KR20090035992A - Discharge filter for a water-purifier tank - Google Patents

Abstract

A water purification device for a clarification tank is provided to improve quality of discharging water by supplying various nutrients and removing nitrogen, protein, and phosphorus. A water purification device for a clarification tank includes a drain pipe(100), cylindrical housings(200a)(200b), and functional materials mixture and a loss preventing plate. The drain pipe comprises a vertical part(120) and horizontal parts(140a)(140b). The horizontal parts are combined with a clarification tank(10) and are formed on a center point of the vertical part. The functional materials mixture is made by laminating bioball(300a), corallite(300b), zeolite(300c), bioceramics(300d), and charcoal(300e).

Description

Discharge filter for a water-purifier tank

The present invention relates to an apparatus for purifying water discharged from a purification tank, and more particularly, to a purification tank for purifying a tank for supplying nutrients while removing protein, phosphorus and nitrogen from the discharged water.

In general, sewage is purified to a purification tank and discharged to the sewage system outside the sewage zone with the terminal treatment plant. It consists of.

Thus, the sewage introduced into the first purification tank separates the sewage from the sewage introduced through sedimentation in the sedimentation tank, which is not only reduced in volume due to decay and decomposition by anaerobic bacteria, but also organic matter. This goes through the process of becoming weaponized. Next, the sewage from which the sewage is separated is oxidized through contact with culture bacteria or air while passing through a filtration tank and an oxidizing tank, and discharged through a discharge tank while sterilizing pathogens in the disinfection tank.

Purification tank for purification tank of the present invention is discharged in a state containing a large amount of fine foreign matter with a large amount of protein, phosphorus and nitrogen in the water purified through the conventional purification tank, and water is easily contaminated, An object is to solve the problem of lack of nutrients in the discharged water.

The present invention includes a drain pipe having a horizontal portion coupled through the purification tank in the middle point of the vertical portion to allow the immersion flows through the upper side and the purified water flows through the lower side; A housing having a discharge port fastened to a lower side of the drain pipe at a center of an upper end of a cylindrical shape, and having a plurality of inlets in a net shape at a lower side thereof; A functional material mixture for decomposing proteins and supplying nutrients from water introduced by being stacked in the housing; And a loss prevention plate formed in a mesh shape to be installed on the upper side of the housing while pressing and fixing the functional material mixture. It is made up of.

At this time, the functional material mixture is composed of a bioball (Coallite), coral (Corallite), zeolite (Zeolite), bioceramics (Bioceramics) and charcoal (Charcoal) laminated.

In addition, the lower fastening member having an annular locking jaw formed on the upper end of the housing while being screwed to the outer surface of the outlet; And an upper fastening member screwed to a lower outer surface of the vertical part of the discharge pipe in a state in which an annular fixing jaw is formed so that the lower locking member is inserted from the upper side and the locking jaw is fixed to the lower end thereof. .

In addition, the horizontal portion is divided into the inner and outer screw threaded through the purification tank, each formed by forming a flange in close contact with the inner and outer surfaces of the purification tank.

In addition, the horizontal end of the drain pipe is made by coupling a pump.

According to the purification device for a purification tank of the present invention, as the protein, phosphorus and nitrogen are removed from the water discharged by each functional material constituting the functional substance mixture therein, and various kinds of nutrients are supplied, the discharged water quality is further increased. A very useful effect is achieved that is improved.

A preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view showing the installation state of the purification apparatus for a purification tank to which the present invention is applied, Figure 2 is a cross-sectional view showing the main portion of the purification apparatus for a purification tank to which the present invention is applied, Figure 3 is a purification for a purification tank to which the present invention is applied 4 is an exploded perspective view showing another essential part of the purification apparatus for a purification tank to which the present invention is applied, and FIG. 5 is a functional diagram showing a purification tank for the purification tank to which the present invention is applied.

1 to 5, the purification apparatus for the purification tank of the present invention is largely filled in the housing 200a, 200b and the housing coupled to the drain pipe 100 and the lower side of the drain pipe coupled to the purification tank. Functional material mixture (300a, 300b, 300c, 300d, 300e) and the loss prevention plate 400 is installed above the functional material mixture.

Thus, the drain pipe 100 is coupled to penetrate through the purification tank 10 to the intermediate portion of the vertical portion 120 and the vertical portion 120 to allow the inflow of water through the upper side and the inlet through the lower side. It consists of the horizontal parts 140a and 140b. That is, as shown in FIG. 5, in the state where the proper water level is maintained in the purification tank 10, the purified water is discharged to the horizontal parts 140a and 140b through the lower side of the vertical part 120, and the purification is performed. When more water is filled in the discharge tank of the tank than the proper level, rapid discharge is made through the horizontal parts 140a and 140b through the upper side of the vertical part 120. Of course, the pores of the inlet 220 of the housings 200a and 200b coupled to the lower part of the vertical part 120 or the functional materials filled therein may be formed by a crack or the like. Even when the water is not blocked, the filling water is discharged through the upper side of the vertical part 120, thereby preventing backflow inside the purification tank 10.

At this time, the lower side of the vertical portion 120 to be coupled to the housing 200a, a male screw is formed on the outer surface to be fastened through the upper fastening member 500b described above as a preferred embodiment. On the other hand, the horizontal portion (140a, 140b) is partitioned into the inner and outer threaded fastening through the purification tank 10, each of which forms a flange in close contact with the inner and outer surfaces of the purification tank. That is, at the end of the inner horizontal portion 140a to form a male screw or a female screw, and at the end of the outer horizontal portion 140b to form a female screw or a male screw to be fastened to each other through a purification tank. When the fastening (140a, 140b) is formed to form a structure in which the flange is supported in close contact with the inner and outer surfaces of the purification tank (10).

The housings 200a and 200b are configured to have a cylindrical shape having a receiving space therein while being fixed to the lower portion of the vertical portion 120 of the drain pipe 100 coupled to the purification tank 10. At this time, the cylindrical housing (200a, 200b) is partitioned into the upper side and the lower side to be coupled and separated, the bottom surface to form a plurality of inlets 220 in the form of a network so that water is introduced, the upper side the drain pipe The outlet 240 is formed to allow the first inlet water to be discharged while allowing the vertical portion 120 to be fastened to the vertical portion 120.

At this time, the outer surface of the outlet 240 of the housing 200a forms a male screw for screwing the lower fastening member 500a described above.

The functional material mixtures 300a, 300b, 300c, 300d, and 300e are composed of various functional materials for decomposing proteins and phosphorus and nitrogen from water introduced into the housings 200a and 200b and for supplying nutrients. . At this time, as a preferred embodiment of the functional material mixture (300a, 300b, 300c, 300d, 300e) from the lower layer Bioball (300a: Bioball), coral stone (300b: Corallite), zeolite (300c: Zeolite), bioceramic (300d) : Bioceramics), charcoal (300e: Charcoal) is formed by sequentially stacking, each functional material is formed in a plurality of granules so as not to be washed away with water while being easily drained.

Thus, the bioball (300a: bioball) and bioceramics (300d: Bioceramics) is an inorganic non-metallic material rich in calcium and phosphate, such calcium and phosphate is easily dissolved and supplied in the drained water, far infrared rays As it is released, water is converted into biologically active water by active energy.

In addition, zeolite (300c: Zeolite) is a generic term for minerals that are aluminum silicate hydrates of alkali and alkaline earth metals, sometimes referred to as zeolite. Such zeolite 160c has a number of minute pores, and has ion exchange properties and acid increase ability. Therefore, it is widely used as a deodorant, water purification agent, marine pollution prevention agent and wastewater treatment agent such as animal back in the concentrated water industry, and is also widely used for ion exchange of Ca2 + and Mg2 + in hard water to Na + in the softener.

The coral stone (300b: Corallite) and char (300e: Charcoal) is rich in pores, so it is excellent in the removal and removal of foreign substances or proteins, phosphorus and nitrogen from the water introduced. Coral stones, in particular, are rich in calcium, providing enough calcium in the incoming water.

Therefore, the removal of protein and foreign substances in the water introduced through the action of each functional material is made smoothly, as well as nutrients such as calcium and the supply of active energy is excellent, the water quality is excellent.

The loss prevention plate 400 is formed in a mesh shape so as to be installed above the housings 200a and 200b in a state of pressing and fixing the functional material mixtures 300a, 300b, 300c, 300d and 300e. That is, the loss prevention plate 400 is to prevent the discharge of the functional material stacked at the same time with the water through the drain pipe 100 while making a smooth flow of water. At this time, the loss prevention plate 400 is preferably fixed to the position by the lower side of the upper housing 200a coupled to the lower housing 200b.

The upper and lower fastening members 500a and 500b each have an annular locking jaw 520 and a fixing jaw 540 that are hooked to and fixed to the lower end and the upper end, respectively, in a cylindrical shape having a different diameter.

That is, the lower fastening member 500a has an annular locking jaw 520 formed at an upper end thereof with a female screw formed on an inner surface of the lower fastening member 500a so as to be screwed to an outer surface of the outlet 240 of the housing 200a. The member 500b is formed in a large diameter so as to insert the lower fastening member from the upper side, and the vertical portion of the discharge pipe 100 in a state in which an annular fixing jaw 540 is formed so that the locking jaw 520 is caught and fixed to the lower end thereof. (120) It is made by forming a female screw on the inner surface to be screwed to the lower outer surface.

Therefore, even if the housings 200a and 200b are not directly rotated through the upper and lower fastening members 500a and 500b, the drain pipe 100 and the outlet 240 of the housings 200a and 200b can be coupled to each other.

In addition, the end of the horizontal portion (140a, 140b) of the drain pipe 100 is coupled to the pump 600. At this time, the pump 600 forcibly sucks water passing through the housings 200a and 200b and the functional material mixtures 300a, 300b, 300c, 300d and 300e to allow for faster purification and discharge.

As described above, the present invention has been described with reference to the embodiments shown in the drawings, but this is merely exemplary, and those skilled in the art may understand that various modifications and equivalent other embodiments are possible therefrom. will be. Therefore, the true technical protection scope of the present invention should be defined by the technical spirit of the appended claims.

1 is a cross-sectional view showing an installation state of a purification apparatus for a purification tank to which the present invention is applied.

Figure 2 is a sectional view showing the main part of the purification device for a purification tank to which the present invention is applied.

Figure 3 is an exploded perspective view of a main part of the purification device for a purification tank to which the present invention is applied.

Figure 4 is an exploded perspective view of another main portion of the purification device for a purification tank to which the present invention is applied.

Figure 5 is a functional diagram showing a purification device for a purification tank to which the present invention is applied.

<Brief description of symbols for the main parts of the drawings>

10: purification tank

100: drain pipe 120: vertical portion

140a, 140b: horizontal section

200a, 200b: housing 220: inlet

240: outlet

300a: Bioball 300b: Corallite

300c: Zeolite 300d: Bioceramics

300e: Charcoal

400: Loss Prevention Plate

500a, 500b: upper and lower fastening members 520: locking jaw

540: jaw 600: pump

Claims (5)

A drain pipe having a horizontal portion coupled through the purification tank at an intermediate point of the vertical portion in which the immersion is introduced through the upper side and the purified water is introduced through the lower side; A housing having a discharge port fastened to a lower side of the drain pipe at a center of an upper end of a cylindrical shape, and having a plurality of inlets in a net shape at a lower side thereof; A functional material mixture for decomposing proteins and supplying nutrients from water introduced by being stacked in the housing; And a loss prevention plate formed in a mesh shape to be installed on the upper side of the housing while pressing and fixing the functional material mixture. Purification tank for purification, characterized in that consisting of. The purifying tank according to claim 1, wherein the functional material mixture is formed by stacking bioballs, corallites, zeolites, bioceramics, and charcoal. Device. The lower fastening member according to claim 1 or 2, further comprising: a lower fastening member having an annular locking jaw formed at an upper end thereof while being screwed to an outer surface of the outlet of the housing; And an upper fastening member screwed to a lower outer surface of the vertical part of the discharge pipe in a state where an annular fixing jaw is formed so that the lower locking member is inserted from the upper side and the locking jaw is fixed to the lower end thereof. Purification tank for purification characterized in that. According to claim 1 or claim 2, wherein the horizontal portion is divided into the inner and outer threaded through the purification tank, each of which is formed by forming a flange in close contact with the inner and outer surfaces of the purification tank Purifier for Purification Tank. The purifying tank according to claim 1 or 2, wherein a pump is connected to the horizontal end of the drain pipe.

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