filtered water to the membrane-free electrolytic cell, and a hydrochloric acid storage tank for storing hydrochloric acid (2). 06) and a hydrochloric acid supply valve 208 for controlling the supply of hydrochloric acid to the hydrochloric acid pump, a hydrochloric acid pump 209 for supplying the hydrochloric acid of the hydrochloric acid storage tank to the diaphragm electrolyzer and a second ICT control unit DC power supply 201 for supplying power to the diaphragm electrolyzer and filtrate water passed through the second filtration device are supplied with hydrochloric acid from the hydrochloric acid storage tank to generate hypochlorous acid, and the hypochlorous acid water is generated. Hypochlorous acid storage tank 205 and hypochlorous acid storage tank for storing hypochlorous acid water supplied from the membrane-free electrolytic cell 203 and hypochlorous acid electrolytic cell which are supplied to the storage tank and transmitting the hypochlorous acid water to the high pressure pump Hypochlorous acid water storage unit 210 including hypochlorous acid water control valve 207 and hypochlorous acid water control valve 207 configured between the high pressure pump and hypochlorous acid water control valve 207. Hypochlorite water is supplied from the tank 205, the spray liquid is supplied from the spray liquid storage tank 108 via the filtrate water supply valve 109, the hypochlorous acid water and the spray liquid are mixed, and the pressure is increased to transfer control valve ( In the state of opening 122, the high pressure pump 124 for supplying to the spray line and the transfer control valve 122 and the transfer control valve for controlling the pressure of the high pressure sterilizing spray liquid transferred by the high pressure pump and transmitting the pressure to the spray line The spray line 126 receives pressure-controlled sterilized spray liquid and transmits it to the spray nozzles, and the spray lines 128 and spray lines are sprayed in a nano state by receiving pressure-controlled sterilized spray liquid from the spray line. It is connected to the spray unit 220 and the raw water supply line consisting of an air pump 129 connected to pump the residual sterilized spray liquid of the spray line to discharge to the outside through the discharge control valve 127 Control the raw water pump to supply the raw water to the raw water supply, to control the on and off of the filtered water supply valve 109, to control the second raw water pump connected to the second raw water supply line, the hydrochloric acid supply valve Control the on and off of the 208, control the on and off of the hydrochloric acid pump 209, control the on and off of the hypochlorous acid control valve 207, on and off of the high pressure pump 124 And controlling the pumping pressure and receiving the temperature information and the humidity information of the second sensor unit to control the opening degree of the transfer control valve 122, control the on and off of the discharge control valve 127, and the spray line 126. The second ICT control unit 232 for controlling the on and off of the air pump 129 for pumping the residual spray of the liquid discharged to the outside and the temperature and humidity of the spraying place is sensed and the sensed temperature information and humidity information to the second ICT It is composed of a second controller unit 230 including a second sensor unit 234 to transmit to the control unit It is characterized by.

5 is a configuration diagram of a second embodiment of the nano-fog spraying system using the hypochlorous acid water of the present invention. 5 is a second embodiment of the nano-fog spraying system using the present hypochlorous acid water in the raw water supply unit 102 for supplying raw water, and receiving the raw water from the hole supply unit to filter the raw water and supply it to the spray liquid storage tank A spray liquid storage tank (108) equipped with a filtration device (104), a level control device (106) for receiving and storing filtrate water from the filtration device (104) and adjusting the level of the filtered water; A second raw water comprising a second water feed pump configured to be connected between the high pressure pumps to control the filtered water supply, and a second raw water pump connected to the second raw water line to pump and feed the raw water to the second filtration device 204. A supply unit 202, a second filtration device 204 for filtering the foreign matter of the raw water supplied from the second source water supply unit 202 to transfer the filtered water to the membrane-free electrolytic cell, and a hydrochloric acid storage tank 206 for storing hydrochloric acid ) And salt A hydrochloric acid supply valve 208 for controlling the supply of the hydrochloric acid pump to the hydrochloric acid pump, a hydrochloric acid pump 209 for supplying the hydrochloric acid of the hydrochloric acid storage tank to the diaphragm electrolyzer, and a second membrane control unit connected to the second ICT control unit. DC power supply 201 for supplying power, and filtered water passed through a second filtration device, and hydrochloric acid from hydrochloric acid storage tank to generate hypochlorous acid and generate hypochlorous acid water. Hypochlorite water storage tank 205 and hypochlorous acid water storage tank for receiving hypochlorous acid water delivered from the membrane-free electrolytic cell and being supplied to the high-pressure pump via hypochlorite water control valve. Hypochlorous acid water control valve 207 configured between the high pressure pump and hypochlorous acid water control valve to supply hypochlorite water from the hypochlorite water storage tank, and the spray liquid storage tank. A high pressure pump 124 for supplying the spray liquid through the spray liquid control valve from the mixture, mixing the hypochlorous acid water and the spray liquid, raising the pressure, and supplying the feed control valve 122 to the spray line in the opened state; A transfer control valve 122 for transmitting the high pressure sterilization spray liquid transferred by the pump 124 to the spray line, a spray line 126 for receiving the sterilization spray liquid from the transfer control valve and transferring the spray solution to the spray nozzle; A plurality of spray nozzles 128 for supplying a pressure-controlled sterilizing spray liquid from the line and spraying them in a nano state, and connected to the spray line to pump the remaining sterilizing spray liquid in the spray line to the outside through the discharge control valve 127. By controlling the air pump 129 and the raw water pump that can be configured in the raw water supply line to discharge the raw water to the raw water supply unit 102, the on and off of the filtered water supply valve 109 Control the second raw water pump connected to the second raw water supply line, control the on and off of the hydrochloric acid supply valve 208, control the on and off of the hydrochloric acid pump 209, hypochlorous acid water Controls the on and off of the control valve 207, controls the on, off and pumping pressure of the high pressure pump 124, and receives the temperature information and humidity information of the second sensor unit 234 transfer control valve 122 The second ICT control unit for controlling the opening degree of the second control unit to control the on and off of the discharge control valve 127, and to control the on and off of the air pump 129 for pumping the remaining spray liquid of the spray line to the outside ( 232) and a second controller unit 230 including a second sensor unit 234 that senses the temperature and humidity of the spraying place and transmits the sensed temperature information and humidity information to the second ICT control unit. will be. In the spray liquid storage tank 108 is a water quality preservation rotating part 140 composed of a support shaft 142 having a rotary blade at the end and a rotating motor 144 connected to the support shaft in order to preserve the quality of the filtered water stored in the spray liquid. The water quality preservation rotating unit 140 is sprayed by causing the second ICT control unit 232 to control the aeration motor at a predetermined time to aeration when the spray liquid stored in the spray liquid storage tank is not used for a long time. The fluid can be preserved for longer periods of time without contamination. In addition, the particle size of the fog (fog) to be sprayed by the spray system of the present invention is preferably 15 ~ 30㎛, in order to satisfy to meet these conditions, the nozzle diameter of the spray nozzle 128 is 0.0895 ~ 0.15㎛ spray If the particle size of the nano-fog sprayed through the spray nozzle is out of the threshold value, the sterilization effect and cooling effect in the air may be reduced or condensation water may be generated. In addition, the pumping pressure of the high-pressure pump 124 applied to the present invention may be installed at a pressure of 60 ~ 100bar and when the pumping pressure is less than 60bar, the spray pressure is weak, there is a problem that nano-fog particles are not formed, 100bar If it exceeds, the energy consumption is increased and the possibility of water leakage at the connection part of the pipe is increased.

6 is a detailed block diagram of a controller unit according to the present invention. In FIG. 6, the controller unit 130 applied to the present invention controls the raw water pump, which may be configured in the raw water supply line, to supply the raw water to the raw water supply unit, and to control the on and off of the filtered water supply valve 109. It controls the on, off and pumping pressure of the high pressure pump 124, and receives the temperature information and humidity information of the sensor unit 134 to control the opening rate of the transfer control valve 122, for discharging the residual spray liquid ICT control unit 132 to control the on and off of the discharge control valve 127, and to control the on and off of the air pump 129 for discharging the remaining spray liquid in the spray line to the outside through the discharge control valve and The controller 130 is configured to sense the temperature and humidity of the sprayed place and includes a sensor unit 134 for transmitting the sensed temperature information and humidity information to the ICT control unit.

7 is a detailed configuration diagram of the second controller unit applied to the present invention. In FIG. 7, the second controller unit 230 applied to the present invention controls the raw water pump, which may be configured in the raw water supply line, to control the raw water to be supplied to the raw water supply unit 102, and the filtered water supply valve 109. control on, off, control the second raw water pump connected to the second raw water supply line, control the on, off of the hydrochloric acid supply valve 208, control the on, off of the hydrochloric acid pump 209 , Controls the on and off of the hypochlorous acid control valve 207, controls the on, off and pumping pressure of the high pressure pump 124, and receives the temperature information and humidity information of the second sensor unit 234 to adjust the transport The opening ratio of the valve 122 is controlled, the on / off of the discharge control valve 127 is controlled, and the on-off of the air pump 129 which pumps the remaining spray liquid of the spray line to the outside through the discharge control valve. and sensing the temperature and humidity of the spraying place with the second ICT control unit 232 for controlling the off To claim 2, it characterized in that it includes a sensor unit 234 for transmitting the temperature information and humidity information to control the 2ICT.

102: raw water supply unit, 104: filtration device,
106: level control device, 108: spray liquid storage tank,
110: spray liquid storage unit, 120: spraying unit,
130: controller unit, 210: hypochlorous acid storage unit

Claims (6)

In the nano fog spray system for reducing the concentration of fine dust or ultra fine dust,
The nano fog spray system,
A raw water supply unit 102 connected to the raw water line and including a raw water pump for pumping and supplying raw water to a filtration device;
A filtration device 104 for filtering foreign matters of raw water supplied from the raw water pump;
A spray liquid storage tank 108 which is supplied with filtered filtrate from the filtration device and is equipped with a water level control device 106;
In case the level of the filtrate of the spray liquid storage tank is formed above a predetermined height in preparation for the failure of the level control device of the spray liquid storage tank 108, the buffer tank 150 connected to the spray liquid storage tank 108 by piping to recover the filtrate. )Wow;
A recovery pipe 152 for recovering the filtered water of the buffer tank 150 to the front of the filtration device 104;
A filtered water supply valve 109 for turning on and off the supply of the sprayed liquid transmitted from the sprayed liquid storage tank 108 to the high pressure pump;
A high pressure pump 124 which raises the pressure of the spray liquid passing through the filtered water supply valve and transmits the pressure to the transfer control valve;
A transfer control valve 122 for turning on and off the supply of the spray liquid elevated to the high pressure in the high pressure pump;
A spray line 126 for distributing the spray liquid passed through the transfer control valve to the plurality of nano nozzles;
A plurality of spray nozzles 128 for spraying the sprayed liquid dispensed in the spray line into nano fog;
Controlling the ON / OFF of the raw water pump, controlling the ON / OFF of the filtrate supply valve 109, and controlling the high pressure pump 124 while the filtrate supply valve is open (0N) to transfer the sprayed liquid to a high pressure control valve And the temperature information and the humidity information from the sensor unit 134, and to control the ON, OFF and the opening degree of the transfer control valve 122 to transmit the spray liquid to the spray line. An ICT control unit 132 for controlling;
A sensor unit 134 which senses temperature and humidity and transmits the sensed temperature information and humidity information to the ICT control unit;
An air pump 129 connected to the spray line and pumping the remaining spray liquid of the spray line to the outside through a discharge control valve;
And a water quality preservation rotating part 140 including a support shaft 142 having a rotary blade formed at an end thereof and a rotating motor 144 connected to the support shaft in order to preserve the quality of the filtered water stored in the spray liquid in the spray liquid storage tank. Nano fog spray system characterized by.
delete delete In the nano fog spray system using hypochlorous acid water to reduce the concentration of fine dust or ultra fine dust,
Nano fog spray system using the hypochlorous acid water,
A raw water supply unit 102 for supplying raw water;
A filtration device 104 for receiving raw water from the raw water supply unit and filtering the raw water to supply the spray liquid storage tank;
A spray solution storage tank (108) for receiving and storing filtrate water from the filtration device (104);
In case the level of the filtrate of the spray liquid storage tank is formed above a predetermined height in preparation for the failure of the level control device of the spray liquid storage tank 108, the buffer tank 150 connected to the spray liquid storage tank 108 by piping to recover the filtrate. )Wow;
A recovery pipe 152 for recovering the filtered water of the buffer tank 150 to the front of the filtration device 104;
A filtered water supply valve (109) configured between the spray liquid storage tank and the high pressure pump to control the filtered water supply;
A second raw water supply unit 202 connected to a second raw water line and including a second raw water pump for pumping and feeding raw water to the second filtration device 204;
A second filtration device 204 for filtering foreign substances of raw water supplied from the second raw water supply unit 202 and transmitting the filtered water to the membrane-free electrolyzer;
A hydrochloric acid storage tank 206 for storing hydrochloric acid;
A hydrochloric acid supply valve 208 for controlling the supply of hydrochloric acid to the hydrochloric acid pump;
A hydrochloric acid pump 209 for supplying the hydrochloric acid of the hydrochloric acid storage tank to the membrane-free electrolytic cell;
A DC power supply 201 connected to the second ICT control unit and supplying power to the membrane-free electrolyzer;
A diaphragm electrolyzer 203 for supplying filtered water passing through the second filtration device, receiving hydrochloric acid from the hydrochloric acid storage tank to generate hypochlorous acid and supplying the generated hypochlorous acid to the hypochlorous acid storage tank;
A hypochlorous acid storage tank 205 for receiving hypochlorous acid water from the membrane-free electrolyzer and transmitting the hypochlorous acid water through a hypochlorous acid water control valve to a high pressure pump;
A hypochlorous acid control valve 207 configured between the hypochlorous acid storage tank and the high pressure pump;
Hypochlorite water is supplied from hypochlorous acid storage tank through hypochlorite water control valve, spraying liquid is supplied from spray liquid storage tank via spray control valve, mixing hypochlorous acid and spray liquid and raising pressure A high pressure pump 124 for supplying a spray line with the control valve 122 opened;
A transfer control valve 122 for transmitting the high pressure sterilizing spray liquid transferred by the high pressure pump 124 to the spray line;
A spray line 126 that receives the sterilizing spray liquid from the transfer control valve and transmits the sprayed sterilizing liquid to the spray nozzle;
A plurality of spray nozzles 128 supplied with a pressure-controlled sterile spray liquid from the spray line and sprayed in a nano state;
The raw water pump is controlled to supply raw water to the raw water supply unit 102, to control on and off of the filtrate water supply valve 109, to control a second raw water pump connected to the second raw water supply line, and to supply hydrochloric acid. Controlling the on and off of the valve 208, controlling the on and off of the hydrochloric acid pump 209, controlling the on and off of the hypochlorous acid control valve 207, the on, off of the high pressure pump 124 a second ICT control unit 232 for controlling off and pumping pressure and receiving temperature information and humidity information of the second sensor unit 234 to control the opening degree of the transfer control valve 122;
A second sensor unit 234 which senses the temperature and humidity of the spraying place and transmits the sensed temperature information and humidity information to the second ICT control unit;
An air pump 129 connected to the spray line and pumping the remaining spray liquid of the spray line to the outside through a discharge control valve;
And a water quality preservation rotating part 140 including a support shaft 142 having a rotary blade formed at the end thereof and a rotary motor 144 connected to the support shaft to preserve the quality of the filtered water stored in the spray liquid in the spray liquid storage tank. Nano fog spray system using hypochlorous acid water, characterized in that configured.







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