KR200270300Y1 - Water Treatment Filter - Google Patents

Abstract

The present invention relates to a water treatment filter used to filter out foreign substances or harmful substances contained in domestic or industrial water to obtain clean water.

The filter of the present invention has a winding filter 22 formed on the outer circumferential surface of a porous core 21 made by hot-pressing thermoplastic resin particles such as polypropylene, or a common core 21 ′ in which a plurality of through holes are densely arranged on the outer circumferential surface thereof. It is a structure made by coating the non-woven fabric coating layer 23 by bonding the thermoplastic resin to the outer peripheral surface of the winding filter 22 is combined again.

In the water treatment filter according to the present invention, the non-woven coating layer coated on the outer circumferential surface of the winding filter prevents lint from falling off from the winding filter into the water of the chamber, thereby improving the filtration performance and further improving the external exposure of the winding filter. By blocking it, there is an effect that can improve the appearance of the filter itself.

Description

Water Treatment Filter

The present invention relates to a filter for water treatment that filters foreign substances or harmful substances contained in water, and more particularly, to a winding filter outer peripheral surface of a cylindrical filter formed by combining a winding filter made of synthetic fiber yarns with an outer peripheral surface of a cylindrical core. The present invention relates to a filter for water treatment in which a thermoplastic resin is spin-coated to form a nonwoven fabric coating layer, thereby improving the filtration performance of the filter and removing lint from the winding filter.

Due to the overcrowding of the population, the increase in the amount of detergents used and the inflow of wastewater, the quality of water supply is lower than before, and the water supply pipeline is aging. Since the content of the component is high, the situation is required to take measures against this.

As one of the most representative countermeasures that can be taken by the user of water against such water pollution, water purification facilities or water purifiers are generally installed to filter out foreign substances contained in raw water. The device has been developed and used.

1 is a longitudinal sectional view schematically showing the structure of a cylindrical filter type water purifier in a conventional water treatment apparatus, and FIG. 2 is an exploded perspective view showing a cylindrical filter used in the apparatus of FIG. 1 separately. The water purification process and filter structure are as follows.

As shown, the conventional water purifier has a vertical separation partition (2) (2 ') formed inside the sealed outer housing (1), the chamber 3 is provided therebetween, a plurality of cylindrical filters inside the chamber (3) (4) is installed, on the outer peripheral surface of the chamber (3) side of the outer housing (2), a water inlet (5) for supplying water to the chamber (3) is formed and the water purification is located below the lower separation partition (2 '). On the outer circumferential surface of the storage tank 6, a water purification outlet 7 for water extraction is provided.

At this time, the cylindrical filter 4 is composed of a core 8 having a plurality of through holes 8a densely arranged on the outer circumferential surface thereof as shown in FIG. The winding filter 9 formed by winding the fiber yarn to a predetermined thickness is coupled, while the nonwoven fabric 10 is interposed between the core 8 and the winding filter 9.

The water purification process in the conventional water purifier having such a structure, first, the water introduced into the chamber 3 through the water inlet 5 is cylindrical filter (4) by the water pressure maintained in the chamber (3) In the process of flowing through the winding filter (9) and the nonwoven fabric 10 of the inside of the core (8) to remove the foreign matter contained in the water is made, the foreign matter introduced into the core 8 in the filtered state The water is discharged to the purified water outlet 7 through the purified water storage tank 6 is made of purified water.

That is, in the structure of the conventional cylindrical filter 4, the filtration action of foreign matters is made in the winding filter 9 wound in a cylindrical shape, and the core 8 located therein moves the winding filter 9 to the chamber 3. The water flowing through the winding filter 9 is introduced through the through hole 8a formed in the main surface of the support along with the role of the supporter to be fixedly installed at a predetermined position within the chamber 3. It serves as a purified water flow path to be moved to the outlet (7).

In addition, the nonwoven fabric 10 interposed between the winding filter 9 and the core 8 serves to block the lint b separated from the yarn constituting the winding filter 9 from flowing into the core 8. Do it. For reference, the synthetic fiber yarns constituting the winding filter 9 in the cylindrical filter may have a fine lint to perform a filtration function on foreign matters, and such lint may be easily separated from the yarn.

On the other hand, the conventional cylindrical filter is composed of three components, the core 8 located inside, the winding filter 9 on the outside thereof and the nonwoven fabric 10 interposed therebetween, and the core 8 is simply It has been pointed out that the filtration efficiency is not satisfactory as it takes a structure in which filtration is performed only by the winding filter 9 only as a supporter.

In addition, in the cylindrical filter, the nonwoven fabric 10 interposed between the core 8 and the winding filter 9 does not properly block some fine lint b and passes through the nonwoven fabric 10 into the core 8. In some cases, lint remains in the water passing through the cylindrical filter 4.

In the conventional cylindrical filter, the lint b separated from the outer circumferential surface of the winding filter 9 enters into the water in the chamber 3, and the amount of the lint b is increased in proportion to the passage of time. Eventually, there is a disadvantage in that the filtration efficiency of the water purifier decreases or causes a malfunction.

In addition, the conventional cylindrical filter has been pointed out that the winding filter (9) exposed to the outside deteriorates the appearance of the filter as the synthetic fiber yarn has a fine lint as a cross-wound form.

The present invention is to solve the problems that are pointed out in the conventional cylindrical filter, the cylindrical filter by spinning the thermoplastic resin on the outer peripheral surface of the cylindrical filter consisting of the core and the winding filter, that is, the outer side of the winding filter to form a nonwoven coating layer The present invention provides a filter for water treatment, which improves its filtration ability and prevents lint separating from the outer circumferential surface of the winding filter from being blocked by the nonwoven fabric filter and preventing it from being mixed into the water.

Another object of the present invention is to provide a filter for water treatment which improves the appearance of the filter itself by covering the outer circumferential surface of the winding filter having a cosmetic problem with a nonwoven coating layer.

1 is a longitudinal sectional view showing a schematic structure of a general water purifier

Figure 2 is an exploded perspective view showing the structure of a conventional water filter.

Figure 3 is a longitudinal sectional view of an embodiment of the water treatment filter of the present invention.

Figure 4 is a perspective view of an embodiment porous core of the present invention.

Figure 5 is a perspective view of another embodiment of the water treatment filter of the present invention.

((Description of the code for the main part of the drawing))

20. Cylindrical filter 21. Porous core

22. Winding filter c.s. Rough side

23. Nonwoven Coating Layer 24. Core

The above object of the present invention is to form fine pores therein in molding into a cylindrical shape using a thermoplastic resin such as polypropylene, polyamide, polyester, Teflon, polymethacrylate, polyacrylonitrile, polystyrene and polycarbonate To the structure consisting of a porous core, a conventional winding filter laminated on the outer circumferential surface of the porous core and a nonwoven fabric coating layer formed on the outer circumferential surface of the winding filter, and formed by direct spin coating on the outer circumferential surface of the winding filter. Is achieved by

The porous core in the process of mixing the micro-sized particles consisting of two kinds of thermoplastic resins having different melting points and then pressing in a predetermined shape in the mold

The porous core is heated to a temperature higher than the melting point of the low melting point thermoplastic resin and lower than the melting point of the high melting point thermoplastic resin to cause melting of the low melting point thermoplastic resin to act as an adhesive between particles in the unmelted state. Molding is made.

The pores of the porous core obtained through such a hot press forming process takes the form connected to each other throughout the tissue, the pore size is maintained in the range of 1-200μm, this range corresponds to the filtration range of the core.

The control of the filtration range is made by controlling the variables such as the particle size of the raw material resin particles and the pressure, temperature and holding time during the molding and pressing process.

As a core constituting the filter for water treatment of the present invention, in addition to the porous core made of the thermoplastic resin, a common core having a plurality of through-holes arranged densely on the entire outer circumferential surface thereof may be used.

Next, the nonwoven fabric coating layer forming a characteristic component of the inventive water treatment filter heats thermoplastic resins such as polypropylene, polyamide, polyester, teflon, polymethacrylate, polyacrylonitrile, polystyrene, and polycarbonate. In the molten state is formed by spin coating on the outer circumferential surface of the winding filter as the target surface located in front of the spray nozzle.

At this time, resin yarns, such as spider webs, sprayed from the nozzles are irregularly attached to the target surface to form a nonwoven fabric coating layer while undergoing a solidification process.

Matters relating to the above object and technical configuration of the present invention water treatment filter and the resulting effects thereof will be clearly understood by the following detailed description with reference to the drawings showing preferred embodiments of the present invention.

Figure 3 is a partially cutaway perspective view of an embodiment water treatment filter of the present invention, Figure 4 is a perspective view of an embodiment porous core of the present invention. As shown in the figure, the cylindrical filter 20 has a structure in which a conventional winding filter 22 and a nonwoven coating layer 23 are sequentially formed on the outer circumferential surface of the porous filter 21.

The porous filter 21 has a filtration range of 1 to 200 μm due to the presence of micropores connected to each other in the form of a cylindrical body or a pipe, and is manufactured through a hot compression molding process of thermoplastic resin particles to be required as a core support. Have sufficient strength. In addition, the thickness of the porous filter 21 is preferably in the range of 5 to 20 mm as a thickness capable of having sufficient strength as a support for the winding filter 22.

The outer circumferential surface of such a porous filter 21 is advantageously formed as a rough surface (c.s.) to prevent slippage of the winding filter 22 wound thereon as shown in FIG. Formation of the rough surface (cs) is to form the inner surface of the mold used in the molding of the porous filter 21 to the rough surface so that the outer peripheral surface of the porous filter 21 formed through the mold work to form a rough surface (cs). You can do it. As a specific form of the rough surface (c.s.), a variety of methods may be applied, including a form in which parallel protrusions are formed at regular intervals on the outer circumferential surface, or small protrusions are formed at several places on the surface.

Next, the nonwoven fabric coating layer 23 formed on the outer circumferential surface of the winding filter 22 is made of a thin coating layer solidified in a state where the thermoplastic resin yarns radiate onto the outer circumferential surface of the winding filter 22 are irregularly entangled.

Looking at the water purification process of the water treatment filter of the present invention having such a structure as follows. First, the water is primarily filtered through the nonwoven coating layer 23 formed on the outside of the cylindrical filter 20 by the hydraulic pressure applied to the water filled in the chamber, and then passes through the nonwoven coating layer 23. The water coming in through the winding filter 22 inside the secondary filtration for foreign substances or harmful components contained in the water is made. Then, the water passing through the winding filter 22 passes through the final filtration process in the course of passing through the porous core 21 located therein, and the removal of the lint (b) from the winding filter 22 is eliminated. Will be done.

On the other hand, lint (b) is separated from the outer surface of the winding filter 22 is blocked by the non-woven coating layer 23 surrounding the outer side is blocked from being incorporated into the water.

Next, Figure 5 is a perspective view showing another embodiment structure of the water treatment filter of the present invention, the cylindrical filter 20 'of the present sealing example of the core formed in the innermost compared to the cylindrical filter of the embodiment shown in FIG. There is a difference in structure.

That is, in the cylindrical filter 20 'of the present embodiment, instead of the porous filter 21, a conventional core 24 in which a plurality of through holes 24a are densely arranged over the entire main surface is used.

As described above, in the cylindrical filter structure for water treatment according to the present invention, a nonwoven coating layer is formed on the outer circumferential surface of the winding filter, thereby preventing the lint separated from the winding filter from entering the water inside the chamber, thereby improving the filtration performance. There is this.

In the water treatment filter of the present invention, the winding filter having a problem in appearance does not appear to the outside by the nonwoven fabric coating layer coated on its outer circumferential surface, thereby improving the appearance of the filter.

In addition, in the filter structure for the water purifier of the present invention, when the porous core is used on the inside, the core has a function as the support while having the micropores therein through the hot pressing of the thermoplastic resin particles, thereby intrinsic function of the core. The filter function, which simultaneously performs the support function and the filter function as well as the triple filter structure that performs the filtration in the outermost nonwoven fabric filter, is significantly improved compared to the cylindrical filter which is filtered by only the conventional winding filter. You can expect the effect.

Claims (1)

In the water treatment filter formed by laminating a nonwoven fabric and a winding filter wound around a hollow core cylindrical core which serves as a support and positioned inside, the core is formed by hot press molding of thermoplastic resin particles. Water treatment filter, characterized in that consisting of a core filter 21 made of a porous cylindrical body having a filtration range of ㎛ and the winding filter 22 is directly coupled to the outer peripheral surface.