KR102354834B1 - Composite system for purifying rainwater and river water, removing odors from livestock houses, environmental polluting facilities, and sterilizing viruses - Google Patents

Abstract

The present invention is installed in places where water for living, agricultural and underground water, valley water, rainwater and sewage treatment plants, reservoirs, rivers, streams, etc. flows to remove various heavy metals, various viruses and green algae, and has adsorption and water purification functions. Activated carbon, zeolite, silica sand, ion resin, heavy metal adsorbent, etc. are used to purify contaminated air in livestock houses, food processing plants, landfill sites, etc. In order to supply clear tap water by precipitating foreign substances such as red tap water or sand using a screen by installing a filtration device inside the water tank, an underground buried water tank is included to minimize changes in external temperature. It relates to a complex system for purifying rainwater, river water, livestock houses, environmental pollution facility odor removal, and virus sterilization, which is composed of It is installed in a place where adsorption materials such as activated carbon, zeolite, silica sand, ion resin, and heavy metal adsorbent are put in to purify water by removing various heavy metals, various viruses, and green algae. It is installed in an area with severe or polluted air. Using a photocatalytic hydroxyl generator, it can sterilize various viruses and bacteria in water or air, remove odors, and install an underground buried water tank to minimize changes in external temperature. There is an effect of supplying clear tap water by precipitating foreign substances such as red tap water or sand using a screen by forming a filtration device inside.

Description

Composite system for purifying rainwater and river water, removing odors from livestock houses, environmental polluting facilities, and sterilizing viruses}

The present invention relates to a complex system for purifying rainwater and river water, removing odors from environmental pollution facilities such as livestock houses, and sterilizing viruses, and more particularly, living water, agricultural water and groundwater, valley water, rainwater and sewage treatment plant, reservoir, river , installed in a place where streams, etc. flows to remove various heavy metals, viruses, and green algae It purifies polluted air, such as water, and sterilizes various viruses and bacteria in water and air by using a photocatalytic hydroxyl generator, and removes odors. It is composed to supply clear tap water by precipitating foreign substances, and to minimize changes in external temperature, rainwater, river water purification including underground buried water tank, odor removal and virus sterilization complex system will be.

In general, water pollution is a phenomenon in which the water quality of natural water bodies is polluted due to the inflow of waste materials. It refers to surface water that stands out, and wastes refer to liquid wastes discharged from civilized societies, such as household wastewater and factory wastewater. And undesirable change means that the value and appearance of water will be reduced, and it will adversely affect environmental conservation and public health.

Today, industrialized and advanced countries are actively conducting research, legal regulations, and facility investment to prevent pollution of their own waters and to restore already polluted water quality, and international cooperation is underway for global environmental conservation.

It is the first time that water pollution in the modern concept has become a problem in England in the late 19th century. At that time, in London, as a countermeasure against repeated cholera epidemics, the Filth Exclusion Law was established in 1855 and the discharge of sewage was promoted. As a result, a large amount of untreated sewage was discharged into the River Thames, and it began to be rapidly polluted.

As a countermeasure, the River Pollution Prevention Act was promulgated in 1876, and efforts to preserve water quality continued. In other advanced countries, natural waters began to be polluted due to the emergence of large-scale factories after the Industrial Revolution and the discharge of factory and urban wastewater following the urban concentration of the population. have.

In particular, after the Second World War, as the rapid population growth and environmental destruction and pollutant emission caused by industrial growth expanded globally, international cooperation for global environmental conservation became necessary. Thus, there was a United Nations Conference on Human Environment Issues in Stockholm in 1972, and water quality conservation issues were also discussed at this conference. In particular, marine pollution due to oil leakage from oil tankers is an international problem, and regulatory treaties are being signed through international organizations such as the intergovernmental maritime consultation period.

In Korea, many factories were built according to the national economic development plan promoted from the early 1960s, industrial activities increased rapidly, and the concentration of the population in cities was also accelerated. At the same time, the discharge of factory and urban wastewater also increased rapidly, and from the end of the 1960s, water pollution in major rivers and coasts began to become a social problem.

The government promulgated the Pollution Prevention Act in 1963 and its enforcement ordinances and enforcement rules in 1964 and 1967 in order to keep the environmental pollution of the land, including water pollution, under control to a minimum level while continuing the economic development plan.

However, this Act was insufficient to regulate the ever-increasing environmental pollution, and in order to deal with land pollution from the environmental conservation level, the Pollution Prevention Act was progressively abolished in 1977, and the Environmental Conservation Act and the Marine Pollution Prevention Act were newly promulgated. Rules were also promulgated. In addition, the Environment Agency (currently the Ministry of Environment) was established to take charge of environmental conservation work. The Environmental Conservation Act was amended in 1990 with the Framework Act on Environmental Policy, the Air Environment Conservation Act, and the Water Quality Environment Conservation Act.

On the other hand, green algae (water-bloom, 綠藻) is a generic term for eutrophic lakes (general water masses located in the inland basins, and is classified terrestrially into lakes, swamps, swamps, and marshes). , A swamp is a place where the depth of the deepest part is 5 m or less and flooded with submerged plants, and a swamp is a place where purified plants are abundant everywhere and the deepest part is less than 1 m. A wetland is a place where wetland plants are thickly covered.) It refers to a phenomenon in which green algae or blue-green algae, which are phytoplankton, increase significantly in a river with a slow flow rate and change the color of the water to green. In some lakes and rivers such as Gyeongancheon Stream of Lake Paldang in Korea, diatoms increase and the water turns yellowish brown. When the surface of the lake is covered, sunlight is blocked and the dissolved oxygen amount of the water is reduced without additional inflow of dissolved oxygen. If this happens, fish and aquatic organisms die and stink, and the ecosystem of the water body is destroyed, causing many social, economic, and environmental problems.

The most serious problem is the toxins produced by poisonous algae. In 1878, the first reported case of animal death from algae was in Australia. Since then, damage to livestock and wild animals has occurred in various parts of the world, including the United States, Canada, England, and Japan, due to avian toxins. Although no animal damage occurred in Korea, algal blooms frequently occur in lakes used as water sources. Therefore, it is necessary to remove and prevent algae that produce toxic substances in order to prevent future risks.

Nutrients once introduced into the water, unless removed, remain in the aquatic ecosystem, so algal blooms are repeated. To prevent green algae, domestic sewage should be purified and nutrients should not flow into the sea or lake. In addition, plants should be planted along rivers or lakes to absorb and remove nutrients that have already flowed in.

As a prior art related to the system for preventing or removing water pollution as described above, when water pollutants such as oil and green algae and red algae are generated on the water surface in Korean Patent Laid-Open No. 10-2017-0121015, water pollutants are removed. In a water pollutant removal device that inhales and allows the inhaled water contaminants to pass through the adsorption cloth to adsorb the water contaminants through the adsorption cloth, and the adsorption cloth is periodically or continuously rolled to maintain the adsorption performance of the adsorption cloth contaminated by the water contaminants. In addition, the material for preventing, delaying or removing algae in Korean Patent Laid-Open No. 10-2017-0078337 contains copper sulfide, so it can effectively prevent, delay or remove algae, and The cost for delay or elimination can be significantly reduced. In addition, the material for preventing, delaying or removing algae according to the present invention is made in the form of masterbatch chips, yarns or fabrics, so it is easy to handle and can be used for a long time because copper sulfide is gradually released. In addition, the filter of the type in which the material for preventing, delaying or removing algae is accommodated in a predetermined container is easy to install even in a narrow waterway and is configured to recycle the polymer resin after performance degradation is disclosed, and in Korea Patent Publication No. 10-0519071, mountain valley water is stored in the intake manhole (1) and contained in the water introduced from the intake manhole (1) through the connecting pipe (2). In the prefabricated simple water purifying device 100 for removing heavy metals that removes heavy metals and purifies them so that they can be used as drinking water, the discharge pipe 11 is connected to the base concrete 3 poured with concrete with bolts 99 a cylindrical lower purified water tank 10 and; an upper purified water tank 20 having a lid 23 having a central circular hole 22 perforated thereon by coupling a flange 21 to an upper portion of the lower purified water tank 10; A circular flange 31 is coupled to the central lower surface of the lower purified water tank 10 with a fastening bolt, and the radius is tapered so that the radius increases from the lower part integrally coupled to the circular flange 31 through the upper part. The filter manhole 30 and the filter having a tapered portion 32 formed to be thin and a cylindrical vertical wall 34 extending on the upper portion of the tapered portion 32 and having a plurality of water holes 33 on the circumferential surface thereof. A cylindrical filter 40 inserted into the inner wall of the vertical wall 34 in which the water hole 33 of the manhole 30 is formed, and the cylindrical filter 40 in the filter manhole 30 are seated on the lower surface of the plurality of holes 51 is formed to cover the upper surface of the upper open cylindrical container 50 and the filter manhole 30 filled with charcoal yellow earth ball filter media 52 therein, and at the same time taking in mountain valley water. The filter manhole ( 30) the cover member 60 fastened to the upper surface of the filter manhole with bolts and the filter manhole ( 30) is disclosed a prefabricated simple water purification device for heavy metal removal comprising a sediment discharge pipe 70 coupled in communication with the lower through-hole.

However, the above prior art is seated on the cylindrical filter in the filter manhole, a plurality of holes are formed on the lower surface, and a cylindrical container with an open upper part filled with charcoal yellow earth ball filter material therein, and the upper surface of the filter manhole is covered with charcoal. However, since the filter medium of the loess ball has a different water purification function and filter media of different shapes are input at the same time, various heavy metals cannot be selectively treated and the filter medium cannot be selectively used. The present invention was completed by constructing a technology to adsorb and decompose arsenic and fluorine, and to help remove green algae, blue-green algae, diatoms, etc.

The present invention was created to solve and supplement the problems of the prior art, and to purify contaminated water or air flowing in living water, agricultural water and groundwater, valley water, rainwater and sewage treatment plants, reservoirs, rivers, streams, etc. For this purpose, it consists of a main body including a water intake filtration unit, an open type filtration unit, a pressure filtration unit, a photocatalytic hydroxyl generator, a water tank filtration unit, a water tank, and a photocatalytic hydroxyl bubble unit for purification. The purpose is to provide a facility deodorizing and virus sterilization complex system.

As a solution to the present inventor's rainwater river water purification, livestock shed, environmental pollution facility odor removal, and virus sterilization complex system, the main body 1 forms a manhole 150 on the upper part, and separates the inside using a screen 115. , A water intake inlet pipe 110 is formed at the lower outer end of the screen 115, and a water intake outlet pipe 130 is formed to pass through the screen 115 from the inside to the outside and move purified water to the outside. A water intake filtration unit 100 and a roof 270 are formed on the upper part, a primary filtration tank 250 and a secondary filtration tank 260 are formed inside, a settling tank 240 is formed, and an intake outlet pipe is formed on one side. Forming 130 and forming an open filtration unit 200 that forms an open filtration water pipe 230 in the lower portion of the secondary filtration tank 260, which is another side, and a lid 350 in the upper portion, and a pedestal at the lower portion A pressure filtration unit (390) is formed, an adsorption purifying material 360 is put therein, an open filtration water pipe 230 is formed on one side, and a pressure filtration outlet pipe 330 is formed on the other side ( 300) and a pressure filtration outlet pipe 330 are formed on one side, and a photocatalytic hydroxyl generator outlet outlet pipe 430 is formed on the other side, and the pressure filter outlet pipe 330 and the photocatalytic hydroxyl group generator outlet pipe are formed. A photocatalytic hydroxyl generator generating unit 400 formed by alternately disposing an adsorption filter 450 and a photocatalytic hydroxyl nozzle 460 therein and formed in a cylindrical shape between the ), a plurality of screen outlets 530 are formed on the upper periphery to communicate with the outside, and a sedimentation induction screen 550 that separates the inner upper and lower portions in the inner central portion and induces sedimentation of foreign substances is formed. A water tank filter unit 500 and the water tank filter unit 500 are formed inside, and are buried underground using a wall panel 620 and an underground reinforcement panel 660 on the periphery, and the water tank flows out on one side. It is configured to include a water tank 600 for moving purified water to the outside by forming a pipe 630 .

A photocatalytic hydroxyl bubble unit 700 is additionally configured in place of the water intake filtration unit 100 and the open type filtration unit 200, and the photocatalytic hydroxyl group bubble unit 700 is polluted air that sucks air from the outside on the outer surface. An inlet fan 730 is formed, a water tank 760 for moving air to the inside through the polluted air inlet fan 730 is formed at the inner lower end, and a spray nozzle 765 is installed at the upper end of the water tank 760. The water tank 760 is connected to the external photocatalytic hydroxyl generator 750 using a circulation pipe 755 , and a filter 770 is formed inside the photocatalytic hydroxyl generator 750 .

The photocatalytic hydroxyl bubble unit 700 may be configured by removing the water intake filtering unit 100 and the open type filtering unit 200, and a water supply pipe to the photocatalytic hydroxyl group generator 750 included in the photocatalytic hydroxyl bubble unit 700 Connect (752) to supply purified water. In addition, a filter 770 may be additionally configured inside the photocatalytic hydroxyl generator 750 .

As described above, if the photocatalytic hydroxyl group bubble unit 700, the pressure filter unit 300, and the photocatalytic hydroxyl group generator unit 400 are connected and configured, the first contaminated air is introduced into the photocatalytic hydroxyl group bubble unit 700. The fan 730 flows into the water tank 760 formed inside the photocatalyst hydroxyl bubble unit 700, and purified by the purified water stored inside the water tank 760 and ozone injected from the photocatalytic hydroxyl group generator 750 . The purified air moves to the inner upper portion of the photocatalytic hydroxyl bubble unit 700 and moves to the pressure filter unit 300 through the tube. And the air purified once more by the pressure filtration unit 300 is finally moved to the photocatalytic hydroxyl generator 400 to remove sterilization and ozone, and to move outward through the purified air outlet fan 480 .

The water intake filtration unit 100 is buried underground or installed on the ground, and is connected to a plurality of outside intake inlet pipes 110 at the bottom, and the space is separated by a screen 115 on the inside, and the screen In order to move the water purified by 115 to the outside, the water intake outlet pipe 130 is formed from the inside of the screen 115 to the outside of the ground, and is connected to the water intake outlet pipe 130 and is connected to the ground by a water pump ( 120) is connected, a water level sensor 175 is formed inside the screen 115, and is connected to the water level sensor 175 to form a control unit 170 on the ground.

The open filter unit 200 forms a roof 270 on the upper portion to prevent foreign substances, and the water intake outlet pipe 130 connected to the water intake filter unit 100 is connected to one upper side, and a sedimentation tank 240 is located inside. ) is formed, and a primary filtration tank 250 and a secondary filtration tank 260 surrounded by a screen are formed in a part of the settling tank 240 to filter out foreign substances, and the lower end of the secondary filtration tank 260 is on one side of the outside. An open-type filtration water pipe 230 for moving the purified water is formed, and the water moved through the water intake and outlet pipe 130 is stored in the settling tank 240, passes through the primary filtration tank 250, and passes through the secondary filtration tank It passes through 260 and moves to the outside through the open filter water pipe 230 .

The pressure filtration unit 300 is formed with an adsorption purification material 360 by selecting any one of activated carbon or zeolite or silica sand or ionic resin or heavy metal adsorbent on the inside, and a lid 350 is formed on the upper part, and the lower part of the outer A pedestal 390 is formed and supported, and an open type filtration water pipe 230 connected through a hole from the outside to the inside is formed on one side, and a pressure filtration outlet pipe 330 is formed on the other side, and the open type filtration water pipe The water moving inward through 230 is purified by the adsorption purifier 360 and moves to the outside through the pressure filtration outlet pipe 330 .

When using the system as the main body 1 configured as described above, water flowing through the first water intake pipe 110 for living water, agricultural water and groundwater, valley water, rainwater and sewage treatment plant, reservoir, river, stream, etc. It moves to the inside of the water intake filtration unit 100 . The moved water filters out foreign substances by the screen 115 inside the water intake filtration unit 100 and moves along the water intake outlet pipe 130 by the water supply pump 120 . At this time, the amount of water inside can be sensed by the water level sensor 175 formed inside the water intake filtration unit 100, and the control unit 170 controls the operation of the water intake filtration unit 100 according to the amount of water. can

The water moved along the water intake outlet pipe 130 moves to the inside of the open type filtration unit 200 and is stored in the settling tank 240 . The primary filtration tank 250 and the secondary filtration tank 260 formed inside the settling tank 240 move in turn the water stored in the settling tank 240, and the foreign substances are precipitated in the settling tank 240 and the primary filtration tank ( 250) and the secondary filtration tank 260 are sequentially moved, and when passing through the primary filtration tank 250 and the secondary filtration tank 260, foreign substances are filtered by the screen.

Water purified through the open filtration water pipe 230 passes through the pressure filtration unit 300 and is purified, passes through the photocatalytic hydroxyl generator 400 , sterilizes and removes ozone, and finally the water tank 600 . , and the water filtered by the water tank filtering unit 500 formed inside the water tank 600 is moved to the outside through the water tank outlet pipe 630 .

If the present inventor's rainwater and river water quality purification, livestock house, environmental pollution facility odor removal and virus sterilization complex system is used, it is installed in places where water flows such as living water, agricultural water, underground water, valley water, rainwater, rivers, reservoirs, streams, and sewage treatment plants. It can purify water by removing various heavy metals, various viruses, and green algae by adding adsorbent materials such as activated carbon, zeolite, silica sand, ion resin, and heavy metal adsorbent. Or, it can be installed in an area where the air is polluted, and can sterilize various viruses and bacteria in water or air and remove odors using a photocatalytic hydroxyl generator, and install an underground buried water tank to minimize changes in external temperature It has the effect of supplying clear tap water by precipitating foreign substances such as red tap water or sand using a screen by forming a filtration device in the

1 is a block diagram of the present inventors' rainwater, river water purification, livestock house, environmental pollution facility odor removal and virus sterilization complex system.
Figure 2 is a configuration diagram of the water intake filtration unit of the present invention rainwater river water purification, livestock, environmental pollution facility odor removal and virus sterilization complex system.
Figure 3 is a configuration diagram of the open-type filtration unit of the present invention rainwater, river water purification, livestock, environmental pollution facility odor removal and virus sterilization complex system.
Figure 4 is a configuration diagram of the pressure filtration unit of the present invention rainwater river water purification, livestock, environmental pollution facility odor removal and virus sterilization complex system.
5 is a configuration diagram of a photocatalytic hydroxyl generator of the present invention, a complex system for purifying rainwater, river water, livestock, environmental pollution facility, odor removal, and virus sterilization.
6 is a configuration diagram of a water tank filter unit and a water tank of the present inventors' rainwater and river water purification, livestock house, odor removal and virus sterilization complex system of environmental pollution facilities.
7 is a configuration diagram of the ozone water bubble unit of the present inventors' rainwater, river water purification, livestock house, odor removal and virus sterilization complex system for environmental pollution facilities.
8 is a configuration diagram according to an embodiment of the present invention, a system for purifying rainwater, river water, livestock, environmental pollution facility, odor removal, and virus sterilization complex system.
9 is a configuration diagram according to another embodiment of the present invention, rainwater river water purification, livestock, environmental pollution facility odor removal and virus sterilization complex system.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. A detailed description thereof is omitted.

And, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users and operators. Therefore, the definition should be made based on the content throughout this specification.

1 is a block diagram of the present invention, FIG. 2 is a block diagram of a water intake filtration unit of the present invention, FIG. 3 is a block diagram of an open type filtration unit of the present invention, and FIG. 4 is a block diagram of a pressure filtration unit of the present invention, 5 is a block diagram of a photocatalytic hydroxyl generator of the present invention, FIG. 6 is a block diagram of a water tank filtering unit and a water tank of the present invention, FIG. 7 is a block diagram of an ozone water bubble unit according to the present invention, and FIG. 8 is a block diagram of the present invention is a configuration diagram according to an embodiment of the present invention, Figure 9 is a configuration diagram according to another embodiment of the present invention,

When described in detail with reference to FIG. 1,

The main body (1) of the present inventor's rainwater river water purification, livestock house, environmental pollution facility odor removal and virus sterilization complex system forms a manhole 150 on the upper part, and separates the inside using a screen 115, and the screen ( 115), a water intake inlet pipe 110 is formed at the lower end of the outer side, and is formed through a hole from the inside of the screen 115 to the outside, and a water intake filtration unit having an intake outlet pipe 130 for moving purified water to the outside. A roof 270 is formed on the 100 and the upper part, a primary filtration tank 250 and a secondary filtration tank 260 are formed on the inside, a settling tank 240 is formed, and a water intake outlet pipe 130 is installed on one side. The other side of the secondary filtration tank 260 is formed with an open filtration unit 200 forming an open filtration water pipe 230 on the lower side and a lid 350 on the upper side, and a pedestal 390 on the lower side. The pressure filtration unit 300 and the pressure in which the adsorption purification material 360 is put therein, the open filtration water supply pipe 230 is formed on one side, and the pressure filtration outlet pipe 330 is formed on the other side. A type of filter outlet pipe 330 is formed on one side, a photocatalytic hydroxyl generator generating unit outlet pipe 430 is formed on the other side, and the pressure filter outlet pipe 330 and the photocatalytic hydroxyl group generating unit outlet pipe 430 are formed. A photocatalytic hydroxyl generator generating unit 400 formed by alternately disposing an adsorption filter 450 and a photocatalytic hydroxyl nozzle 460 inside and a photocatalytic hydroxyl generator generating unit outlet pipe 430 connected to the upper part, , a water tank filtration in which a plurality of screen outlets 530 are formed on the upper periphery to communicate with the outside, and a sedimentation induction screen 550 is formed in the inner central portion to separate the inner upper and lower portions and induce the precipitation of foreign substances. The part 500 and the water tank filtering part 500 are formed on the inside, and are buried underground using a wall panel 620 and an underground reinforcement panel 660 on the periphery, and a water tank outlet pipe 630 on one side. and a water tank 600 for moving purified water to the outside.

In the system of the present inventors constructed as described above, water flowing through the water intake filtration unit 100 for living water, agricultural water and groundwater, valley water, rainwater and sewage treatment plants, reservoirs, rivers, streams, etc. by the first intake inlet pipe 110 move inward The moved water filters out foreign substances by the screen 115 inside the water intake filtration unit 100 and moves along the water intake outlet pipe 130 by the water supply pump 120 . At this time, the amount of water inside can be sensed by the water level sensor 175 formed inside the water intake filtration unit 100, and the control unit 170 controls the operation of the water intake filtration unit 100 according to the amount of water. can The water intake filtration unit 100 is controlled by measuring the amount of water inside the water intake filtration unit 100 by the water level sensor 175 in real time to restrict the operation during a drought period and operate it when the flow rate of water is high.

The water moved along the water intake outlet pipe 130 moves to the inside of the open type filtration unit 200 and is stored in the settling tank 240 . The primary filtration tank 250 and the secondary filtration tank 260 formed inside the settling tank 240 move in turn the water stored in the settling tank 240, and the foreign substances are precipitated in the settling tank 240 and the primary filtration tank ( 250) and the secondary filtration tank 260 are sequentially moved, and when passing through the primary filtration tank 250 and the secondary filtration tank 260, foreign substances are filtered by the screen.

Water purified through the open filtration water pipe 230 passes through the pressure filtration unit 300 and is purified, passes through the photocatalytic hydroxyl generator 400 , sterilizes and removes ozone, and finally the water tank 600 . , and the water filtered by the water tank filtering unit 500 formed inside the water tank 600 is moved to the outside through the water tank outlet pipe 630 .

When described in detail with reference to FIG. 2,

The water intake filtration unit 100 is buried underground or installed on the ground, and a plurality of intake intake pipes 110 connecting the outside and the inside are formed at the lowest end of the water intake filtration unit 100 . Water flowing through the water intake pipe 110 for living water, agricultural water and groundwater, valley water, rainwater and sewage treatment plants, reservoirs, rivers, streams, etc. moves to the inside of the intake filter 100 .

The water moving to the inside of the water intake filtration unit 100 fills up from the bottom, and the water moves to the inside of the screen 1150 separated by the screen 115 . Water containing foreign substances is filtered by the screen 115 , and when the foreign substances are filtered by the screen 115 , purified water not containing foreign substances is located inside the screen 115 .

As described above, the purified water is located inside the screen 115 , and the purified water must be moved to the outside of the water intake filtration unit 100 . To this end, the water intake outlet pipe 130 connecting the inside of the screen 115 and the outside of the water intake filtration unit 100 is formed. A water supply pump 120 is additionally configured to move water to the outside through the water intake outlet pipe 130 . In addition, the water level sensor 175 is installed on the inside of the screen 115, and the control unit 170 is formed on the ground of an outsider to detect the water level inside the water intake filtration unit 100 in real time, and the operation of the intake filtration unit 100 can be controlled.

Specifically, the inner side of the water intake filtration unit 100 is separated by a screen 115 , and the water intake outlet pipe 130 is connected to the screen 115 to move the water purified by the screen 115 to the outside. is formed from the inside to the outside of the ground, is connected to the water intake outlet pipe 130 and the water pump 120 is connected to the ground, a water level sensor 175 is formed inside the screen 115, the water level sensor It is connected to 175 to form a control unit 170 on the ground.

When described in detail with reference to FIG. 3,

The open filter unit 200 is configured in a box shape, and a roof 270 is formed on the upper portion to prevent foreign substances from falling into the open type filter unit 200, and a sedimentation tank 240 is installed to store water therein. formed, and a primary filtration tank 250 and a secondary filtration tank 260 are formed in a portion of the settling tank 240 .

The primary filtration tank 250 and the secondary filtration tank 260 are configured so that the water in the settling tank 240 can move, and the direction of water moves from the settling tank 240 to the primary filtration tank 250, and the primary filtration tank Moves from 250 to the secondary filtration tank (260).

The secondary filtration tank 260 separates the upper part from the lower part using a filter or screen, and the lower part of the secondary filtration tank 260 includes the settling tank 240 and the primary filtration tank 250 and the upper part of the secondary filtration tank 260 . The purified water that has passed through is located.

An open filtration water pipe 230 is formed at the lower end of one side of the open filtration unit 200 in order to move the purified water located in the lower portion of the secondary filtration tank 260 to the outside of the open filtration unit 200 .

In addition, the drain pipe 245 is connected to the settling tank 240 in order to wash the open filtration unit 200 later. A drain valve 247 is formed in the central portion of the drain pipe 245 to control the drain pipe 245 .

Specifically, the open filter unit 200 forms a roof 270 on the upper portion to prevent foreign substances, and the water intake and outlet pipe 130 connected to the intake filter unit 100 is connected to one upper side, and the inside A settling tank 240 is formed, and a primary filtration tank 250 and a secondary filtration tank 260 surrounded by a screen are formed in a part of the settling tank 240 to filter out foreign substances, and the lower end of the secondary filtration tank 260 . An open-type filtration water pipe 230 for moving purified water to the outside is formed on one side, and the water moved through the water intake outlet pipe 130 is stored in the settling tank 240, and passes through the primary filtration tank 250 and It passes through the secondary filtration tank 260 and moves to the outside through the open filtration water pipe 230 .

When described in detail with reference to FIG. 4,

The pressure filtration unit 300 is formed in a box shape or a cylindrical shape, and a lid 350 is formed on the upper part to prevent the mixing of foreign substances inside, and a pedestal 390 is formed on the outer lower part to firmly support the role. do

An adsorption purifying material 360 is put inside the pressure filtration unit 300 so that water or air passing through the pressure filtration unit 300 is purified or purified by the adsorption purifying material 360 .

An open filtration water pipe 230 is formed on one side of the lower end of the pressure filtration unit 300, and a pressure filtration outlet pipe 330 is formed on another side of the lower end of the pressure filtration unit 300, the open filtration water pipe Water to be purified or air to be purified is input through 230, purified or purified from the inside of the pressure filtration unit 300, and purified water or purified air is discharged to the outside through an open filtration water pipe 230 will be.

A purified water outlet valve 325 is formed on one side of the open filtration water pipe 230 and the pressure filtration outlet pipe 330 to control the discharge of purified water or purified air, and the open type filtration water pipe 230 and The backwash water outlet pipe 318 is connected to the other side of the pressure filtration outlet pipe 330 to wash the inside of the open filtration water pipe 230 and the pressure filtration outlet pipe 330 .

A raw water inlet 310 is formed at one side of the backwash water outlet pipe 318 to inject raw water into the backwash water outlet pipe 318, and a raw water inlet valve 315 and a backwash water outlet valve 317 are provided. It is configured to be able to control the flow rate of the raw water inlet 310 and to control the flow rate of the backwash water outlet pipe 318 by configuring .

Specifically, the pressure filtration unit 300 is formed as an adsorption purification material 360 by selecting any one of activated carbon or zeolite or silica sand or ionic resin or heavy metal adsorbent on the inside, and forming a lid 350 on the top, and the outside At the lower end, a pedestal 390 is formed and supported, and an open-type filtration water pipe 230 connected through a hole from the outside to the inside is formed on one side, and a pressure-type filtration outlet pipe 330 is formed on the other side, and the open type The water moving inward through the filtration water pipe 230 is purified by the adsorption purifier 360 and moves to the outside through the pressure filtration outlet pipe 330 .

When described in detail with reference to FIG. 5,

The photocatalytic hydroxyl generator 400 is formed in a cylindrical shape, and the adsorption filter 450 and the photocatalytic hydroxyl nozzle 460 are alternately arranged therein.

A pressure filtration outlet pipe 330 is formed on one side of the photocatalytic hydroxyl generator 400 to inject water or air to sterilize or remove ozone, and a photocatalytic hydroxyl group is generated on the other side of the photocatalytic hydroxyl generator 400 . A secondary outlet pipe 430 is formed to discharge water or air from which sterilization or ozone has been removed.

The adsorption filter 450 and the photocatalytic hydroxyl nozzle 460 are alternately arranged inside the photocatalytic hydroxyl generator 400 to remove ozone by the adsorption filter 450 and sterilize by the photocatalytic hydroxyl nozzle 460. have.

When described in detail with reference to FIG. 6,

The water tank 600 is buried using a wall panel 620 and an underground reinforcement panel 660 on the periphery to be buried underground, and a water tank outlet pipe 630 is formed on one side of the water tank 600 . Purified water can be moved to the outside, on the ground.

A water tank filtering unit 500 is formed inside the water tank 600 . The water tank filtration unit 500 is formed in a box shape or a cylindrical shape, and the photocatalytic hydroxyl group generating unit outlet pipe 430 into which water or air sterilized by the photocatalytic hydroxyl group generating unit 400 of FIG. ), and a plurality of screen outlets 530 are formed on the upper side, so that water or air injected into the water tank filtering unit 500 passes through the screen outlet 530 and is discharged to the outside.

A sedimentation inducing screen 550 is formed at the inner lower end of the water tank filtering unit 500 to form a screen for inducing sediment. A drain outlet 545 is connected to the outside at the lower end of the water tank filtering unit 500 to be used when washing the water tank filtering unit 500 .

The water tank 600 is buried underground, and the bottom part is formed of a floor panel 625 , and the side part is formed using a wall panel 620 and an underground reinforcement panel 660 .

Specifically, the water tank filtration unit 500 connects the photocatalytic hydroxyl generator outlet pipe 430 to the upper portion, and forms a plurality of screen outlets 530 to communicate with the outside on the upper periphery. A sedimentation induction screen 550 is formed to separate the upper part and the lower part and induce the sedimentation of foreign substances.

When described in detail with reference to FIG. 7,

The photocatalytic hydroxyl bubble unit 700, the pressure filter unit 300, and the photocatalytic hydroxyl group generating unit 400 are shown, wherein the photocatalytic hydroxyl group bubble unit 700 is a polluted air inlet fan that sucks air from the outside on its outer surface. 730 is formed, a water tank 760 for moving air to the inside through the polluted air inlet fan 730 is formed at the inner lower end, and a spray nozzle 765 is formed at the upper end of the water tank 760, and , the water tank 760 is connected to an external photocatalytic hydroxyl generator 750 using a circulation pipe 755 , and a filter 770 is formed inside the photocatalytic hydroxyl generator 750 .

As shown in the figure, if the photocatalytic hydroxyl group bubble unit 700, the pressure filter unit 300, and the photocatalytic hydroxyl group generator unit 400 are connected to each other, the first contaminated air is contaminated air included in the photocatalytic hydroxyl group bubble unit 700. The fan 730 flows into the water tank 760 formed inside the photocatalyst hydroxyl bubble unit 700, and purified by the purified water stored inside the water tank 760 and ozone injected from the photocatalytic hydroxyl group generator 750 .

The purified air moves to the inner upper portion of the photocatalytic hydroxyl bubble unit 700 and moves to the pressure filter unit 300 through the tube. And the air purified once again in the pressure filtration unit 300 is finally moved to the photocatalytic hydroxyl generator 400 to sterilize, remove ozone, and move to the outside through the purified air outlet fan 480 .

When described in detail with reference to FIGS. 8 and 9,

The water intake filtration unit 100 may be installed in the water channel 171 to purify and flow water flowing through the water channel 171 .

In addition, a rainwater collection pipe 850 that can collect rainwater is formed, an open filter 200 is installed in the middle to allow rainwater to pass, and a sand layer rainwater storage 800 including a sand layer 190. Forming, forming a water intake filtration unit 100 in the center of the sand layer rainwater reservoir 800, forming a pressure filtration unit 300, forming a photocatalytic hydroxyl generator 400, and forming a sand layer rainwater reservoir ( A water tank 600 is formed on the outside of the 800) to purify rainwater.

In the present invention, the above embodiment is an example, and the present invention is not limited thereto. Anything that has substantially the same configuration as the technical idea described in the claims of the present invention and achieves the same effect is included in the technical scope of the present invention.

1. body
100. Water intake filtration unit 110. Water intake pipe
115. Screen 120. Water Pump
130. Water intake and outlet pipe 150. Manhole
170. Control 171. Waterway
172. Riverbed 173. Plants
175. water level sensor 176. waterway water level sensor
178. Embankment 190. Sand Layer
200. Open filtration unit 230. Open filtration water pipe
240. Settling tank 245. Drain pipe
247. Drain valve 250. Primary filtration tank
260. Secondary filtration tank 270. Roof
300. Pressure filtration unit 310. Raw water inlet
315. Raw water inlet valve 317. Backwash water outlet valve
318. Backwash water outlet pipe 325. Purified water outlet valve
327. Backwash water inlet valve 330. Pressure filtration outlet pipe
350. Lid 360. Adsorption purification material
390. Pedestal 400. Photocatalyst hydroxyl group generator
420. Connection flange 430. Photocatalyst hydroxyl generator outlet pipe
450. Adsorption filter 451. Filter coupling part
460. Photocatalyst hydroxyl group nozzle 461. Nozzle fixing part
480. Purified air outflow fan 500. Water tank filtration unit
530. Screen outlet 545. Drain outlet
550. Sedimentation induction screen 600. Water tank
610. Roof panel 620. Wall panel
625. Floor panel 630. Water tank outlet pipe
650. Ventilation hall 660. Basement reinforcement panel
700. Photocatalyst hydroxyl group bubble part 730. Contaminated air inlet fan
750. Photocatalytic hydroxyl generator 752. Water supply pipe
755. Circulation pipe 760. Water tank
765. Spray nozzle 770. Filter
800. Sand layer rainwater storage 850. Rainwater collection pipe
900. Valley

Claims (5)

A manhole 150 is formed on the upper part, the inner side is separated using a screen 115 , and a water intake inlet pipe 110 is formed at the lower end of the outer side of the screen 115 , and from the inner side of the screen 115 to the outer side. a water intake filtration unit 100 formed through a through hole and formed with an intake outlet pipe 130 for moving purified water to the outside;
A roof 270 is formed on the upper part, a primary filtration tank 250 and a secondary filtration tank 260 are formed on the inside, a settling tank 240 is formed, a water intake outlet pipe 130 is formed on one side, and an open filtration unit 200 forming an open filtration water pipe 230 in the lower portion of the secondary filtration tank 260, which is the other side;
The lid 350 is formed on the upper part, the pedestal 390 is formed on the lower part, the adsorption purifying material 360 is put therein, the open type filtration water pipe 230 is formed on one side, and the pressure type filtration is formed on the other side. a pressure-type filtration unit 300 having an outlet pipe 330 formed thereon;
A pressure filtration outlet pipe 330 is formed on one side, and a photocatalytic hydroxyl generator generating unit outlet pipe 430 is formed on the other side, and the pressure filtering outlet pipe 330 and the photocatalytic hydroxyl group generating unit outlet pipe 430 are formed. a photocatalyst hydroxyl generator generating unit 400 formed in a cylindrical shape between
Connect the photocatalyst hydroxyl generator outlet pipe 430 to the upper part, form a plurality of screen outlets 530 to communicate with the outside around the upper side, and separate the inner upper and lower parts in the inner central part and prevent the precipitation of foreign substances a water tank filtering unit 500 having a settling induction screen 550 for inducing;
The water tank filter unit 500 is formed on the inside, and is buried underground using a wall panel 620 and an underground reinforcement panel 660 on the periphery, and a water tank outlet pipe 630 is formed on one side to the outside. Composite system for purifying rainwater, river water, livestock, environmental pollution facility odor removal and virus sterilization consisting of a water tank 600 that moves purified water. The method according to claim 1,
A photocatalytic hydroxyl bubble unit 700 is additionally configured in place of the water intake filtration unit 100 and the open type filtration unit 200,
The photocatalytic hydroxyl bubble unit 700 forms a polluted air inlet fan 730 that sucks in air from the outside on the outer surface, and a water tank 760 for moving air to the inside through the polluted air inlet fan 730 . is formed at the inner lower end, a spray nozzle 765 is formed at the upper end of the water tank 760, and is connected to an external photocatalytic hydroxyl generator 750 using a circulation pipe 755 in the water tank 760, Rainwater river water purification, livestock house, environmental pollution facility odor removal and virus sterilization complex system, characterized in that a filter (770) is formed inside the photocatalytic hydroxyl generator (750). The method according to claim 1,
The water intake filtration unit 100 is buried underground or installed on the ground, and is connected to a plurality of outside intake inlet pipes 110 at the bottom, and the space is separated by a screen 115 on the inside, and the screen In order to move the water purified by 115 to the outside, the water intake outlet pipe 130 is formed from the inside of the screen 115 to the outside of the ground, and is connected to the water intake outlet pipe 130 and is connected to the ground by a water pump ( 120) is connected, a water level sensor 175 is formed inside the screen 115, and is connected to the water level sensor 175 to form a control unit 170 on the ground. , a combination system for removing odors and sterilizing viruses for environmental pollution facilities. The method according to claim 1,
The open filter unit 200 forms a roof 270 on the upper portion to prevent foreign substances, and the water intake outlet pipe 130 connected to the water intake filter unit 100 is connected to one upper side, and a sedimentation tank 240 is located inside. ) is formed, and a primary filtration tank 250 and a secondary filtration tank 260 surrounded by a screen are formed in a part of the settling tank 240 to filter out foreign substances, and the lower end of the secondary filtration tank 260 is on one side of the outside. An open-type filtration water pipe 230 for moving the purified water is formed, and the water moved through the water intake and outlet pipe 130 is stored in the settling tank 240, passes through the primary filtration tank 250, and passes through the secondary filtration tank Rainwater river water purification, livestock house, environmental pollution facility odor removal and virus sterilization complex system, characterized in that it passes through (260) and moves to the outside through the open-type filter water pipe (230). The method according to claim 1,
The pressure filtration unit 300 is formed with an adsorption purification material 360 by selecting any one of activated carbon or zeolite or silica sand or ionic resin or heavy metal adsorbent on the inside, and forming a lid 350 on the top, and at the bottom of the outside A pedestal 390 is formed and supported, and an open type filtration water pipe 230 connected through a hole from the outside to the inside is formed on one side, and a pressure filtration outlet pipe 330 is formed on the other side, and the open type filtration water pipe Water that has moved inward through 230 is purified by the adsorption purifier 360 and moved to the outside through the pressure filtration outlet pipe 330. Removal and virus sterilization complex system.

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