KR102323486B1 - Fine larva filtering apparatus for water purification plant - Google Patents

Abstract

The present invention relates to a fine larva filtering apparatus for a water purification plant. According to the present invention, the fine larva filtering apparatus for the water purification plant comprises: a first mainframe including one or more vertical supporters placed at regular intervals in square-shaped window frame-shaped edge, and installed by being inserted into a waterway through which the water in the water purification plant is introduced or discharged, to be inclined; a first filter screen on a planar shape, and fixed on an edge surface on a front side of the first mainframe, and having a fine mesh of the size of 100 ㎛ at the minimum for filtering fine larva, eggs, and imago; a first gap blocking sealing member placed between a front edge surface of the first mainframe and the first filter screen for sealing the gap between the waterway and the first filter screen so that water cannot be discharged through the gap between the waterway and the first filter screen; and a first cover member engaged with a front edge surface of the first mainframe with the first filter screen and the first gap blocking sealing member settled on a front edge surface of the first mainframe and fixing the first filter screen on the first mainframe. The present invention aims to provide a fine larva filtering apparatus for a water purification plant, which is capable of supplying clean tap water to each home.

Description

Fine larva filtering apparatus for water purification plant for water purification plant

The present invention relates to a filter device for fine larvae for water purification plants, and more specifically, larvae, adults, and eggs of very fine litter below the micrometer size that are simply installed at the inlets and inlets of all facilities such as settling ponds of water purification plants. It relates to a fine larvae filtering device for water purification plants that can supply clean tap water to each household by completely filtering all kinds of microlarvae and eggs.

Recently, after the discovery of midge larvae in Incheon tap water, larvae continue to be found in water purification plants or water intake plants distributed across the country. It is difficult to completely block it.

Referring to FIG. 1 , as the microlarvae found in the tap water, it is known that the larvae of Chironomidae sp. are found the most.

First, these midges are insects belonging to the order Diptera, and they lay an average of 300 to 600 columnar egg masses (eggs) aggregated with agar, which hatch within 1-2 days after spawning, and the organic matter contained in the mud. serve as a food source

In addition, midge larvae are thin and short (about 1 to 2 mm), and have a form similar to wire-shaped earthworms or dark red worms. stay

Also, adult midgetworms are 2~20mm in size, thin overall, yellow or reddish head, brown legs, and lifespan of 2~7 days.

These midges occur in almost all types of wetlands such as reservoirs, rivers, Daeul, artificial containers, and seawater, and it is known that there are various species that occur depending on the quality of water from grade 1 clear water to grade 4 water.

Breeding occurs by laying eggs in stagnant places such as water tanks, faucets, and hoses in late spring to summer when the water temperature rises. It is known that there is a high possibility of found in tap water, such as oily midges.

In addition, it has been reported that midge larvae have strong resistance to chlorine and survive even after 48 hours of treatment at 50 mg/L of residual chlorine. (Generally, during the supply process, tap water is maintained in the range of 0.1 mg/L to 1.0 mg/L of residual chlorine)

Therefore, as described above, it is virtually impossible to block the inflow of insects such as midges by blocking all flocculation or sedimentation pond sections in the open air purification plant. situation in demand.

Accordingly, the present invention has been devised to solve the above problems, and it is simply installed in the waterway or inlet of all facilities such as settling ponds of water purification plants and larvae, adults, and eggs such as very fine litter of micrometer size or less in water. The purpose of this is to provide a fine larval filtering device for water purification plants that can supply clean tap water to each household by completely filtering all kinds of small organisms and eggs (egg mass).

According to an embodiment of the present invention for achieving the above object, at least one or more vertical supports are provided at regular intervals within a rectangular window frame-shaped rim, and a first main main that is installed obliquely into the water channel through which the water of the water purification plant flows in and out. frame; a first filtration screen fixedly installed on the front edge of the first main frame and having a fine mesh of at least 100 μm in size to filter fine larvae, eggs, and adults; a first gasket sealing member provided between the front edge surface of the first main frame and the first filtering screen to seal the water passage from the gap between the water channel and the first filtering screen; and fixing the first filtering screen to the first main frame by being coupled to the front edge surface of the first main frame in a state in which the first filtering screen and the first gasket sealing member are seated on the front edge surface of the first main frame. 1 cover member;

In addition, according to another embodiment, a second main frame having a rectangular window frame-shaped rim is installed perpendicularly to the inlet through which the water of the water purification plant flows; a second filtration screen in the shape of a bag fixedly installed on the rear lower edge surface of the second main frame and having a fine mesh of at least 100 μm in size so as to filter fine larvae, eggs, and adults; a second gasket sealing member provided between the rear edge surface of the second main frame and the second filtering screen to seal the water through a gap between the inlet of the water purification plant and the second filtering screen; and fixing the second filtering screen to the second main frame by being coupled to the rear edge surface of the second main frame in a state in which the second filtering screen and the second gasket sealing member are seated on the rear edge surface of the second main frame. 2 cover member; is configured to include.

In addition, according to another embodiment, the first filtering screen assembly may include: a first main frame in which at least one or more vertical supports are provided at regular intervals within a rectangular window frame-shaped frame; a first filtration screen fixedly installed on the front edge of the first main frame and having a fine mesh of at least 100 μm in size to filter fine larvae, eggs, and adults; a first gasket sealing member provided between the front edge surface of the first main frame and the first filtering screen to seal the water passage from the gap between the water channel and the first filtering screen; and fixing the first filtering screen to the first main frame by being coupled to the front edge surface of the first main frame in a state in which the first filtering screen and the first gasket sealing member are seated on the front edge surface of the first main frame. 1 cover member; is configured to include, the first filtration screen assembly is installed obliquely in the water in and out of the water purification plant,

The second filtering screen assembly includes: a second main frame having a rectangular window frame-shaped rim; a second filtration screen in the shape of a bag fixedly installed on the rear lower edge surface of the second main frame and having a fine mesh of at least 100 μm in size so as to filter fine larvae, eggs, and adults; a second gasket sealing member provided between the rear edge surface of the second main frame and the second filtering screen to seal the water through a gap between the inlet of the water purification plant and the second filtering screen; and fixing the second filtering screen to the second main frame by being coupled to the rear edge surface of the second main frame in a state in which the second filtering screen and the second gasket sealing member are seated on the rear edge surface of the second main frame. The second cover member is configured to include; the second filtering screen assembly is installed perpendicularly to the inlet through which the water of the water purification plant flows in and out at a predetermined distance from the first filtering screen assembly.

In addition, according to an embodiment, the first cover member is fixed to the first main frame by screwing.

In addition, according to an embodiment, the second cover member is fixed to the second main frame by screwing.

Also according to an embodiment, the first gasket sealing member is a silicone rubber.

Also according to an embodiment, the second gasket sealing member is a silicone rubber.

Also, according to an embodiment, the first main frame and the first cover member are formed of a metal material including stainless steel, and the first filtering screen is a metal material or polyester including stainless steel ( It is formed of a synthetic resin material containing polyester).

In addition, according to an embodiment, the second main frame and the second cover member are formed of a metal material including stainless steel, and the second filtering screen is a metal material or polyester including stainless steel ( It is formed of a synthetic resin material containing polyester).

In addition, according to an embodiment, the first filtering screen has a structure in which a filtering screen having a mesh size of at least 100 μm is overlapped in several layers.

In addition, according to an embodiment, the second filtering screen has a structure in which a filtering screen having a mesh size of at least 100 μm is overlapped in several layers.

The present invention as described above can be simply installed in the waterway or inlet of all facilities such as settling ponds in water purification plants, and completely filters all kinds of microlarvae and eggs from larvae, adults, and eggs such as very fine midges in water. This has the effect of supplying clean tap water to each household.

Accordingly, it is effective to block the public's anxiety about tap water hygiene due to the discovery of microlarvae such as midges in tap water, and to restore the public's trust in clean tap water.

1 is a photographic image of eggs, larvae, and adults of midges, which are representative microlarvae found in tap water.
Figure 2 is a perspective plan view showing the first filtration screen assembly of the micro larvae filtering device for a water purification plant according to an embodiment of the present invention;
3 is a rear perspective view showing the second filtration screen assembly of the micro larvae filtration device for a water purification plant according to an embodiment of the present invention;
4 is an exploded perspective view of FIG.
5 is an exploded perspective view of FIG. 3 ;
6 is a state diagram of the present invention in which the fine larval filtering device for a water purification plant is installed in the waterway and inlet of the water purification plant;
7 is a photorealistic image of a state in which the micro larvae filtering device for a water purification plant of the present invention is installed

The terms used herein are used only to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. In the present specification, terms such as "comprise" or "have" to "include" are intended to designate that the features, numbers, steps, operations, components, parts, or combinations thereof described in the present specification exist, but one It should be understood that it does not preclude the existence or addition of other features or numbers, steps, operations, components, parts, or combinations thereof, or other features or more.

Unless defined otherwise herein, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

Terms such as those defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related art, and should not be interpreted in an ideal or excessively formal meaning unless explicitly defined in the present specification. shouldn't

Hereinafter, with reference to the accompanying drawings, the configuration and operation relationship of the micro-larval filtering device for a water purification plant of the present invention will be described in detail as follows.

Figure 2 is a plan perspective view showing the first filtration screen assembly of the micro larval filtering device for a water purification plant according to an embodiment of the present invention, and Figure 3 is the first filtration screen assembly of the micro larval filtering device for a water purification plant of the present invention in an embodiment It is a rear perspective view along, FIG. 4 is an exploded perspective view of FIG. 2, FIG. 5 is an exploded perspective view of FIG. 3, and FIG. 6 is a state diagram in which the present invention fine larval filtering device for a water purification plant is installed in the waterway and inlet of the water purification plant, FIG. is a live-action image of the present invention in which the fine larval filtering device for a water purification plant is installed.

2 to 7, the present invention according to an embodiment of the present invention for filtering fine larvae filtering device for a water purification plant, the first filtration screen assembly 100 for primary filtration of the fine larvae, and secondary filtration of the fine larvae again It may be configured in the form of a plurality of assemblies of the second filtration screen assembly 200 for this purpose.

First, referring to FIGS. 1 and 3 , the first filtering screen assembly 100 is provided with a first main frame 110 having a rectangular window frame shape, and the first main frame 110 is at least within a rectangular frame. One or more vertical supports 111 are formed at regular intervals.

In addition, a flat first filtering screen 130 is fixedly installed on the front edge surface 110a of the first main frame 110 (refer to FIG. 4), and at this time, the first filtering screen 130 is a microlarva, It is preferable that a fine mesh with a size of at least 100 μm is formed so as to filter eggs and adults.

At this time, in general, the size of the fine larvae or adults is several mm, but in particular, the size of the eggs is observed up to an individual with a size of at least 100 μm, so the mesh size of the first filtering screen 130 is also preferably formed to be at least 100 μm. do.

In addition, the first filtering screen 130 may be configured in a structure in which a plurality of filtering screens having a mesh size of at least 100 μm are overlapped in several layers.

According to an embodiment, the first filtering screen 130 may be constructed by overlapping the same material among metal materials including stainless steel or synthetic resin materials including polyester, or by mixing different materials. can

In addition, between the front edge surface 110a of the first main frame 110 and the first filtration screen 130, the water channel and the first filtration screen 130 are sealed to prevent microlarvae, etc. A first gasket sealing member 120 is provided.

At this time, the total edge area of the first gasket sealing member 120 is the area of the first main frame 110 or the first filtering screen 130 to sufficiently close the gap between the water channel and the first filtering screen 130 . It is preferable to form it larger than that.

In addition, in a state in which the first filtering screen 130 and the first gasket sealing member 120 are seated on the front edge surface 110a of the first main frame 110, the front edge of the first main frame 110 is Since the first cover member 140 is coupled to the surface 110a, the first filtering screen 130 may be firmly fixed to the first main frame 110 .

According to an embodiment, the first main frame 110 and the first cover member 140 may be formed of a metal material including stainless steel in consideration of corrosion resistance and mechanical strength.

In addition, the nut member 116 is integrally formed on the upper end of the first main frame 110 , and the nut member 116 has a bolt-shaped body 161 and a 'T' shape or a ring shape on the bolt head. The height adjustment bar 160 in which the handle 162 is integrally formed is fitted by screw coupling.

Accordingly, as the operator holds the handle 162 of the height adjustment bar 160 by hand and rotates it in one direction, the bolt body 161 screwed to the nut member 116 moves forward from the nut member 116 . Alternatively, the upper end of the first main frame 110 is lifted and mounted from the waterway bottom surface as the operator directly changes the forward and backward length of the bolt body 161 in consideration of the water level or flow rate as described above. The inclination angle can be adjusted arbitrarily.

According to one embodiment, the height at which the upper end of the first main frame 110 is lifted may be appropriately adjusted in consideration of the water level or flow rate, for example, in the pilot installation case of FIG. The inclination angle was adjusted and installed to a height of cm.

In addition, the first cover member 140 may be fixed to the first main frame 110 by screwing. Accordingly, if the first filtering screen 130 is torn or damaged, such as a hole, it is easy for the operator to release the screw coupling of the first cover member 140 and then replace the first filtering screen 130 with a new one can be performed

In addition, according to an embodiment, the first gasket sealing member 120 may be a silicone rubber. However, it is understandable that the material of the first gasket sealing member 120 is not limited to silicone rubber, and any material capable of exhibiting an equivalent function may be used.

Accordingly, referring to FIGS. 6 and 7 , the first filtration screen assembly 100 having the above configuration may be installed obliquely into a channel through which water from a water purification plant flows, for example, a channel through which purified water flows from a settling pond to a filter paper of a water purification plant. have.

On the other hand, the second filtering screen assembly 200 is provided with a second main frame 210 having a rectangular window frame-shaped rim.

In addition, a second filtration screen 230 in the shape of a bag is fixedly installed on the rear lower edge surface 210a of the second main frame 210 (refer to FIG. 5), and the second filtration screen 230 includes microlarvae, It is preferable that a fine mesh with a size of at least 100 μm is formed so as to filter eggs and adults.

In addition, the second filtering screen 230 may be configured in a structure in which a plurality of filtering screens having a mesh size of at least 100 μm are overlapped in several layers, and according to an embodiment, the second filtering screen is corrosion-resistant or Considering the mechanical strength, the same material among metal materials including stainless steel or synthetic resin materials including polyester may be used overlaid or different materials may be mixed.

In addition, between the rear lower edge surface 210a of the second main frame 210 and the second filtration screen 230, there is a gap between the inlet of the water purification plant and the second filtration screen 230, fine larvae, etc. with water. A second gasket sealing member 220 is provided for sealing so as not to escape.

In addition, the rear edge surface of the second main frame 210 in a state in which the second filtering screen 230 and the second gasket sealing member 220 are seated on the rear edge surface 210a of the second main frame 210 . A second cover member 240 is screwed to the 210a to firmly fix the second filtering screen 230 to the second main frame 210 .

Accordingly, the second filtration screen assembly 200 having the above configuration is vertically inserted into the inlet (see FIG. 6 ) through which the water of the water purification plant flows in and out at a predetermined interval on the downstream side of the first filtration screen assembly 100 described above. is installed

In addition, referring to FIG. 3 , a third filtering screen 250 may be further provided above the second filtering screen 230 . At this time, it is preferable that the third filtering screen 250 also has a mesh of at least 100 μm, and according to an embodiment, having a mesh of 800 μm in size to filter out large-sized floats floating on the water surface. It is also possible to configure the filtering screen 250 or to replace the third filtering screen 250 with a stainless plate (refer to FIG. 7) in a portion where the third filtering screen is to be installed in another embodiment.

In addition, the pedestal 260 is provided at the lower end of the second main frame 210 so that the second main frame 210 can be installed in a state of standing perpendicular to the inlet of the water purification plant.

In addition, the second cover member 240 may be fixed to the second main frame 210 by screwing, and accordingly, if the second filtering screen 230 is damaged, such as a heavy foreign matter is caught, torn or punctured. In this case, the operator can easily replace the second filter screen 230 with a new one after releasing the screw coupling of the second cover member 240 .

In addition, according to an embodiment, the second gasket sealing member 220 may be a silicone rubber. However, the material of the second gasket sealing member 220 is not limited to silicone rubber, and any material capable of exhibiting an equivalent function may be used.

Also, according to an embodiment, the second main frame 210 and the second cover member 240 may be formed of a metal material including stainless steel in consideration of corrosion resistance or mechanical strength.

In addition, according to another embodiment, the second filtering screen 210 may be used by overlapping the filtering screen 230 having a mesh of at least 100 μm in size, for example, referring to FIG. 3 , the second filtering screen 230 ) is a metal material containing stainless steel (231, 232) or a synthetic resin material containing polyester (231, 232) using multiple layers of the same material or by mixing other materials. have.

Referring to FIGS. 6 and 7 , the second filtration screen assembly 200 having the above configuration may be installed by being vertically inserted into the inlet through which water flows from the settling pond to the filter paper of the water purification plant.

According to an embodiment, the second filtration screen assembly 200 may be installed by being vertically inserted into the downstream sedimentation basin inlet (refer to FIG. 6 ) at a distance of 30 to 50 cm from the first filtration screen assembly 100 .

For example, if the mesh size of the first filtering screen 130 is formed too small, the flow rate of the purified water may be disturbed and the purified water may overflow beyond the first filtering screen 130 , so the mesh size of the first filtering screen 130 . uses a filtration screen 130 having a mesh size of 200 μm so as to primarily filter out contaminants that are a little larger in size than microlarvae or eggs, while the second filtering screen 230 removes micro larvae or eggs. A filtering screen 230 having a mesh size of 100 μm was used for filtering.

Therefore, as described above, the first and second filtration screen assemblies 100 and 200 are independently installed in the water channels and inlets of the settling pond of the water purification plant, or the first and second filtration screen assemblies 100 and 200 are installed. If it is installed at regular intervals, it is possible to repeatedly filter fine contaminants contained in purified water by the first and second filtering screens 130 and 230 over the first and second phases, so It will be possible to supply clean tap water to households across the country after filtering and filtering all kinds of micro-organisms, including micro-larvae, adults, and eggs larger than 100 μm.

On the other hand, if the fine mesh of the first and second filtering screens 130 and 230 is torn by a sharp object or damaged due to prolonged exposure to direct sunlight during use of the present invention, the administrator regularly or permanently , the second cover member 140, 240 has the advantage of very easy maintenance because it is simply replaced with a new filter screen 130, 230 by loosening the screw fastened to the assembly.

In addition, the present invention is not limited only by the above-described embodiment, and since it is possible to create the same effect even when changing the detailed configuration or number and arrangement of the device, those of ordinary skill in the art will present the present invention It is specified that various additions, deletions, and modifications are possible within the scope of the technical idea of

100: first filtration screen assembly 110: first main frame
120: first gasket sealing member 130: first filtering screen
140: first cover member 160: height adjustment bar
200: second filtration screen assembly 210: second main frame
220: second gasket sealing member 230: second filtering screen
240: second cover member 250: third filtering screen
260: support frame

Claims (15)

delete delete delete The first filtration screen assembly 100,
a first main frame 110 in which at least one vertical support 111 is provided at regular intervals within a rectangular window frame-shaped frame;
a first filtration screen 130 fixed to the front edge surface 110a of the first main frame and formed with a fine mesh having a size of at least 100 μm to filter fine larvae, eggs, and adults;
a first gasket sealing member 120 provided between the front edge surface 110a of the first main frame and the first filtering screen 130 to seal the water through a gap between the water channel and the first filtering screen; and
The first filtering screen 130 and the first gasket sealing member 120 are seated on the front edge surface 110a of the first main frame, and are coupled to the front edge surface 110a of the first main frame, whereby the first A first cover member 140 for fixing the filtering screen 130 to the first main frame 110;
The first filtering screen assembly 100 includes a gap between the water channel and the first filtering screen 130 in which the first main frame 110 is obliquely fitted in the water channel through which the water of the water purification plant flows. sealed to prevent water from escaping,
The second filtration screen assembly 200,
a second main frame 210 having a rectangular window frame-shaped border;
The second filtering screen 230 in the shape of a bag is fixedly installed on the rear lower edge surface 210a of the second main frame, and a fine mesh having a size of at least 100 μm is formed so as to filter fine larvae, eggs, and adults. );
A second gasket sealing member provided between the rear edge surface 210a of the second main frame and the second filtering screen 230 to seal the water through the gap between the inlet of the water purification plant and the second filtering screen 230 to prevent water from escaping. (220); and
The second filtering screen 230 and the second gasket sealing member 220 are seated on the rear edge surface 210a of the second main frame, and are coupled to the rear edge surface 210a of the second main frame, whereby the second A second cover member 240 for fixing the filtering screen 230 to the second main frame 210;
The second filtering screen assembly is vertically inserted into the inlet through which water flows in and out of the water purification plant at a predetermined distance from the first filtering screen assembly, and the second gasket sealing member 220 is disposed between the inlet and the second filtering screen 230. Seal the gaps to prevent water from escaping.
A nut member 116 is integrally formed on the upper end of the first main frame 110, and the nut member 116 has a bolt-shaped body 161 and a 'T'-shaped or ring-shaped handle on the bolt head. The height adjustment bar 160 in which (162) is integrally formed is fitted by screw coupling,
As the operator holds the handle 162 of the height adjustment bar 160 by hand and rotates it in one direction, the bolt body 161 screwed to the nut member 116 moves forward or backward from the nut member 116 and In this way, as the operator directly changes the forward and backward length of the bolt body 161 in consideration of the water level or flow rate, the upper end of the first main frame 110 is lifted from the waterway bottom surface and the inclination angle at which it is mounted. characterized in that it is arbitrarily adjusted,
Filtering device for fine larvae for water purification plants. 5. The method of claim 4,
The first cover member is fixed to the first main frame by screwing,
Filtering device for fine larvae for water purification plants. 5. The method of claim 4,
The second cover member is fixed to the second main frame by screwing,
Filtering device for fine larvae for water purification plants. 5. The method of claim 4,
The first gasket sealing member is silicone rubber,
Filtering device for fine larvae for water purification plants. 5. The method of claim 4,
The second gasket sealing member is silicone rubber,
Filtering device for fine larvae for water purification plants. 5. The method of claim 4,
The first main frame and the first cover member are formed of a metal material including stainless steel, and the first filtering screen is a metal material including stainless steel or a synthetic resin material including polyester. formed by
Filtering device for fine larvae for water purification plants. 5. The method of claim 4,
The second main frame and the second cover member are formed of a metal material including stainless steel, and the second filtering screen is a metal material including stainless steel or a synthetic resin material including polyester. formed by
Filtering device for fine larvae for water purification plants. 5. The method of claim 4,
The first filtering screen has a structure in which the filtering screen having a mesh of at least 100 μm in size is overlapped in several layers,
Filtering device for fine larvae for water purification plants. 5. The method of claim 4,
The second filtering screen has a structure in which a filter screen having a mesh size of at least 100 μm is overlapped in several layers,
Filtering device for fine larvae for water purification plants. 5. The method of claim 4,
A third filtering screen 250 is further provided on the upper portion of the second filtering screen 230 of the second main frame, wherein the third filtering screen 250 has a mesh having a size of 100 μm to 800 μm. doing,
Filtering device for fine larvae for water purification plants. 14. The method of claim 13,
In place of the third filtering screen 250, characterized in that the portion where the third filtering screen is to be installed is sealed with a stainless plate,
Filtering device for fine larvae for water purification plants. 5. The method of claim 4,
A pedestal 260 is provided at the lower end of the second main frame 210 so that the second main frame 210 is installed in a vertical standing state at the inlet of the water purification plant,
Filtering device for fine larvae for water purification plants.

Images