KR101226206B1 - Water purifying apparatus using 6-way filter and waterpurification method using that - Google Patents

Abstract

The present invention relates to a water purification device and a purification method using a six-way filter, the configuration is the top is open and is surrounded by the first filter binding network (50) on the side and the bottom and the outer surface is contaminated water from outside to the inside Installed in the frame 20 and the outer frame 20 is wrapped around the side circumference and the upper surface with a second filter medium (60) and connected to one end of the filtered water outlet pipe 40 and the filtered water outlet pipe ( The other end portion of the 40 is an inner frame 30 formed by protruding to the outside of the outer frame 20, and a median layer formed of a particulate filter 81 filled between the outer frame 20 and the inner frame 30 ( 80 and a tubular filter 10 provided with a lid 90 which is seated and coupled to an upper portion of the outer frame 20 and is detachable and formed with a plurality of voids 91; A water collecting tank 100 installed at a lower predetermined distance of the filter 10 and having a water storage space therein; One end portion is in contact with the lower end portion of the filtered water outlet pipe 40 of the filter 10 and the other end penetrates through the upper side of the sump (100) protruding upwardly coupled to the combined water inlet pipe 110 and; And a filtered water discharge pipe 200 connected to one side of the collecting container 100 so that the filtered water collected in the collecting container 100 is discharged to the outside.
On the other hand, by introducing contaminated water in 6 directions before, after, left, right, up and down of the filter, the filtration area is maximized to improve the purification efficiency.

Description

Water purifying apparatus using 6-way filter and waterpurification method using that}

The present invention relates to a water purification device and a purification method using a six-way filter, and more specifically, to purify the filtration area by introducing contaminated water in six directions before, after, left, right, up, and down of the filter. The efficiency can be improved, and the filter and the sump can be connected together so that the contaminated water is stored or continuously introduced, that is, contaminated rainwater, river water, pond water, etc., which contain a lot of soil and contaminants. Purification or pretreatment facilities, or reprocessing facilities for polluted water such as sewage and wastewater containing fine suspended matter, or reprocessing facilities after intake and purification of tap water, and adsorption and contact facilities to remove harmful substances. Float on the water surface of the polluted water such as water or settle on the bottom to clean it easily, regardless of the separate facility for treating the polluted water or wastewater The present invention relates to a water purification device and a purification method using a six-way filter capable of purifying contaminated water.

In general, pollutants accumulate on the surface of development areas such as cities, industrial complexes, etc. due to human activities such as housing, industrial activities, and enrichment industries, and most of these pollutants flow into rivers with rainwater during rainfall. In rivers, lakes, and ponds, the pollution level is increased due to the action of microorganisms and algae that feed these pollutants, which adversely affects the aquatic ecosystem, and affects the use of water.

In addition, sewage, sewage, and various industrial wastewater are also discharged after being purified through purification facilities, but in most cases pollutants are discharged without sufficient removal of pollutants due to cost burden, etc. It is disturbing.

In order to protect the quality of public water or use it as water, it is equipped with a filter to remove pollutants generated in the development area or pollutants of sewage, sewage and various industrial wastewater discharged without sufficient contaminants. A filtration facility is installed to filter and clean contaminated water.

Currently, the following technologies are used to purify the contaminated water.

Patent Registration No. 10-0546061, "First-time excellent total filtration method and apparatus using a multi-area filtration facility" is a facility for purifying contaminated water by securing a large filtration area by installing a large number of cylindrical filters filled with particulate filter. The cylindrical filter has a bottom and top surface, and the bottom and top surfaces are not used as the filtering surface. Therefore, the filter is filtered in only four directions of the side, so the filter area is small. I have a problem,

In addition, since the collected water collecting pores inside the filter are long formed by sticking to the upper and lower surfaces of the filter, the filled particulate media of the filter settles with water as time passes and the upper part of the collecting pores is exposed without the filter layer. There is a problem that the contaminated water flows directly through the surface without passing through the filter media layer, and there is a problem in that it takes time and cost by binding with a wire in attaching the filter media to the filter frame.

In addition, in order to form a multi-layer layer for internal filtration as a single filter layer filtration facility, it is necessary to install a filter network as a partition facility for separating the filter medium inside the filter, and thus a manufacturing cost is required.

In addition, in the case of the media restraint network, there must be media insertion hole for each media in the upper lid, and it is difficult to input and replace media through this hole and thus it is expensive.

In addition, the use of too small particles is a single filter bed filtration facility, the quality of the filtered water is good, but the surface filtration time is shortened, and if the large particles are used, the internal filtration occurs to some extent, there is a problem of poor quality of the filtered water.

As another technology, Korean Patent Registration No. 10-0713591 "Manhole Mounting Purification Device", which uses rainwater gutters, which are excellent drainage facilities at the side of roads, as a non-point source purification facility, has created a separate structure called a chamber. It is a facility that cleans the initial rainwater through the rain gutter structure and the surplus water flows through the overflow port of the chamber wall, and installs a cylindrical first filter and a horizontal second filter inside the chamber. There is.

① It is necessary to make a structure called a separate chamber smaller than the existing rain gutter and insert it inside the existing rain gutter so that excess water can be discharged through the four wall walls and discharged. Therefore, the bottom area of the chamber becomes small, so that the first filter is small and the filtration area of the second filter. Since it is smaller than the bottom area of the existing rain gutters, the filtration duration is short, resulting in high maintenance frequency.

(2) If the second filter uses a single particle size filter medium as a single layer filter medium, the surface filtration becomes short and the filtration duration is shortened.

③ It takes a lot of manufacturing cost of the chamber formed by four sides.

④ The initial excellent storage space available in the chamber is smaller than the existing rain gutters, so the initial excellent catching amount is small, and the excess flow of pollutants is increased when the first filter is blocked.

⑤ The maintenance of the sludge dredging and the cleaning of the strainer requires the entire chamber to be removed from the rain gutter, which makes the maintenance difficult.

On the other hand, in the water purification of open water such as ponds, the conventional method requires the construction of a separate purification structure for water purification of contaminated water and the installation of a purification structure for the installation and support of a filter inside the structure. In many cases, these facilities cannot be installed due to the high cost and difficulty in installing the purification structure.

Accordingly, there is a problem that can not easily and economically clean the contaminated water, such as a large number of ponds, open water, such as a reservoir, or a water tank into which contaminated water exists in various forms in various places.

As described above, the conventional technologies are high-cost technologies that require a lot of facility and maintenance costs, and are low-efficiency technologies that are costly and low in removing pollutants.

The present invention has been made to solve these problems, the object of the present invention is to develop a low-cost high-efficiency filter and water purification device to use a multi-purpose

(1) for low cost

① Increase the filtering area by securing 5 ~ 6 directions of filtration surface by adding up or down direction to the front, rear, left and right direction of cylindrical filter.

② By using multiple filter filling tanks for the construction of a multilayer filter layer inside the filter, the filter media is omitted.

③ The filter can be filled and exchanged easily by making the filter binding network to be attached and detached quickly without increasing the upper opening surface of the filter and separating the filter layer inside the filter.

④ Small sized simple overflow water pipe and rainwater blocking plate are installed in the rain gutter to reduce the production cost and secure the effective space.

⑤ In open waters such as ponds, water tanks, etc., a mobile water purifying device that can be installed inside the water space without using a separate purification structure is used.

(2) For high efficiency

① Install the filtered water collecting cavity in the filter to be buried in the filter bed so that all the filtered water is drained through the filter bed even if the filling filter is compacted and settled.

② The medium-large and medium-sized filter filling method is used to fill the filter layer with large particle size filter in the front, small particle size filter in the middle, and medium size filter in the end to allow the use of small particle size while using internal filtration. To filter out fine contaminants.

Therefore, the above object is, in the water purification apparatus for purifying waste water,

Water Purification System,

The upper part is opened and is surrounded by the first median binding network 50 on the side circumference and the lower surface, the outer frame 20 of the tubular shape in which the contaminated water flows from the outside to the inside, and is installed inside the outer frame 20 and the side circumference Wrapped with a second filter medium (60) on the upper surface and one end of the filtrate outflow pipe 40 is connected to the lower end and the other end of the filtrate outflow pipe 40 protrudes outside the outer frame 20 The inner frame 30 of the shape, the filter medium layer 80 formed of the particulate filter 81 filled between the outer frame 20 and the inner frame 30, and is seated and coupled to the upper portion of the outer frame 20 A filter 10 provided with a lid 90 that is removable and has a plurality of pores 91 formed therein;

A water collecting tank 100 installed at a lower distance from the lower portion of the filter 10 and having a filtered water storage space therein;

One end portion is in contact with the lower end of the filtered water outlet pipe 40 of the filter 10 and the other end is a combined water inlet pipe 110 and the through pipe connected to the upper side of the sump (100);

It is provided; and the filtered water discharge pipe 200 is connected to one side of the collecting container 100 so that the filtered water collected in the water collecting container 100 to the outside.

Alternatively, the upper part is opened and wrapped in the first circumferential binding network 50 on the side circumference and the lower surface of the tubular outer frame 20 into which the contaminated water flows from the outside to the inside, and is installed inside the outer frame 20. It is surrounded by a second filter medium (60) on the side circumference and the upper surface and one end of the filtered water outlet pipe 40 is connected to the lower side and the other end of the filtered water outlet pipe 40 is projected outside the outer frame 20 An inner frame 30 having a cylindrical shape, a filter medium layer 80 formed of a particulate filter 81 filled between the outer frame 20 and the inner frame 30, and seated on the outer frame 20. A filter 10 coupled to and detachable and provided with a lid 90 in which a plurality of voids 91 are formed;

The water collecting container 100 is installed at a position with a predetermined distance from the lower part of the filter 10 and the filtrate outlet pipe 40 is inserted into the filtrate inlet 101 formed at one side of the upper surface thereof, and the filtrate storage space is formed therein. and;

Filtrate discharge pipe 200 connected to one side of the sump (100) so that the filtered water collected in the sump (100) to the outside; provided with a lower surface of the filter (10) the sump (100) It is provided to be seated coupled to the upper surface of the.

Here, the lid 90 may be provided with a protrusion faucet 92 and the opening and closing ring 93 in one area of the upper surface.

The first and second media binding networks 50 and 60 may be provided by selecting any one of plastic materials, stainless materials, synthetic resins, synthetic rubbers, or composite materials thereof.

The first filter binding network 50 is smaller than the size of the front filling medium so that the size of the mesh is not filtered out, the second filter binding network 60 is smaller than the particle size of the rear filling medium.

The particulate filter 81 is at least one of zeolite, perlite, diatomaceous earth, garnet, anthracite, sand, activated carbon, lightweight stone, foamed stone, steelmaking slag, ion exchange resin, solidified slug, wood chips, plastic chips, and clay molding media. The above selection may be provided.

The mediator layer 80 fills the mediator with a large particle size toward the outer surface of the inner frame 30 from the front, rear, left, right, top, and bottom of the outer frame 20 and the larger size of the mediator. The front and rear shape of the fore and after filling the small media toward the inside of the media, or the outer frame 20 inside the front, rear, left, right, top, bottom of the six sides of the inner frame 30 toward the outer surface of the media in the front It is large and small in the middle portion, in the vicinity of the inner frame 30, the particles may be provided in the form of small and medium heavy for filling medium-sized media.

The outer frame 20 of the filter 10 has a first upper and lower rings 21 and 23 respectively disposed at positions facing each other at a predetermined distance up and down, and then the first upper and lower rings 21 ( The both sides of the first support rods 22 and the first support rods 24 are contacted to the edges of the 23 and the inside of the first lower ring 23 at predetermined intervals, respectively, so that the entire side portion and the bottom surface are provided in a mesh shape. ,

The inner frame 30 of the filter 10 has the second upper and lower rings 33 and 34 respectively disposed at positions facing each other at a predetermined distance up and down, and then the second upper and lower rings 33 ( 34 is provided in a mesh shape by connecting both ends of the plurality of second support rods 32 and the second support rods 35 at regular intervals to the edge of the second upper ring 33 and the inside of the second upper ring 33. However, instead of the second supporting rod 35 provided on the upper portion of the inner frame 30, the disc 31 may be installed.

Each of the first upper and lower rings 21 and 23 and the second upper and lower rings 33 and 34 may be provided by selecting any one of a circle or a polygon or more.

The disc 31 may be provided in a state where a plurality of voids are formed or blocked.

The plate-shaped holder 120 is installed on the upper part of the sump container 100, but the plate-shaped cradle 120 has a filtered water outlet tube through hole at a position corresponding to the filtrate inlet 101 formed on the upper surface of the sump container 100. 121 is formed.

The collecting container 100 may be provided with a mounting recess 122 so that the lower portion of the filter 10 is seated around the filtered water inlet 101 into which the filtered water outlet pipe 40 formed at one upper side thereof is inserted.

The plate holder 120 may be provided in the recess 122 ′ so that the lower portion of the filter 10 is seated in the mounting recess 122 of the water collecting container 100.

The filter 10 and the sump container 100 may further include a buoyancy body 130 connected to the upper portion of the filter 10 by a connecting strap 131 so that the filter 100 floats in the water.

The buoyancy body restraint skeleton 140 and the footrest 150 may be further installed on the buoyancy body 130.

The buoyancy body restraint frame 140 may be provided with a departure preventing edge 141 around the side portion to surround the buoyancy body 130 to prevent the buoyancy body 130 is separated.

Filtrate discharge pipe 200 installed through the sump (100) is connected to one end of the flexible pipe 160 to the end and the other end of the flexible pipe 160 is connected to one end of the external drain pipe 170 to the filter ( It is also possible to let the filtered water filtered through 10) outflow.

After arranging the plurality of filters 10 to a predetermined position and fixing them to the protruding nipple 92 of the lid 90 by connecting rod 180, the filter water outlet pipe of each filter 10 is integrated. It is also possible to provide a one-series water purification device (1a) consisting of one collecting tank 100 connected through the 40 and the filtered water discharge pipe 200 connected to one side of the collecting container 100.

On the other hand, the present invention provides a water purification method using a six-way filter for fixing the water purification device (1) of the present invention fixed to the bottom of the water body or connected to the floating member in a floating state in the water to purify the waste water contained in the water quality. .

As described above, the present invention,

First, by using the six-way or five-way surface of the filter as the filtration surface, the filtration area is maximized to reduce the installation cost of filtration facilities,

Second, the filter fabrication cost is reduced by eliminating the need for an internal partition to form a multilayer filter layer.

Third, it is possible to purify contaminated water at low cost by installing a mobile water purification device directly inside a contaminated water body without a separate purification structure.

Fourth, the filter maintenance cost is reduced by easy filter filling and filter replacement work,

Fifth, it is possible to use the filter medium of small particle size in filling the particulate filter to increase the filtered water quality by filtering the fine pollutants,

Sixth, precision filtration along with internal filtration and wide filtration area can be applied to various contaminated water purification such as contaminated water with high contaminants and contaminated water with fine contaminants.

Seventh, it is very useful to easily clean various sources of pollution by using a mobile water purification device.

1 is an exploded perspective view according to a first embodiment of the present invention;
2 is an exploded perspective view according to a second embodiment of the present invention;
3 is an exploded perspective view according to a third embodiment of the present invention;
Figure 4 is a perspective view of a multi-fill filling container used in one embodiment of the present invention
5 is a flow chart showing the filling of the media by placing the multi- media filling container of FIG.
6 is a cross-sectional view of the filling of the filter medium in the filter of the present invention
Figure 7 is a plan view of the mobile sewage water purification device coupled to the filter and the sump according to the present invention
8 is a cross-sectional view taken along line AA of FIG. 7.
9 is a plan view of the combined water inlet pipe combined holder of the portable sewage water purification device of Figure 7
10 is a cross-sectional view taken along line 'BB' of FIG.
Figure 11 is a plan view of a mobile suspended water purification apparatus combined with a filter and a sump according to the present invention.
12 is a cross-sectional view taken along line 'CC' of FIG.
Figure 13 is a perspective view of the buoyancy body restraint skeleton of the mobile floating water purification device in Figure 11
Figure 14 is a plan view of the mobile depositing water purification device of the present invention installed in the reservoir
15 is a cross-sectional view taken along line DD of FIG. 14.
Figure 16 is a plan view of the mobile water reservoir installed in the water tank of the present invention
17 is a cross-sectional view taken along line EE of FIG. 16.
18 is a plan view of a pond installed with a mobile landing water purification device attached to the pump sump according to the present invention
FIG. 19 is a sectional view taken along line FF of FIG.
20 is a plan view of the mobile floating water purification device installed in the water tank according to the present invention
FIG. 21 is a cross-sectional view taken along the line 'GG' of FIG. 20.
22 is a plan view of the mobile floating water purification device of the present invention installed in the reservoir
FIG. 23 is a sectional view taken along the line 'HH' of FIG.
24 is a plan view of the present inventors installed in the structure in which the plate holder is installed
FIG. 25 is a plan view 'II' of FIG. 24.
Figure 26 is a plan view of the present inventors filter installed in the rain gutter
FIG. 27 is a cross-sectional view taken along the line 'JJ' of FIG.
28 is a perspective view of the overflow plate having a overflow water outlet in the upper portion in FIG.
FIG. 29 is a plan view of a plate-shaped holder on which grooves are additionally installed in FIG. 27.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention; As shown in FIG. 1, the present invention includes an outer frame 20 having a tubular shape in which an upper portion thereof is opened and is surrounded by a first median binding network 50 at a side circumference and a lower surface thereof, and contaminated water flows from the outside to the inside. It is installed inside the outer frame 20 is wrapped around the side circumference and the upper surface with a second filter medium (60), and one end of the filtered water outlet pipe 40 is connected to the lower end and the other end of the filtered water outlet pipe 40 A medial layer 80 formed of a cylindrical inner frame 30 protruding to the outside of the outer frame 20, and a particulate filter 81 filled between the outer frame 20 and the inner frame 30. A tubular filter (10) provided with a lid (90) having a plurality of voids (91) formed thereon by being seated and coupled to an upper portion of the outer frame (20);

A water collecting tank 100 installed at a lower distance from the lower portion of the filter 10 and having a filtered water storage space therein;

One end portion is in contact with the lower end portion of the filtered water outlet pipe 40 of the filter 10 and the other end penetrates through the upper side of the sump (100) protruding upwardly coupled to the combined water inlet pipe 110 and;

A water purification device (1) provided with a filtered water discharge pipe (200) connected to one side of the collection container (100) so that the filtered water collected in the collection container (100) is discharged to the outside. It is possible to filter in 6 directions of right, top and bottom.

On the other hand, as shown in Figure 2 or 3, the top is open and wrapped in the first median binding network 50 on the side and bottom surface and the outer frame 20 of the tubular shape in which the contaminated water flows from the outside to the inside, It is installed inside the outer frame 20 is wrapped around the side circumference and the upper surface with a second filter medium (60), and one end of the filtered water outlet pipe 40 is connected to the lower end and the other end of the filtered water outlet pipe 40 A medial layer 80 formed of a cylindrical inner frame 30 protruding to the outside of the outer frame 20, and a particulate filter 81 filled between the outer frame 20 and the inner frame 30. A tubular filter (10) provided with a lid (90) having a plurality of voids (91) formed thereon by being seated and coupled to an upper portion of the outer frame (20);

The water collecting container 100 is installed at a position with a predetermined distance from the lower part of the filter 10 and the filtrate outlet pipe 40 is inserted into the filtrate inlet 101 formed at one side of the upper surface thereof, and the filtrate storage space is formed therein. and;

Filtrate discharge pipe 200 connected to one side of the sump (100) so that the filtered water collected in the sump (100) to the outside; provided with a lower surface of the filter (10) the sump (100) The water purifying device 1 is provided to be seated coupled to the upper surface of the filter, the filter is to allow the waste water to be filtered in five directions, front, rear, left, right, up.

In other words, the six-way filter 10 can also be used as a five-way filter.

Five-way filtration is a five-way filter that filters the front, rear, left, right, and top of the top surface, except for the bottom, where sediment such as soil is deposited on the bottom. However, the present invention may be installed in close contact with the upper surface of the water collecting well 100 or the mounting recess 102 formed on the upper surface of the water collecting well 100 as shown in FIGS. 2 and 3. By placing the bottom of the strainer to rest, no filtration from the bottom of the strainer 10 is prevented.

The enclosing recess 102 may be separately manufactured by placing a separate plate-shaped support 120 ′.

The outer frame 20 of the filter 10 has a first upper and lower rings 21 and 23 respectively disposed at positions facing each other at a predetermined distance up and down, and then the first upper and lower rings 21. Both ends of the first support rod 22 and the first support rod 24 are contacted to each other at predetermined intervals at the edges of the bottom 23 and the inside of the first lower ring 23 to provide the entire side portion and the bottom surface in a mesh shape. do.

In the center of the bottom surface of the outer skeleton 20 is formed a hole through which the filtered water outlet pipe 40 passes.

In addition, the inner frame 30 of the filter 10 has a second upper and lower rings 33 and 34 respectively disposed at positions facing each other at a predetermined distance up and down, and then the second upper and lower rings 33. 34 and the upper side surface of the entire upper side surface by connecting both ends of the plurality of second support rods 32 and the second support rods 35 at regular intervals to the edge of the 34 and the second upper ring 33. Is prepared.

Here, the disc 31 may be installed in place of the second supporting rod 35 provided on the upper portion of the inner frame 30. The disc 31 uses a plate without a plurality of voids or voids.

Inner frame 30 is a principle that is installed in the same vertical direction as the outer frame 20, but sometimes it may be installed to change depending on the situation.

In addition, the inner frame 30 may be manufactured in the same shape as the outer frame 20, but the size is made smaller than the outer frame 20 to be embedded in the outer frame 20.

The inner frame 30 is located in the center of the outer frame 20 is filled with the particulate filter 81 in the six-way filter 10 by a suitable distance from the upper and lower surfaces, the inner frame 30 is the media layer Surrounded by (80) and completely buried in the filter medium 81, all the filtered water flowing in the six directions through the filter medium layer 80 is filtered and then drained to the filtered water outlet pipe (40).

The outer frame 20 and the inner frame 30 use the corrosive plates, rods, and shells of less corrosive stainless steel to harden the cylindrical skeleton of the filter 10, and the water passages and particulate media on the skeleton (81). It is made by attaching the first and second media binding network (50, 60), respectively, to act as a restraint.

The outer frame 20 and the inner frame 30 are not only cylindrical but also tetrahedral, pentahedral, hexahedral, hexahedral, and octahedral such as polyhedrons or more. Make it by

The filter lid 90 is formed by forming a plurality of voids 91 in the open upper portion of the outer frame 20 and combine with a bolt or the like.

The opening and closing ring 93 is provided in one region of the upper surface of the lid 90 so that the lid 90 can be removed or opened in order to clean or replace the filter medium 81 filled in the outer frame 20.

In addition, by arranging a plurality of filters 10 to form a series in order to form a protrusion 92 in the upper center of the cap 90 to connect the plurality of filters arranged using the connecting rod () to be integrated. .

Each of the first upper and lower rings 21 and 23 of the outer frame 20 and the second upper and lower rings 33 and 34 of the inner frame 30 selects one of polygons of circular or rectangular shape or more. It is prepared by.

When the disc 31 of the inner frame 30 has a plurality of voids formed on the upper surface, the filtered water filtered in the filter 10 is discharged out of the outer frame 20 through the upper and side portions of the inner frame 30. When the upper surface of the disc 31 is provided in a blocked state, the filtered water is discharged through the side portion of the inner frame 30.

The filtrate outflow pipe 40 is vertically bound by the support rod 24 or stainless steel mesh connected to the lower ring 23 of the outer frame 20, but the upper portion of the filtrate outflow pipe 40 is the outer frame 20 ) Is installed so as to be positioned inside, and tightly fixed so that the lower portion of the filtered water outlet pipe 40 protrudes below the bottom surface of the outer frame 20.

Side circumference of the inner frame 30 is attached to the second filter medium (60) so that the gap does not occur so that the filter medium falls out.

The plate-shaped holder 120 is installed on the upper part of the sump container 100, but the plate-shaped cradle 120 has a filtered water outlet tube through hole at a position corresponding to the filtrate inlet 101 formed on the upper surface of the sump container 100. 121 may be formed.

The collecting container 100 may be provided with a mounting recess 122 so that the lower portion of the filter 10 is seated around the filtered water inlet 101 into which the filtered water outlet pipe 40 formed at one upper side thereof is inserted.

The plate holder 120 may be provided in the recess 122 ′ so that the lower portion of the filter 10 is seated in the mounting recess 122 of the water collecting container 100.

The filter 10 and the sump container 100 may further include a buoyancy body 130 connected to the upper portion of the filter 10 by a connecting strap 131 so that the filter 100 floats in the water.

The buoyancy body restraint skeleton 140 and the footrest 150 may be further installed on the buoyancy body 130.

The buoyancy body restraint frame 140 may be provided with a departure preventing edge 141 around the side portion to surround the buoyancy body 130 to prevent the buoyancy body 130 is separated.

Filtrate discharge pipe 200 installed through the sump (100) is connected to one end of the flexible pipe 160 to the end and the other end is connected to one end of the external drain pipe 170 and filtered through the filter (10) Filtrate water can also be forced out.

As shown in FIG. 7 and FIG. 8, the plurality of filters 10 are arranged in a predetermined position, and then connected to the protrusion nipple 92 of the lid 90 by a connecting rod 180 to be integrated. One series water purification device including one collecting tank 100 connected to the filtered water outlet pipe 40 of each filter 10, and the filtered water discharge pipe 200 connected to one side of the collecting container 100. It can also provide in 1a).

The first and second media binding networks 50 and 60 may be provided by selecting any one from plastic materials, stainless materials, synthetic resins, synthetic rubbers, or composites thereof. In the case of attaching the filter medium binding network 50 to the side and bottom surfaces of the outer frame 20, the supporting rods 24 horizontally formed on the first supporting rods 22 and the first lower ring 23 on the side are not necessary. The first upper and lower rings 21 and 23 may be made by directly binding the first metal binding network 50 made of metal.

In the case of attaching the flexible first median binding network 50 to the side and bottom of the outer frame 20, the upper ring 21 and the lower ring 23 facing each other at a predetermined distance and the upper and lower rings 21 A plurality of support rods 22 vertically connecting the edges of the shell 23 and the supporting rods 24 formed horizontally on the lower ring 23 are formed so that the upper portion is an open star or polygon or cylindrical shape. It is made by firmly binding by welding or the like.

The first filter binding network 50 is smaller than the size of the front filling medium so that the size of the mesh is not filtered out, the second filter binding network 60 is smaller than the particle size of the rear filling medium.

The first and second filter media (50, 60) is a material of less corrosive, using a variety of types of weaving, lattice or perforated type, the larger the mesh size and the higher the porosity, but the filling medium does not fall. I do it in size.

In attaching or detaching the first filter binding net 50 to the outside of the side circumference of the outer frame 20, it is flexible as a plastic material, but the thick and unfolded mesh is cut slightly larger than the required length in the longitudinal direction and slightly to the frame. Pull it around and wrap it around, and then easily screw or fasten the screw nails at an appropriate interval using an electric motor, etc., without fixing it to the overlapped parts.

And the flexible, thin and folded net is cut to the required size can be quickly attached or detached to the first filter binding net 50 to the filter outer frame 20 by attaching a zipper on both ends.

On the other hand, a rigid material such as stainless steel is cut and attached to meet the specification, but the mesh of such a material is difficult to attach and detach.

The outer frame 20, the inner frame 30 of the filter, and the first and second filter networks 50 and 60 differ in material, combination method, and form of parts depending on cost reduction, fabrication and filling of the filter, and ease of exchange. can do.

The outer frame 20 and the inner frame 30 and the first, second filter medium (50) (60) in the steel, plastic material, such as stainless steel, the entire frame or the first, second filter material (50) (60) It is possible to complete the filter skeleton by integrating the attached frame, or by separately manufacturing each part and assembling, or by making parts from various materials and assembling them by welding, bolting, and wire fixing.

The outer circumference of the outer frame 20 forms a filtration surface by surrounding the first filter binding network 50 from the outside, and the bottom surface is formed by using a pore plate formed with voids or by attaching a lattice rod, Supporting the media (81) is filled in the frame 20 does not fall down.

In the filter frame to which the first and second filter confinement networks 50 and 60 are attached, the filter medium filling and filling the particulate filter 81 is preferably closer to 1 by the type and the particle size.

This filter uses six surfaces of the front, rear, left, right, top, and bottom of the filter to increase the filter area, and the six-way multi-layer media layer 80 inside the filter to allow internal filtration toward the center in six directions. Can effectively filter contaminants and extend the life of the filter.

The water purification effect depends on the characteristics of the media to be filled and how the media is formed.

It is formed in multiple layers to effectively filter various types of particulate matter and lengthen the use period of the filter. Filling the media with large particle size on the outer side where the contaminated water contacts and filling the media with small particle size toward the inside to allow internal filtration to occur. The maintenance cost can be reduced by lowering the frequency of maintenance by increasing the water purification effect and increasing the filtration duration.

In the formation of the multi-ply media layer 80 for internal filtration, the media is composed of one type of media in multiple sizes and filled in multiple layers according to the water quality characteristics of the contaminated water to be purified and the degree of filtration required. It is possible to fill multiple layers of media, or to fill multiple layers of various types of media.

Multi-layer composition for internal filtration uses two or more kinds of media with different particle sizes, but it has a particle size that small media does not fall into a large media. Filling and filling the small filter as it goes inside the large filter medium, at this time the mesh of the front first filter binding network 50 is smaller than the particle size of the front filling filter to prevent the filter falls out and the second frame of the filter medium (30) side (60) ) Is also smaller than the size of the rear filling media.

In the filtration using the particulate filter (81), the larger the particle size, the smaller the pore size, and the smaller the size of the contaminant.

In the internal filtration for precision filtration, the internal filtration occurs only when the particle size of the internal frame (30) from which the filtered water flows out is smaller than the front filter into which the contaminated water flows. The mesh size of the filter media 60 should be smaller than the particle size of the filter media.

However, if the size of the mesh of the second filter medium (60) toward the inner frame (30) is too small, the amount of water permeated is reduced due to the viscosity and friction of water. Therefore, in the filtration using the particulate filter 81, there is a limit to the use of the filter media of small particle size.

In order to solve this problem in the fine filtration using the particulate filter (81) in the multi-layer filter layer (80) to increase the mesh of the second filter binding network 60 of the inner frame (30), but to use the filter medium of small particle size In the middle of the filter medium layer is formed a multi-layered media layer 80 in the form of medium-to-large medium having a small particle size filter layer to fill the media of large particle size in the front, the median of small particle size in the middle, and the median size media at the end.

The particulate media 81 used in the present invention are zeolite, perlite, diatomaceous earth, garnet, anthracite, sand, activated carbon, lightweight stone, foamed stone and steelmaking slag, ion exchange resin, solidified slug, wood chips, plastic chips, clay molding media Etc. Any one or more selected from various materials capable of physical filtration, adsorption filtration and ion exchange are used.

The method of forming the six-way multi-layer media layer 80 in the state without a partition inside the filter is as follows.

Since the filter of the present invention does not have a partition for forming a multi-ply inside, a multi-filtrate filling cylinder 70 is filled to form a multi-ply media layer 80 as shown in FIG. 4.

Multi-strate filling cylinder (70) is a cylindrical structure made of steel plates, plastic plates, etc., the upper and lower parts are made larger than the inner frame (30) but smaller than the outer frame (20), depending on the number of filling media (n) The number n-1 of 70) is also changed.

For example, when filling two types of media, single barrel, when filling three types of media, double barrel, when filling four kinds of media, triple barrel, etc. Make.

In the case of the single cylinder or multiple cylinders in the multiple filter filling cylinder 70, the diameter of each cylinder is determined in consideration of the thickness of each media layer layer 80 to be formed by dividing between the outer frame 20 and the inner frame 30.

The height of each barrel is lower inner and lower step by step toward the outside, but the inner barrel is higher than the inner skeleton 30 and the final outer cylinder is lower than the upper surface of the outer skeleton (20).

The lower length of each cylinder is also given a differential so that the final outer cylinder is made long to reach the bottom surface and the inner cylinder is shortened so that the outer cylinder floats on the floor with a gap retaining rod 72, but the shortest inner cylinder is leaked from the internal skeleton. Make it lower than cotton and make subsequent barrels longer than this.

When there are a plurality of filter medium filling cylinder (70) is fixed between the respective cylinders in the appropriate position with a narrow spacing retaining rod (72) so as to less trouble in the filling of the filter to maintain the shape and spacing of each cylinder.

When the filling of the filter medium is completed, the drawstring 71 is attached to the upper side of the outer cylinder in order to easily separate the multiple filter filling cylinder 70 from the outer frame 20 to the outside.

In this way, the method of forming the median layer 80 in the six-way fore and aft form or the multi-layered media layer 80 in the form of medium-to-large and medium-sized medium using the multi-media filling cylinder made in this way is the first to fill the number of the respective media layers. Preparing the barrel 70 and placed between the outer frame 20 and the inner frame 30 of the filter through the open space of the upper filter, and the outer surface of the inner frame 30 with the axis of the center of the inner frame 30 Temporary partitions are made in the interior space of the frame by keeping the distance from the inner surface of the outer frame 20 to be the same, and then filling the space formed by each partition from the bottom to the floor height of each cylinder and Next, the side and upper space is filled, but only from the inner tube to the height of the barrel in order to complete the six-way multi-layer media layer (80).

An embodiment will be described with reference to the accompanying drawings based on the above contents.

A five-ply media filling method using five types of media of a, b, d, d, e, using a quadruple cylinder of the multiple media filling cylinder 70 shown in FIG. 4 will be described from FIG.

First, the outer surface of the inner frame 30 and the outer frame of the inner frame 30 in the inner space between the outer frame 20 and the inner frame 30 of the quadruple cylinder of the multi-fill filler barrel 70 The distance to the inner surface of (20) is to be kept equal.

Secondly, the filling operation is to fill the (a) media in the space of floor 1,

Third, fill the (B) media in space # 2,

Fourth, fill (3) media in filling space 3,

Fifth, filling (D) media in filling space 4,

In the sixth and fifth spaces, fill the (e) media,

In the seventh and sixth spaces, the (d) filter medium is filled,

In the eighth, seventh space, the (c) media is filled,

In the ninth and eighth spaces, we fill the (B) media,

Tenth, fill space 9 in (a).

At this time, shaking the filter while filling the media in each space to ensure the media.

The media filling the bottom is prepared by calculating the filling amount in advance and filling is easy, and the side and top filling is poured from the top and stop filling when the height is full.

After filling is completed by removing the multiple filter filling cylinder (70) to the top to remove the filter filling operation.

As shown in FIG. 6, the filling of the filter medium of the six-way filter 10 in which multiple layers are formed from six directions to the inside by using five types of media is completed.

The multi-fill filler barrel 70 is made of steel or plastic plate, the upper and lower parts of the cylindrical structure is made in the same shape as the cylinder of the inner frame and the outer frame, and also larger than the inner frame 30 Make it smaller than the frame 20, but according to the number of folds (n) of the filler medium layer, the multi-fill filler barrel 70 is produced in the number of n-1.

As such, in one embodiment of the present invention, the six-way filter 10 is a filter in which a filtration area is maximized in a cylindrical filter.

The actual filtration area is excluded from the area occupied by the filtered water outlet pipe protruding from the lower portion of the entire outer surface of the outer frame 20.

In addition, the six-way filter 10 is to be installed so that the bottom surface of the outer frame 20 is separated from the bottom of the structure filled with water in order to use the lower surface as the filtering surface.

On the other hand, the six-way filter of one embodiment of the present invention,

A first step of manufacturing a cylindrical outer frame 20 having an upper portion and a side and a lower portion formed in a mesh shape;

One end portion of the outflow pipe 40 penetrates the center of the lower surface of the outer frame 20 to be positioned inside the outer frame 20, and the other end is positioned to be fixed to protrude out of the lower surface of the outer frame 20. Step 2;

A third step of forming a cylindrical inner frame 30 having an upper portion blocked or having a mesh shape or a void and having a mesh shape at a lower side thereof, and connecting an open cylindrical inner frame 30 to one end of the filtered water outlet pipe 40;

A fourth step of installing a first filter material binding network (50) on the circumference and lower surface of the outer frame (20);

A fifth step of installing a second mediation confinement network (60) around the side of the inner frame (30);

A sixth step of inserting the cylindrical multi media filling container 70 between the outer frame 20 and the inner frame 30;

The seventh step of filling the media between the outer frame 20 and the multi- media filling cylinder 70, and the multi-media filling cylinder 70 and the inner frame 30 in the order of the bottom layer, intermediate layer, top layer ;

An eighth step of pulling out the multiple media filling cylinder 70 inserted between the outer frame 20 and the inner frame 30 to the outside;

And a ninth step of detachably installing the cap 90 formed on the upper surface of the outer frame 20 with a plurality of voids 91 formed thereon.

The maintenance method of the present invention six-way filter is as follows.

As time passes by contaminated water filtration, the filter is gradually clogged with particulate contaminants, which degrades the filtration function and eventually becomes impossible to pass through, thus maintaining the filtration function by maintaining the filter at a certain point of time when the filtration function decreases.

When maintaining the filter, open the lid 90 of the filter 10, turn the filter 10 upside down, shake it up and down, and shake it up and down to pour out the inner filter 81 and then water into the first and second filter binding networks. Spray the residue to clean the filter to reuse the internal and external frameworks 30 and 20 and the first and second filter media (50) and 60, and the first and second filter media (50) and 60 are heavily in oil, etc. When it is contaminated, the first and second filter networks 50 and 60 are replaced with new ones.

The removed media can be disposed of or reusable, depending on the characteristics of the media, which can be reused by washing with water and sifting by particle size.

In order to maintain the filter 10 in an inverted state with equipment such as a crane, a ring 42 is installed in one region of the filtered water outlet pipe 40 so as to be hooked to the connecting string of the equipment.

On the other hand, the sump (100) is configured in the form of a lattice net or a pipe shape by catching a wide bottom area, and the combined water inlet pipe (2) where the flange 111 is formed in the required position of the upper surface of the sump (100) 110, a filter having a flange 41 is formed on the end of the filtered water outlet pipe 40 on the combined filter water inlet pipe holder 110, and the two flanges (111) (41) to bind and integrate.

In addition, a flange 201 is formed at an end of the filtered water discharge pipe 200 installed at one side of the sump container 100, and an outlet flow control valve is attached as necessary.

The flexible pipe 160 is connected to the flange 201 connected to the end of the filtered water discharge pipe 200 to connect the pipe to the external drain pipe 170 or the pump sump 190 and to further improve the filtered water quality, the water collecting tank 100 ) Can be further purified by filling adsorption media, ion exchange media, etc.

The end of the filtered water outlet pipe 40 may have no flange 41 and a flange 41 may be attached, and the filter without the flange 41 may have a filtered water inlet 101 formed at an upper surface of the sump 100. By inserting into the self-binding of the strainer 10, or by using a mounting tool that is substituted for the flange at the end contacting the filtrate outlet pipe 40 and the filtrate inlet pipe 110.

Meanwhile, the filter 10 having the flange 41 attached to the end portion of the filtered water outlet pipe 40 also has a holder for the combined use of the filtered water inlet pipe 110 in the form of a flange 111 so that the flanges 41 and 111 face each other. Bind to and fix the filter (10).

The filter 10 manufactured as described above is installed in a water space provided with a double inlet pipe 110 for the filtered water inlet and used as a downflow filter or an upflow filter.

The downflow filter is a filter in which the filtrate outflow pipe 40 faces downward. The downflow filter is installed in the water space so that the filtrate outflow pipe 40 faces downward, and the filtrate is collected in the complete or partial submerged state to collect the filtrate to the lower part of the filter. It is discharged to the outside of the body through the drain pipe (170).

The upflow filter makes the filter the same as the downflow filter, but the filter cap 90 is formed into a porous plate or a grid having voids 91 formed therein to fill the media, and then the lid 90 is closed and the filter is turned upside down. The outlet pipe 40 is installed in the water space to face the sky, and collects the filtered water to the upper part in the immersion state and discharges it to the outside of the water body through the external drain pipe 170.

The portable water purifier 1 of the present invention is integrally manufactured by connecting the filter 10 configured as described above to the water collecting container 100 and combines the water collecting container 100 at the bottom of one or a plurality of downflow filters 10. Mobile water purification device (2) installed at the bottom of the water body and mobile floating water purification device (3) installed in the floating state in the water and hanger-type water purification device to hang the upflow filter by installing a fixed device in the water I can make it.

Mobile water purification device (2) is a mobile water purification device (1) combined with a filter in the sump (100) (72) that can be placed on the bottom of the water structure to have a self-weight greater than buoyancy, and the bottom surface is flat and deposits The small place is settled so that the sump (100) to the bottom surface, but the bottom surface is irregular, where there are a lot of sediment, the water purifier (1) made of a form that can be attached to the self-sustained by attaching legs to the sump (100) to be.

The size of the mobile sewage water purification system (2) is to be sized to accommodate one or a plurality of filters depending on the flow rate required for purification, but at a large capacity, the size and shape of the water body, and the installation and maintenance of the water purification system (1) Consideration should be given to ease of management.

Therefore, as shown in FIGS. 7 to 10, when installing a plurality of filters, a protrusion tap 42 is formed at the center of the filter cap 90, and a rod-shaped connecting rod 180 is formed in a lattice shape at the protrusions of four adjacent filters. It is installed in the form of an integrated four filter that is stabilized by widening the ground area by four filters acting as bridges by inserting and bolting.

In this way, a series of water purification apparatuses 1a are made of a plurality of filters 10 and are serialized and installed in consideration of the maintenance of the series 1 water purification apparatus 1a.

The first series water purification device 1a is formed to be movable by a crane, etc. during installation and maintenance work, and the coupling between the first series water purification device 1a and the external drain pipe 170 directly connect the flange 201 pipe. Or bind using the flexible pipe (160).

The water level of the water body structure in which the mobile water purification apparatus 1 is installed may be fixed or fluctuate. According to the water level, the filtered water should be discharged to natural flow or pumped.

In order to discharge with natural oil, the external structure of the filtered water drainage pipe 170 must be installed lower than the water level in the water body structure.In order to discharge the pump, a separate pump collection well 190 is placed inside the water space so that the filtered water has a free surface. Pumped and discharged from crystal 190.

The water purification device (1) installed in the submerged state on the bottom of the water structure is filtered by the water level difference, the filtered water is collected in the sump (100) and discharged to the natural oil out of the water through the external drain pipe (170) and when discharged to the pump Install the pump sump 190 to the water surface from the sump (100) up to the water surface or install a separate pump sump 190 and the flexible pipe 160 from the sump (100) to the pump sump (190) Connect and pump out the pump well.

The pump sump 190 is installed in the bottom of the pump sump 190 in a depth of the body of the water body, but the upper portion of the pump sump 190 is made by connecting the flexible pipe 160 of a flexible material Even if the height is high, the production cost is saved and easy to handle, the pump is pumped by installing a submersible pump inside the pump sump 190 or the pump is installed outside and the suction pipe 86 is inserted into the pump sump 190.

On the other hand, the mobile floating water purification device (3) is a device for purifying the water quality by floating on the water surface by coupling the mobile landing water purification device (2) to the floating frame 130, as shown in Figs.

Floating frame 130 as a buoyant structure may be composed of the buoyancy body restraint skeleton 140 and the buoyancy body 250 or may be composed of only the buoyancy body 250.

The mobile floating water purification device 3 is made by connecting the mobile landing water purification device 2 to the lower portion of the buoyancy body restraint frame 140 or directly to the buoyancy body 250.

As shown in FIG. 13, the buoyancy restraint skeleton 140 is made of a material such as iron, plastic, rope, wood, etc. to effectively restrain the buoyancy body 250 to form a structure and a shape that can exert buoyancy. The lattice scaffold 150 which is coupled to the apparatus 1 and acts as a scaffold on the buoyancy restraint skeleton 140 is placed and fixed.

The buoyancy body 250 has enough buoyancy to float the water purification device 1 on the surface of the water, but has a low specific gravity and durability, such as a lightweight foamable material such as plastic, steel, styrofoam, urethane, etc. Large materials can be used and sizes and shapes can be varied, and it can be easily handled if it is made into small pieces with suitable size.

Mobile floating water purification device (3) is floating on the water surface, the upper part of the floating frame 130 is exposed to the water according to the water level fluctuations, the filter is installed to be in the submerged state, the flexible pipe of flexible material 160 in the sump (100) By connecting to the external drain pipe 170 to drain to the outside of the water body by using) discharge the filtered water out of the water body by natural water level by the difference in water level or by installing the pump collection well 190 in the water collecting tank 100 to the upper surface of the water Pump pump from the sump 190 to discharge the water out of the body.

On the other hand, when the mobile floating water purification device (3) is installed in a remote place without electricity and pumped by a pump, it is possible to install a photovoltaic power generation facility on the floating frame 130 and a landscaping facility on the floating frame 130. Additional lights can be installed to enhance the waterside scenery.

The mobile floating water purifier 3 is fixed by installing an anchor 210 by using a rope or the like so that the height does not fluctuate depending on the water level.

Referring to the embodiment according to the present invention.

(Example 1) Purification by using a mobile landing water purification device (2)

It is a method of purifying water quality by making a portable self-supporting water purifying device (1) that can be installed directly in open facilities such as ponds and reservoirs or on the bottom of the water space of water tanks. Combined filtration water outlet pipe 40 of the six-way filter 10 to the water collecting tank 100 with the filter water inlet pipe combined with the holder (110) having a mobile complex storage water purification device (2) to make an integrated filtered water external pipe ( 170) is installed on the bottom of the water structure is installed and the flexible pipe 160 in the sump (100) is connected to the filtered water drain pipe to purify the water level difference in the water body.

When the water level is low in the water fluctuating water body, it can be discharged as natural flow. However, in the water body where the water level is high or the water level is fixed, a pump collecting well 190 for pumping the filtered water is installed in the water body. The pumped water is discharged from this sump.

14 and 15 are shown in Figure 2 and Figure 15 to install a mobile landing water purification device (2) at a position higher than the sediment in the stagnant water, such as a reservoir, pond for water purification and flood control to purify the water in the stagnant body of the outflow facility It drains through natural oils through.

Attach the legs to the water purifying device (1) or make a settable flat on the floor higher than the height of the sediment is installed on this set.

16 and 17 are installed on the bottom of the water tank, the sedimentation basin, such as a continuous inflow of contaminated water, the mobile landing water purification device (2) is installed and a separate pump sump (190) is installed to pump water To purify contaminated water in tanks

If the purification capacity is large, it can be installed and operated by multiple series, and the filtered water can be discharged with natural oil when the water level of the discharged water is low.

18 and 19 is a reservoir, pond, beam in which the depth of the deep water or the installation point is far away from the mobile sewage water purification device (2) having the pump sump 190 installed in the sump (100) It is installed at the bottom of the back and connected to the flexible pipe 160 outside the water collection pump 190, the outer body of the water pumping the filtered water with a pump to purify or intake the reservoir water.

(Example 2) Purification by the portable floating water purification device 3

As a method of purifying water quality in the area by installing a mobile floating water purification device (3) in which a mobile landing water purification device (2) is coupled to a floating frame (130) on the surface of a pond, a reservoir, a water tank, etc. Since the installation of the car and the water level fluctuates, the water purifying device 1 is fixed to the anchor 210 and the flexible pipe 160 is connected to drain the filtered water to the outside by natural oil or a pump.

20 and 21 is a water purification device (1) by installing a mobile floating water purification device (3) on the water surface in the sedimentation value, water tank, etc., the water level is fluctuate to store the water in the area and to discharge it to natural oil Is changed according to the water level, so the anchor 210 is supported on the tank wall and the filtered water is discharged using the flexible pipe 160, and when there is no natural flow, a separate pump collection well 190 is installed and pumped into the pump. To discharge.

22 and 23 are related to the portable floating water purification apparatus 3 for taking in water from large water bodies such as dams and reservoirs.

Water purification device (1) on a large scale for large amounts of water intake, but for the installation and maintenance according to the site conditions, for example, 4 series are set as one group and 3 sets are installed to install a total of 12 series and filtered water in each series. Is collected as a floating sump with natural oil, and collected by a pump sump 190 and discharged into a pump.

The mobile floating water purification device (3) is a water intake facility, which can be used as a selective intake facility in which water is collected at a low pollutant level depending on the water depth in reservoirs, eutrophic reservoirs, etc. formed by stratification. Install the filter so that it is located at a low pollution level.

(Example 3) A method of purifying by installing a filter in a structure space having a flat bottom and a filter water collection pipe installed thereunder

It is a method of purifying in the form of "Optimal excellent total filtration method and apparatus using multi-area filtration facility" registered in Korea Patent Application No. 10-0546061. It makes the bottom of the water structure flat with concrete and has a vertical hole and a horizontal shape in the floor. After installing and fixing the filtered water collecting pipe and connecting the filtered water external drain pipe 170 to the outside of the water structure, the filter is placed on the bottom vertical hole and the contaminated water is introduced to filter the water level inside the structure and the water level difference inside the filter.

Or after installing the plate-mounted supporters 120 'provided with grooves 122' on the bottom of the structure, the filter 10 is placed therein.

For six-way filtration to create a combined filter inlet pipe holder 110 on the sump (100) to install the filter to protrude from the bottom surface and to form a grid to the flange binding or the upper connection 180 so as not to fall.

(Example 4) Method of purifying by installing a filter in the structure space of the prefabricated filter plate holder

The method of installing the filter in the same manner as in Example 3 or the difference is that instead of making a vertical hole and a horizontal filter water collecting pipe into which the filter can be flattened and cemented in the bottom, the filter is placed in the bottom of FIG. 24 and FIG. As shown, by using a low corrosive plate such as a stainless steel plate to create a prefabricated filter plate holder 120, a plurality of holes can be fitted into the filtrate outflow pipe 40 to float a certain height so as to act as a channel at the bottom of the structure It is a method of installing the filter after installing it horizontally and placing it on the connection part or by applying water repellent.

The prefabricated filter plate holder is divided into fabrication for easy carrying into and working inside the structure, and the angle of the channel acting on the four-way side wall is fixed to a certain height, or the jaw is made of bricks. Put the pieces of the cradle and place the support in the middle or make a bridge so that the filter and the person for maintenance do not sit down.

Example 5 Method for Purifying by Installing a Filter in a Facility of a Complex Water Purification Process

Korean Patent Registration No. 10-0437076 "Water purification method by sedimentation, filtration and microorganism decomposition and its device", Patent No. 10-0767754 "Multiple purification facility and polluted water to clean water using internal storage water purification facility As shown in "Water Purification Method", in the complex water purification process in which the filtration process and the biological purification process are applied together, the filter is installed in front of the microbial contact layer for biological purification to remove particulate contaminants. In addition, by protecting the microbial habitat environment is a method of purifying the water quality by removing soluble contaminants by the microorganism in the microbial contact layer.

Example 6 Purification by Installing a Filter on Rain Gutters with Overflow Water Outlets

As a method of using the rain gutter 230 installed on the road as a non-point source cleaning facility, as shown in FIG. 26 and FIG. 27, the overflow water that can drain and discharge the surplus rainwater after the initial excellent purification on one side of the rain gutter. The plate 240 is formed in a '-' shape as shown in FIG. 28 to separate the upper part of the rainwater gutter from the rain gutter formed by cutting the upper portion of the plate to form the overflow water outlet, but the end of the overflow water plate 240. A jaw is made horizontally on all sides of the wall of a higher position, and on this jaw, it acts as a blocking plate of rainwater as shown in FIG. (10) is a method of filtering by the water level difference formed in the rain gutters and the filter when the rainwater is introduced into the rain during rainfall.

Example 7 Method used as a fountain water supply facility of a pond

It can be used as a water supply facility for a fountain facility in a pond or the like by using a mobile landing water purification device (2) or a mobile floating water purification device (3).

A pump collection well 190 is installed in the water purification device 1 in the form as shown in FIG. 19 to pressurize the filtered water with a pump to use as a fountain, and continuously circulate to supply the filtered water to purify the water in the pond.

In this way, the mobile water purifier 1 installs a mobile water purifier 1 for purifying the contaminated water stored in the water body or the contaminated water continuously flowing into the water body, so there is no need for a separate site and a filter inside the water body. It is a very economical and practical technology because the installation is simple without the need for fixed facilities for installation and collection.

As described above, the present invention is not limited to the preferred embodiments of the above-described characteristics, and various changes can be made by those skilled in the art without departing from the gist of the present invention claimed in the claims.

1: 1 ': 1'': Water Purification System 1a: 1 Series Water Purification System
2: complex water purification device 3: suspended water purification device
10: six-way filter 20: outer frame
21: first upper ring 22: first support rod
23: first lower ring 24: first supporting rod
30: internal frame 31: disc
32: second support rod 33: second upper ring
34: second lower ring 35: second support rod
40: Filtrate outflow pipe 41: 111: 201: flange
42: loop 50: 60: media binding network
70: multi-fill filling barrel 71: drawing string
72: gap retaining rod 80: media layer
81: media 90: lid
91: air gap 92: protrusion
93: opening and closing ring 100: sump
101: filtered water inlet 102: seating groove
110: combined use of filtered water inlet pipe
120: 120 ': plate holder 121: through-hole of the filtered water outflow pipe
122 ': groove 130: buoyant body
131: connecting string 140: buoyant body restraint skeleton
141: border for departure prevention 150: scaffolding
160: flexible pipe 170: external drain pipe
180: connecting rod 190: pump collection modification
200: filtered water discharge pipe 210: anchor
220: floating sump 230: rain gutter
240: overflow pipe 250: buoyant body

Claims (19)

An upper frame is opened and is surrounded by a first filtering material net on the side circumference and a lower surface, and a cylindrical outer frame into which contaminated water flows from the outside to the inside, and is installed inside the outer frame to the second filtering material net on the side circumference and the upper surface. One end of the filtrate outlet pipe is wrapped and connected to the lower end, and the other end of the filtrate outlet pipe is formed of a cylindrical inner frame formed by protruding to the outside of the outer frame, and a particulate material filled between the outer frame and the inner frame. A filter provided with a layer and a lid seated on an upper portion of the outer frame to be detachable and having a plurality of pores formed on an upper surface thereof;
A water collecting passage installed at a predetermined distance of the lower portion of the filter and having a filtrate storage space therein;
One end is in contact with the lower end of the filtered water outlet pipe of the filter and the other end penetrates through the upper side of the sump and the upper part of the filter water inlet pipe combined pipe and connected;
A filter water discharge pipe connected to one side of the sump to discharge the filtered water collected in the sump to the outside; and a buoyancy force connected to the upper part of the filter so that the filter and the sump float in the water. Water purification device using a six-way filter characterized in that the sieve is provided An upper frame is opened and is surrounded by a first filtering material net on the side circumference and a lower surface, and a cylindrical outer frame into which contaminated water flows from the outside to the inside, and is installed inside the outer frame to the second filtering material net on the side circumference and the upper surface. One end of the filtrate outlet pipe is wrapped and connected to the lower end, and the other end of the filtrate outlet pipe is formed of a cylindrical inner frame formed by protruding to the outside of the outer frame, and a particulate material filled between the outer frame and the inner frame. A filter provided with a layer and a lid seated on an upper portion of the outer frame to be detachable and having a plurality of pores formed on an upper surface thereof;
A water collecting pawl formed at a position at a lower predetermined distance of the strainer, and the filtrate outlet pipe is inserted into a filtrate inlet formed at one side of an upper surface thereof, and a filtrate storage space is formed therein;
Filtrate discharge pipe connected to one side of the sump so that the filtered water collected in the sump is discharged to the outside; provided with a lower surface of the filter is coupled to the upper surface of the sump, the filter and the sump Water purification device using a six-way filter characterized in that the buoyancy body connected to the upper portion of the filter by a connecting string is provided to float in the water
delete The water quality using the six-way filter according to claim 1 or 2, wherein the first and second filter networks are provided by selecting any one of plastic material, stainless material, synthetic resin, synthetic rubber, or a combination thereof. Purifier According to claim 1 or claim 2, wherein the size of the first filter binding mesh is smaller than the size of the front filling medium so that the size of the filter medium does not fall out, the second filter binding network is smaller than the size of the rear filling medium size Water Purification System Using 6-way Filter According to claim 1 or 2, wherein the particulate material is zeolite, perlite, diatomaceous earth, garnet, anthracite, sand, activated carbon, lightweight stone, foamed stone, steelmaking slag, ion exchange resin, solidified slug, wood chips, plastic chips, Water purification device using a six-way filter, characterized in that provided by selecting at least one of the clay molding medium According to claim 1 or 2, wherein the media layer is filled with a large media in front of the inner frame outer surface at the six front and rear, left, right, top, bottom of the outer frame toward the inner frame outer surface After the large mediators, the inner and outer frames are filled with small medians, or the front and rear, left, right, top, and bottom of the outer frame. Small, water purification device using a six-way filter, characterized in that the particles are provided in the form of small and medium heavy for filling medium-sized media in the vicinity of the inner frame According to claim 1 or 2, wherein the outer frame of the filter is arranged at a position opposite to each other at a predetermined distance up and down, respectively, and then the edges of the first and lower rings and the first By connecting the both ends of the first support rod and the first support rod at a predetermined interval inside the lower ring, respectively, the entire side portion and the bottom surface are provided in a mesh shape.
The inner frame of the filter has a plurality of upper and lower rings arranged in a position opposite to each other at a predetermined distance up and down, and then a plurality of at regular intervals inside the edges of the second upper and lower rings and the second upper ring. By connecting both ends of the second support rod and the second support rod in contact with the entire side portion and the upper surface is provided in a mesh shape, but in the six direction, in place of the second support rod provided in the upper portion of the inner frame may be installed Water Purification System Using Filter The water purification apparatus according to claim 8, wherein each of the first phase, the lower ring, the second phase, and the lower ring is selected by selecting one of a circle or a polygon or more. The water purification apparatus of claim 8, wherein the disc has a plurality of voids formed on the top surface thereof or is closed. The method of claim 2, wherein the plate-shaped holder is installed on the upper part of the sump, but the plate-shaped cradle is formed using a six-way filter, characterized in that the through-hole formed in the filtered water outlet pipe at a position corresponding to the connecting rod formed on the upper surface of the sump. Water Purification Device According to claim 2, wherein the sump is a water purification device using a six-way filter, characterized in that the mounting recess is provided so that the lower portion of the filter is seated around the filter water inlet in which the filtered water outlet pipe formed on one side of the upper part is inserted. 12. The water purification apparatus of claim 11, wherein the plate-shaped cradle is provided in the recess of the sump so that the lower part of the filter is seated. delete According to claim 1 or claim 2, Water purification device using a six-way filter characterized in that the buoyancy body restraint skeleton and the footrest is further installed on the buoyancy body. 16. The water purification apparatus of claim 15, wherein the buoyancy restraint skeleton is provided with a separation preventing edge around a side portion to surround the buoyancy body to prevent the buoyancy body from being separated. According to claim 1 or claim 2, wherein the filtered water discharge pipe installed in the sump is connected to one end of the flexible pipe to the end and the other end is connected to one end of the external drain pipe and the filtered water filtered through the filter outflow Water purification device using a six-way filter characterized in that The method according to claim 1 or 2, wherein the plurality of filters are arranged in a predetermined position, and then connected and fixed to the protruding nipple of the lid as a unit, while one of the filters is connected to the filtered water outlet pipe of each filter. Water purification device using a six-way filter characterized in that the first unit water purification device consisting of a water collecting passage, and the filtered water discharge pipe connected to one side of the water collecting can The water purification apparatus according to claim 1 or 2 is installed in a floating state in water to purify the waste water contained in the water quality.

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