KR102028403B1 - Strainer apparatus for water treatment equipment - Google Patents

Abstract

The present invention relates to a strainer structure for a water purifying apparatus. According to the present invention, a strainer provided in the conventional water purifying apparatus is generally formed in a honeycomb shape and is configured to discharge purified water through a nozzle formed at one side of an intersection point, and thus, has a problem of not smoothly removing foreign substances or sphagnum formed at a nozzle periphery part. However, foreign substances or sphagnum formed at the strainer cannot be removed even by a conventional process of backflowing water to clean the inside of the water purifying apparatus. The strainer structure for a water purifying apparatus of the present invention is adopted to allow foreign substances or sphagnum not to be generated due to continuous use even when a water purification process or a backflowing process is performed by the water purifying apparatus by preventing water from being collected, and allowing water dropped to the strainer to flow down.

Description

Strainer Structure for Water Treatment Equipment {STRAINER APPARATUS FOR WATER TREATMENT EQUIPMENT}

The present invention relates to a strainer structure for a water treatment device, and in particular, to prevent water from being accumulated, and to configure the water flowing down by the strainer to flow down, thereby to perform a water purification process or a backflow process in the water treatment device. The present invention relates to a strainer structure for a water treatment device, which employs a strainer structure capable of preventing foreign matter or water moss, etc., from occurring even after performing.

Environmental pollutants include point pollutants that are discharged from a defined and limited point source such as domestic sewage, industrial waste and livestock waste, agricultural land, grassland, forest land, construction sites, mines, logging sites, waste treatment plants, Discharge areas can be divided into nonpoint pollutants emitted from a wide range of nonpoint sources, such as landfills, roads, parking lots, plazas, bus stops or dense settlements. In particular, in case of non-point pollutants, the discharge area remains unclear and remains on a wide range of surface, but it is the main cause of water pollution by entering the public water or groundwater such as rivers, bays and lakes with rainwater during rainy weather.

On the other hand, water, like air, is one of the essential elements for human survival, and in recent years, its importance is emphasized with the gradual change of the global environment. For example, some areas suffer from drought, while others suffer from floods such as floods. In particular, in areas where annual rainfall is insufficient or rainfall is concentrated only at certain times, many efforts have been made, such as developing groundwater as a countermeasure for water shortage.

On the other hand, as described above, in some areas where water resources are scarce, rain water may be stored for use as a living water channel.

Therefore, in recent years, in addition to environmental pollution prevention, in terms of water resource protection, devices and facilities having a structure capable of using purified water to a certain level by removing various non-point pollutants included in rainwater during rainfall have been developed.

One such apparatus is a water treatment apparatus, which is configured as shown in FIG. 1 of the accompanying drawings.

The water treatment device is configured to have a strainer 60,

The strainer provided in the conventional water treatment apparatus is generally configured in a honeycomb form to discharge the purified water through a nozzle configured on one side of the intersection point, which is not smooth removal of foreign substances or water moss formed in the nozzle periphery. There was a problem.

This could not remove foreign matter or water moss, etc. formed in the strainer even in the conventional process of refluxing the water for internal cleaning of the water treatment device.

Accordingly, the present applicant is configured to prevent the water pooling, and to flow the falling water to the strainer, foreign matter or water moss, etc. according to the continuous use even if the water purification process or the reverse flow process in the water treatment device The strainer structure which used the strainer structure which can prevent this from happening came to be considered.

As a related art, Patent Publication No. 10-0906743 describes a water storage tank used for a drainage or purified water.

The technique comprises a cylindrical outer wall, a roof and a bottom plate sealing upper and lower portions of the outer wall, and connected to an inflow pipe into which the flowing water flows in and a discharge pipe of the flowing out water flowing into the water storage tank to be used for a drainage or purified water. In particular, in the interior of the outer wall a plurality of cylindrical catchment walls having different diameters and flow-in and out holes are arranged so as to form a respective chamber, the water-collecting wall is arranged so that the flow-in and export holes are located in opposite directions to each other The inlet pipe is installed to communicate with the outermost chamber; The bottom plate has a staircase shape, the height of which is lower as it goes from the outer chamber to the inner chamber, and in the same chamber, the height is lower as it is closer to the flow-in / out hole of the catchment wall, and a plurality of baffles are zigzag in the chamber. It is installed as, it is described that the effect of improving the disinfection effect of the flowing water by allowing the water to stay for a long time as well as mixing the water and the disinfectant well.

According to the above technique, the bottom plate 30 is formed in a step shape, the height of the lower chamber from the outer chamber to the inner chamber is lowered, the flow in and out of the catchment wall (61, 62, 63, 64) in the same chamber The closer to the holes 61a, 62a, 63a, 64a, the lower the height is described.

In addition to preventing the pooling of water to be provided by the present applicant, and configured to allow the flow of falling water to the strainer, foreign matter or moss, etc. according to the continuous use even if the water purification process or the reverse flow process in the water treatment device It cannot correspond to the strainer structure which can prevent this from occurring.

Patent Registration No. 10-0906743 (August 09, 2009)

An object of the present invention relates to a strainer structure for a water treatment device, and in particular, it is possible to prevent water from being accumulated, and to configure the water flowing down by the strainer to flow down. The present invention provides a strainer structure for a water treatment device, which employs a strainer structure that prevents foreign matter or water moss, etc. caused by continuous use even after performing a countercurrent process.

In order to achieve the above object, the strainer structure for water treatment apparatus according to the present invention,

Body 10;

An inlet pipe 20 for introducing groundwater into the body 10;

A first layer 30, a second layer 40 and a third layer 50 sequentially stacked in the body 10;

A strainer (60) provided on the inner bottom surface of the body (10) below the third layer (50) to guide purified water to the discharge pipe (70); And

In the purified water treatment device 1 comprising a discharge pipe 70 for discharging the water discharged from the strainer 60 to the outside of the body 10,

The strainer 60,

The upper surface is bent downward, the side is formed in a dome shape convexly curved outwards, characterized in that the water flowing in the third layer 50 is configured not to accumulate around the strainer 60 or the strainer 60 do.

At this time, the strainer 60,

Dome-shaped body 61,

It characterized in that it comprises a plurality of through-holes 62 formed in the dome-shaped body (61).

In addition, the plurality of through holes 62,

Consists of a radial shape with respect to the top surface of the strainer 60, characterized in that it extends while forming a plurality of regions in the radial direction.

In addition, the through hole 62,

Formed into 50-80 mm long and 2 mm wide,

The spacing between adjacent through holes 62 is characterized in that formed 15 ~ 20mm.

According to the strainer structure for water treatment apparatus according to the present invention,

By preventing the water from stagnating and flowing down the falling water by the strainer, it is possible to prevent the foreign substances or moss caused by the continuous use even if the water purification process or the reverse flow process is performed in the water treatment device. In

Since the strainer provided in the conventional water treatment apparatus is generally configured in a honeycomb form, it is possible to solve a problem that it is difficult to remove foreign matters or water moss, etc. formed in the nozzle periphery.

In addition, as the material is applied to stainless steel, it is possible to solve the conventional problem made of a plastic material was easy to break.

1 shows a conventional water treatment apparatus and a strainer provided therein.
2 is a view for explaining the structure of the strainer for water treatment apparatus according to the present invention.
Figure 3 shows the configuration of the strainer in the strainer structure for water treatment apparatus according to the present invention.

The terms or words used in this specification and claims are not to be construed as limiting in their usual or dictionary meanings, and the inventors may appropriately define the concept of terms in order to best describe their invention. Based on the principle, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the matters described in the embodiments and drawings described herein are only the most preferred embodiments of the present invention and do not represent all of the technical idea of the present invention, and various equivalents may be substituted for them at the time of the present application. It should be understood that there may be water and variations.

Before describing the present invention with reference to the drawings, it is not shown or specifically described for the matters that are not necessary to reveal the gist of the present invention, that is, those skilled in the art can obviously add. Make a note.

The strainer provided in the conventional water treatment apparatus is generally configured in a honeycomb form to discharge the purified water through a nozzle configured on one side of the intersection point, which is not smooth removal of foreign substances or water moss formed in the nozzle periphery. There was a problem.

This could not remove foreign matter or water moss, etc. formed in the strainer even in the conventional process of refluxing the water for internal cleaning of the water treatment device.

Accordingly, the present invention relates to a strainer structure for a water treatment device, and in particular, to prevent water from being accumulated, and to configure the water flowing down by the strainer to flow down, thereby purifying the water purification process or the reverse flow process in the water treatment device. The present invention relates to a strainer structure employing a strainer structure capable of preventing foreign matter or water moss, etc., from occurring even after performing the same.

In general, the water treatment apparatus is an apparatus for treating water for the purpose of removing iron or manganese in order to supply groundwater to an apartment or the like, which may be referred to FIG. 1 of the accompanying drawings.

1 shows a conventional water treatment apparatus and a strainer provided therein.

According to Figure 1 of the accompanying drawings, the conventional water treatment apparatus 1, the body 10; An inlet pipe 20 for introducing groundwater into the body 10; A first layer 30, a second layer 40 and a third layer 50 sequentially stacked in the body 10; A strainer (60) provided on the inner bottom surface of the body (10) below the third layer (50) to guide purified water to the discharge pipe (70); And it is configured to include a discharge pipe 70 for discharging the water discharged from the strainer 60 to the outside of the body (10).

At this time, the first layer 30, the second layer 40 and the third layer 50 are laminated in order from the top to the bottom, and to use a smaller particle toward the bottom, for example, synthetic resin, gravel Unresolved rocks composed of sand, charcoal, clay or mixtures of these are to be accommodated in each layer.

However, the present invention is not intended to limit the water contained in each layer.

The strainer 60 according to FIG. 1 of the accompanying drawings is composed of a honeycomb in the form of a mesh, and nozzles are formed at the intersection points, respectively, so that the water purified from the first layer 30 to the third layer 50 is downward. To induce.

However, in the case of the conventional strainer 60 having the above-described structure, since water that has not flowed into the nozzle from the water flowing through the layers 30, 40, and 50 through the respective layers 30, 40, and 50 in the honeycomb area around the nozzle, Foreign matter or water moss is formed due to accumulation, and there is a problem in that the strainer needs to be replaced or repaired periodically.

In particular, in the case of the conventional strainer 60, the material is made of plastic, when the water, foreign matters such as moss is easily formed, there is often a problem that is damaged during replacement or repair.

In the present invention, to solve this problem, it is to provide a strainer 60, which is improved to the stainless material, the shape is improved.

The improved strainer 60 as described above is positioned below the third layer 50 as shown in FIG. 2 of the accompanying drawings, so as to have a convex dome shape.

In particular, the upper surface has a curved shape downward, and the side surface also has a convex curved shape to the outside, it is possible to prevent the water flowing in the third layer 50 is accumulated in the strainer 60.

The actual shape of such a strainer 60 can be referred to [Table 1] below.

As shown in Table 1, a plurality of through-holes 62 may be formed in the strainer 60. According to FIG. 3 of the accompanying drawings, the strainer 60 has a dome-shaped body 61 and the dome-shaped body 61. It is configured to include a plurality of through holes 62 formed in the).

In this case, the through hole 62 has a radial shape with respect to the top surface of the strainer 60, and when the area closest to the top surface is referred to as the first area, the through hole 62 is gradually expanded to the n-th area.

In addition, for a plurality of areas (refer to the blue marks in FIG. 3), the through hole 62 in one region is arranged to be staggered so as to intersect the through hole 62 in another adjacent region.

In addition, the through hole 62 may be formed so that the zigzag arrangement rule is also observed on the side surface of the strainer 60. This is to allow the water not introduced through the through hole 62 of the strainer 60 to flow into the through hole 62 formed on the side surface while flowing down the strainer 62.

However, unlike the accompanying drawings, the through hole 62 formed on the side of the strainer 60 is formed to be in close contact with the bottom of the strainer 60, so that the lower surface may have an open form. This flows down along the strainer 62 of the water that did not flow through the through hole 62 of the strainer 60 does not flow into the through hole 62 formed on the side, and water dropped on the inner bottom surface of the body 10. This is to allow the inflow to the through hole 62 formed on the side.

At this time, in order to help the water falling on the inner bottom surface of the body 10 flows into the through hole 62 formed on the side surface, the inner bottom surface of the strainer 60 of the body 10 is formed to be concave differently from the drawing. May be formed such that water is directed in the direction of strainer 60.

The through hole 62 of the strainer 60 described above is such that the length and width ratio of the through hole 62 of one region and the through hole 62 of another region adjacent thereto are 1: 1, and the length of the through hole 62 is It is preferable to form the length of 50-80 mm, and to form the width of the through hole 62 in 2 mm.

In addition, the interval between the through holes 62 may be formed to 15 ~ 20mm.

However, when the through-hole formed in the side of the strainer 60 as shown in Figure 3 of the accompanying drawings is not formed to be in close contact with the bottom surface may be configured as follows.

With respect to the curved inner bottom surface of the body 10 in which the strainer 60 is formed, the double plate is configured as shown in [Table 2].

At this time, the outer end of the double plate to form a partition, to block the entry of water falling in the outward direction of the partition wall, by forming an opening at a predetermined interval on one side of the partition wall, the blocked water can enter. .

In addition, the inner end of the double plate has a height corresponding to the height of the through hole 62 of the strainer 60.

Accordingly, the water entering through the opening and the water flowing down from the upper portion enters the double plate while allowing water to flow into the through hole 62 without the water accumulating around the strainer 60, but the double plate is integrally formed. In the process that water is introduced into the through-hole 62 is not constitution because the water can fall down to the lower side of the double plate,

One side of the double plate is to form a through hole at a position not adjacent to the position at which the opening is formed.

Accordingly, when a certain amount of water is accumulated in the lower side of the double plate, the water flows back into the double plate while flowing backward through the through hole, thereby reducing the occurrence of foreign substances due to the water pool.

What has been described above with reference to the drawings has been described only the main matters of the present invention, it is apparent that the present invention is not limited to the configuration of the drawings as long as various designs can be made within the technical scope.

1: water treatment device
10: body
20: inlet pipe
30: first layer
40: second layer
50: the third layer
60: strainer
70: discharge pipe

Claims (4)

Body 10;
An inlet pipe 20 for introducing groundwater into the body 10;
A first layer 30, a second layer 40 and a third layer 50 sequentially stacked in the body 10;
A strainer (60) provided on the inner bottom surface of the body (10) below the third layer (50) to guide purified water to the discharge pipe (70); And
In the purified water treatment device 1 comprising a discharge pipe 70 for discharging the water discharged from the strainer 60 to the outside of the body 10,
The strainer 60,
The upper surface is downwardly curved and the side is convexly curved outwardly so that water falling in the third layer 50 does not collect around the strainer 60 or the strainer 60,
A dome-shaped body 61 and formed in a length of 50-80 mm and a width of 2 mm in the dome-shaped body 61 and the spacing between adjacent through holes 62 includes a plurality of through holes 62 formed in 15-20 mm,
The plurality of apertures 62 are configured radially with respect to the top surface of the strainer 60 and extend while forming a plurality of regions in the radial direction,
A double plate is formed on the curved inner bottom surface of the body 10 in which the strainer 60 is formed,
A partition wall is formed at an outer end of the double plate to block the entry of water that falls in the outward direction of the partition wall, and to form an opening at a predetermined interval on one side of the partition wall to allow the blocked water to enter. As the inner end of the double plate has a height corresponding to the height of the through hole 62 of the strainer 60,
As the water entered through the opening and the water falling from above flow into the double plate, water does not collect around the strainer 60, and water flows into the through hole 62.
One side of the double plate, the through-hole is formed in a position not adjacent to the position where the opening is formed, the water is doubled in the process of the water flows into the through hole 62 by the double plate is not integral with the body or strainer Even if the water flows down to the lower side of the plate by reflowing the upper side of the double plate through the through-hole, the water is circulated on the double plate can reduce the generation of foreign matters due to the water pool, water purification apparatus for Strainer structure. delete delete delete

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