KR200273289Y1 - Catchment device strainer that have cylindrical mesh structure - Google Patents

Abstract

The present invention relates to a cylindrical strainer for use in sand filter or activated carbon, ion exchange resin tower, etc. of a water treatment plant, which is connected to a collecting hole of a lower collecting device such as a sand filter and supports a network structure, and a net through which treated water passes. It consists of a cover part covering the processing part of the structure and the mesh structure and a fixing part fixing the support part and the cover part.

The features of the present invention can significantly increase the throughput through more water flow area than conventional conical strainers or flat plate strainers.The stainless steel is used as the material of the strainer, and the cylindrical structure is adopted to improve mechanical strength and durability. It is to prevent replacement due to breakage, blockage and corrosion.

The present invention increases the throughput, provides durability, and provides a strainer that is easy to manufacture and install, resulting in shortening the field work process and shortening the manufacturing cost and air.

Description

Catchment device strainer that have cylindrical mesh structure

The present invention is attached to the water collecting hole of the lower collecting device installed between the filter sand layer and the pressure chamber below the filter sand layer in filter paper such as sewage treatment plant, water purification plant, etc., for the lower collecting device having the function of collecting the filtered water and distributing the backwash water. In particular, the strainer, in particular, by using an external network in the water passage of the strainer during the collection of the filtered water to prevent damage and corrosion even in the increase of water flow rate and long-term use, and backwash water discharged upward from the support collector water collection during backwashing It is to provide an efficient strainer to clean the sediment accumulated on the floor by forming a water flow in the horizontal direction after impact on the cover.

Known strainers are arranged in the bottom of the sand filter, the activated carbon adsorption tower, or the ion exchange resin tower to filter out the solids in the water or fluid, in the collecting hole of the lower collection block installed between the filter sand layer of the filter paper and the pressure chamber under the filter water. A strainer for the lower collecting device of the filter paper, which has a distribution function of collecting water and backwash water, is installed so that the filter medium such as sand, activated carbon or ion exchange resin does not escape with the treated water.

Generally, the structure of the strainer for the lower water collecting device has a conical shape or a low cylindrical shape, and has a structure that allows water or fluid to pass through a narrow gap (slit) in the up and down direction of the water collecting part, so that the water flow area per strainer is Due to the narrowness of the water flow is very narrow, there was a problem that a large number of strainers must be installed in the large-capacity filter paper. In addition, since most materials are made of plastic, they are weak in the durability and compressive load of the strainer, and the width of each slit is widened or narrowed depending on the pressure applied to the strainer. Sometimes it happens.

The present invention was designed to solve the problems such as corrosion, breakage and slit gap deformation by selecting the material of the strainer which has strong durability and compressive load force, and has a narrow slit in the vertical direction of the strainer To overcome the shortcomings, the network structure was adopted to maximize the water flow area per strainer to improve the water flow. Then, a screw was made in the support of the strainer so that the strainer could be directly installed in the water collecting hole of the lower collecting device.

1 is a structural diagram showing the appearance of the strainer according to the present invention

2 is an assembly view of each component of the strainer according to the present invention

3 is a detailed installation of the strainer according to the present invention

4 is an exemplary view in which the strainer according to the present invention is installed in the lower collecting device

5 is a diagram illustrating the installation of a strainer used in a conventional filter

<Description of the symbols for the main parts of the drawings>

10 cylindrical strainer 11 support 12 packing or washer

13: lower collecting device 14: support screw portion 15: water collecting

20: perforation network 21: external network 30: cover

40: fixing part nut 41: vertical fixing body 42: horizontal fixing pin

The present invention has been made in order to provide a strainer for a lower catchment device that does not have all the disadvantages and problems as described above, and the cylindrical strainer body to the water collecting hole of the lower catchment device to be simply coupled by a screw of the support portion and the lower catchment device Easy to tighten strainer

Cylindrical strainer of the present invention is connected to the lower collecting device, the support part for supporting the network structure and the cover part for forming the shape of the network structure by covering the processing part and the network structure through the upper part from the upper part and the threaded inner wall of the support part It was designed to form the shape of the cylindrical strainer by fastening the support part and the cover part by the fixing part nut by the vertical fixing body fixed by the horizontal fixing pin fixed to the fixing part nut. This will be described in detail with reference to the accompanying drawings.

1 is an external structural view showing a state of coupling of the strainer 10 according to the present invention, FIG. 2 is an assembly view thereof, FIG. 3 is an installation view, and FIG. 4 is a strainer 10 of the present invention in the lower collecting device 13. This is an installation example with installation.

Cylindrical strainer 10 of the present invention in Figure 1 has a support screw portion 14 for connecting with the internal lower collecting device of the water treatment facility can be easily combined with the lower collecting device, the support 11 and the lower collecting device Insert a packing or washer (12) to maintain airtightness between (13).

The upper portion of the cylindrical strainer 10 has a cover portion 30 so that when the backwash water is discharged in the vertical direction from the lower collecting hole 15 during backwashing, it hits the inner surface of the cover portion 30 and then horizontally along the upper surface thereof. By jetting, the filter medium layers laminated on the upper layer and the side of these strainers 10 can be efficiently washed at the same time.

In FIG. 2, the lower end of the cylindrical strainer 10 of the present invention is provided with a screw 14 so that the lower collecting device 13 can be directly coupled when there is a screw, and if there is no screw, the lower collecting device 13 is provided. Using a separate nut at the bottom of the to allow the strainer 10 to be fixed. Then, the horizontal fixing pin 42 is attached to the inner surface of the support screw portion 14 and the vertical fixture 41 is coupled. The vertical fixture 41 is designed to easily fix the support 11 and the cover portion 30 of the cylindrical strainer 10 by the fixing part nut 40 by forming a screw on the upper end.

In addition, the vertical fixing body 41 is applied to the conical strainer 10 by strongly fixing the water passage portion composed of the perforated network 20 and the outer network 21 between the support 11 and the cover portion 30 up and down. Paper is constructed to withstand the vertical compressive load and the horizontal pressure.

The water-permeable part has a perforated network 20 therein so as to maintain the shape of the support and the entire cylindrical strainer 10 of the external outer network 21. The perforated network 20 allows the water to pass smoothly by using the diameter of the perforated 1-5mm, the cylindrical strainer 10 to withstand the vertical or horizontal pressure, the outer net 21 is 10-100 The use of the mesh to smooth the water flow and to filter the filter material efficiently, the application of the stainless steel of the outer net 21 or the perforated net 20 is not a concern such as corrosion.

In FIG. 3, the cylindrical strainer 10 is mounted by screwing into the ion exchange resin tower of the water treatment plant and the internal collecting device 15 of the lower collecting device 13 of the sand filtration tank, and the strainer 10 and the lower collecting device ( 13) In order to maintain the airtightness between the packing or washer (12) and fixed by the filtrate of sand, gravel, ion exchange resin, etc. through the filtrate to filter the precipitate or impurities present in the liquid to filter.

<Example>

The experimental results of the water flow rate of the strainer conducted by the inventors of the present invention are shown in Table 1 according to the pump pressure for supplying water to the strainer.

[Table 1] Flow rate of strainer with cylindrical mesh structure according to pump pressure

Division / pressure 0.1 (kgf / ㎠) 0.3 (kgf / ㎠) 0.5 (kgf / ㎠) Remarks Passage amount (㎥ / hour) 4 7 (2.0) 10 Passage of existing strainer

As shown in Table 1, the strainer of the present invention has a water flow rate of 3.5 times or more compared to the existing water flow rate of similar size. This indicates that the number of strainers installed can be reduced by one third for the same number of treatment targets. Considering the reduced installation cost and easy structural features, the ripple effect on the ease of work in the field is considerable. I think it will.

The present invention adopts the material of the strainer as stainless steel, which improves durability and endurance against compressive load, and can easily solve various problems caused by corrosion, breakage, and slit gap deformation. In addition, the water flow of the strainer is maximized by adopting the perforated network and the external network of the network structure.

Due to the present invention as described above, it is easy to install the strainer on the lower collecting device in the field, and because a large amount of water per piece can be processed a large amount of water with a small number of strainers. According to the experiment of the present inventors, it was confirmed that the amount of water flow increased by 1.5-2.5 times compared with the conventional conical strainer.

Claims (3)

The support part 11 and the threaded part 14 connected to the lower collecting hole of the filtration apparatus and the cover part 30 and the inside of the water part that cover the water part 20 and 21 and the water part 20 and 21 formed in the mesh structure. Strainer for a water collecting device having a cylindrical mesh structure, characterized in that formed in the fixing portion (40, 41, 42) for fastening and coupling the support 11 and the cover portion 30 is located in The method according to claim 1; The perforated network 20 constituting the water passage of the strainer is suitable for the diameter of the hole 1-5mm, the outer network 21 is a strainer for a water collecting device, characterized in that the 10-100 mesh has a suitable network structure The method according to claim 1; Threading portion connected to the lower collecting hole of the filtration device according to the shape of the collecting hole, the strainer for the collecting device, characterized in that the screw or socket type