WO2020261883A1 - Filtration device for water treatment - Google Patents
Filtration device for water treatment Download PDFInfo
- Publication number
- WO2020261883A1 WO2020261883A1 PCT/JP2020/021564 JP2020021564W WO2020261883A1 WO 2020261883 A1 WO2020261883 A1 WO 2020261883A1 JP 2020021564 W JP2020021564 W JP 2020021564W WO 2020261883 A1 WO2020261883 A1 WO 2020261883A1
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- WO
- WIPO (PCT)
- Prior art keywords
- water treatment
- filter medium
- filtration
- water
- fiber filter
- Prior art date
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D24/00—Filters comprising loose filtering material, i.e. filtering material without any binder between the individual particles or fibres thereof
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D39/00—Filtering material for liquid or gaseous fluids
- B01D39/02—Loose filtering material, e.g. loose fibres
- B01D39/04—Organic material, e.g. cellulose, cotton
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
Definitions
- This disclosure relates to a filtration device for water treatment.
- Patent Document 1 Conventionally known is a water treatment filtration device that purifies the water to be treated using a filtration filter.
- a filtration device for water treatment of this type the one disclosed in Patent Document 1 has been proposed.
- Patent Document 1 a cartridge type filtration filter is used, and when the purification ability of the filtration filter is lowered due to clogging or the like, it can be replaced with a new filtration filter.
- the purification capacity of the water treatment filtration device is suppressed from being lowered by periodically replacing the filtration filter.
- Patent Document 2 a filtration device for water treatment disclosed in Patent Document 2 has also been proposed.
- Patent Document 2 by reusing the filtration filter, it is possible to suppress an increase in running cost when the water treatment filtration device is used for a long period of time.
- the conventional filtration device for water treatment could not suppress the increase in running cost during long-term use while simplifying the configuration.
- An object of the present disclosure is to provide a water treatment filtration device capable of suppressing an increase in running cost while simplifying the configuration.
- the water treatment filtration device is provided with a filtration container portion through which the water to be treated can pass and the inside of the filtration container portion to allow the water to be treated. It is provided with a filtration unit for filtering. Further, the water treatment filtration device is arranged in the filtration unit, and the fiber filter medium which can be taken in and out of the inside of the filtration container unit and the fiber filter medium arranged in the filtration unit are pressed in a compressed state. It is provided with a member.
- the filtration container portion has a container body portion formed with an opening through which the holding member can be taken in and out, and a lid portion that opens and closes the opening. Further, the area of the opening is smaller than the area of the filtration portion, and the pressing member is displaced so as to be able to be taken in and out of the opening.
- FIG. 1A is a perspective view schematically showing a state in which the pressing member according to the present embodiment is deployed.
- FIG. 3C is a perspective view schematically showing a folded state of the pressing member according to the present embodiment.
- A) is a perspective view schematically showing a state in which the holding member according to the first modification of the present embodiment is deployed.
- B) is a perspective view schematically showing a state in which the pressing member according to the first modification of the present embodiment is being folded.
- C) is a perspective view schematically showing a folded state of the pressing member according to the first modification of the present embodiment. It is sectional drawing which shows schematicly about the filtration apparatus for water treatment which concerns on 1st modification of this embodiment.
- FIG. 1 is a perspective view schematically showing a holding member according to a second modification of this embodiment.
- (B) is a perspective view schematically showing a state in which a holding member according to a second modification of the present embodiment is curved. It is sectional drawing which shows typically the deformation example of the locked state between a holding member and a locking portion. It is a schematic diagram for demonstrating the water treatment system provided with the water treatment filtration apparatus which concerns on this Embodiment and the modified example.
- the water treatment filtration device 10 includes a fiber filter medium 3 in which a plurality of fibers 2 are aggregated. Then, in the water treatment filtration device 10 of the present embodiment, the water treatment filter medium 1 including the fiber filter medium 3 is used.
- the water treatment filter medium 1 of the present embodiment includes a fiber filter medium 3 in which a plurality of fibers 2 are aggregated.
- the fiber filter medium 3 is a fiber structure made of a woven fabric or a non-woven fabric, and is formed in a flexible sheet shape as shown in FIG.
- the fiber filter medium 3 has a large number of pores 4 through which water to be treated can pass.
- the fiber filter medium 3 may be a fiber structure in which a plurality of woven fabrics and / or non-woven fabrics are laminated.
- the fiber filter medium 3 is preferably a non-woven fabric from the viewpoint of efficiently capturing the insoluble components in the water to be treated while suppressing the pressure loss.
- the material of the fiber 2 constituting the fiber filter medium 3 is not particularly limited, and for example, a material having high durability against water and chemicals can be used.
- a material having high durability against water and chemicals can be used.
- the material of the fiber 2 at least one of the olefin resin fiber and the polyester resin fiber can be used.
- the material of the fiber 2 at least one selected from the group consisting of polyethylene (PE), polypropylene (PP), polyethylene terephthalate (PET) and polybutylene terephthalate can be used.
- the material of the fiber 2 at least one selected from the group consisting of cellulose, acrylic resin and polyamide can be used.
- the fiber filter medium 3 By using such an inexpensive fiber material as the fiber filter medium 3, a low-cost water treatment filter medium 1 can be realized. Further, the fiber filter medium 3 made of the above material has excellent flexibility. Therefore, unlike a general disposable cartridge filter, the water treatment filter medium 1 can be easily removed by hand washing or washing with a washing machine after use. As a result, the water treatment filter medium 1 can be reused many times. Further, the water treatment filter medium 1 is excellent in durability because it can be used continuously without any problem even if a part of the fiber filter medium 3 is damaged by repeated washing.
- the average value of the fiber diameters of the fibers 2 constituting the fiber filter medium 3 is preferably 0.1 ⁇ m to 10 ⁇ m.
- the basis weight of the fiber filter medium 3 is preferably 10 g / m 2 or more.
- the thickness of the fiber filter medium 3 is not particularly limited, and may be various thicknesses.
- a sheet-shaped fiber filter medium 3 having a thickness similar to that of chili paper or tissue can be used.
- the thickness of the sheet-shaped fiber filter medium 3 is preferably such that dirt adhering to the inside of the fiber filter medium 3 can be easily removed.
- the fiber filter medium 3 a fiber structure having pleats (folds) on the entire surface may be used. Having pleats makes it possible to enhance the effect of removing insoluble components in the water to be treated. That is, the larger the surface area of the fiber filter medium 3 with respect to the cross-sectional area through which the water to be treated passes in the filtration container portion described later, the larger the area for filtering the insoluble component, and the purification performance is improved. Therefore, by providing pleats on the fiber filter medium 3 to increase the area for filtering the insoluble components, it is possible to improve the collection performance of the insoluble components.
- the method of forming the pleats on the fiber filter medium 3 is not particularly limited, but the pleats can be formed, for example, by repeatedly folding the fiber structure.
- the water treatment filter medium 1 carries a cationic flocculant on the surface of the fibers 2 constituting the fiber filter medium 3.
- the fine particles of the insoluble component in the water to be treated are usually negatively charged and float in the water to be treated while electrically repelling each other. Then, when the fine particles in the water to be treated come into contact with the cationic flocculant, the fine particles are electrically neutralized, so that the fine particles can bind to each other and aggregate. Further, since the fine particles of the insoluble component in the water to be treated are negatively charged, they are electrostatically adsorbed to the cationic flocculant.
- the cationic flocculant is not particularly limited as long as it can electrically neutralize fine particles of insoluble components in the water to be treated.
- the cationic flocculant is preferably a flocculant composed of at least one of an inorganic material and a natural organic polymer material.
- the cationic flocculant composed of an inorganic material is at least one selected from the group consisting of polyaluminum chloride, band sulfate (aluminum sulfate), ferric sulfate, ferrous sulfate, polysilica iron, ferric chloride and slaked lime. Is preferable.
- the flocculant made of a natural organic polymer material is preferably chitosan.
- the water treatment filter medium 1 carries an anionic surfactant in addition to the cationic flocculant on the surface of the fibers 2 constituting the fiber filter medium 3.
- an anionic surfactant is adhered to the surface of the fiber filter medium 3, the surface of the fiber 2 is negatively charged, and then the surface of the fiber 2 is brought into contact with the cationic flocculant to cause cationic aggregation.
- the agent is supported on the surface of the fiber 2.
- the fiber filter medium 3 when the fiber filter medium 3 is brought into direct contact with the cationic flocculant, when the surface of the fiber 2 is positively charged, the surface of the fiber 2 and the cationic flocculant repel each other, and the surface of the fiber 2 is repelled. It becomes difficult for the cationic flocculant to be supported on the fiber.
- the anionic surfactant on the surface of the fiber filter medium 3 in advance, the surface of the fiber 2 is negatively charged.
- the cationic flocculant is easily adsorbed on the surface of the fiber filter medium 3.
- the cationic flocculant can be efficiently supported on the surface of the fiber filter medium 3. Further, in the fiber filter medium 3, the cationic flocculant is supported via an anionic surfactant, and the anionic surfactant exerts an anchor effect between the surface of the fiber 2 and the cationic flocculant. Therefore, the cationic flocculant can be stably retained on the surface of the fiber 2 for a long period of time.
- the anionic surfactant is not particularly limited as long as it can exhibit the above effects, but for example, at least one selected from the group consisting of a carboxylic acid type, a sulfonic acid type, a sulfate ester type, and a phosphoric acid ester type should be used. Can be done.
- the carboxylic acid type anionic surfactant shall be at least one selected from the group consisting of aliphatic monocarboxylic acid salts, polyoxyethylene alkyl ether carboxylates, N-acyl sarcosin salts, and N-acyl glutamates. Is preferable.
- Sulfonic acid type anionic surfactants are dialkyl sulfosulfates, alkane sulfonates, alpha olefin sulfonates, linear alkyl benzene sulfonates, alkyl (branched chain) benzene sulfonates, naphthalene sulfonates-formaldehyde. It is preferably at least one selected from the group consisting of condensates, alkylnaphthalene sulfonates, and N-methyl-N-acyltaurine salts.
- the sulfate ester type anionic surfactant is preferably at least one selected from the group consisting of alkyl sulfates, polyoxyethylene alkyl ether sulfates, and fat and oil sulfates.
- the phosphoric acid ester type anionic surfactant is preferably at least one selected from the group consisting of alkyl phosphates, polyoxyethylene alkyl ether phosphates, and polyoxyethylene alkyl phenyl ether phosphates.
- the water treatment filter medium 1 is held and used inside the filtration container portion. At this time, the water treatment filter medium 1 may be held inside the filtration container portion in a state of being irregularly folded and laminated. Further, the water treatment filter medium 1 may be held inside the filtration container portion in a state of wrinkling or losing its shape due to being squeezed or rolled, that is, in a so-called crumpled state.
- the water treatment filter medium 1 wrapped in the net 5 is held inside the filtration container portion. You may.
- a plurality of sheet-shaped filter media 1 for water treatment are randomly put into the hollow net 5 having a substantially cylindrical shape.
- the plurality of sheets of the water treatment filter medium 1 are the water of at least one of the water treatment filter medium 1 in the folded and laminated state and the water treatment filter medium 1 in the so-called crumpled state. It is preferable to fill the net 5 so that the processing filter medium 1 is present.
- the columnar net 5 can have a size corresponding to the filtration portion of the filtration container portion described later.
- the columnar net 5 can be formed so that the size is slightly larger than that of the filtration portion of the filtration container portion. Then, when the net 5 filled with the water treatment filter medium 1 is arranged and held in the filtration portion, the water treatment filter medium 1 inside the net 5 is compressed by a predetermined amount in the radial direction and the axial direction of the net 5. It is possible to do so. By doing so, the water treatment filter medium 1 can be easily taken in and out of the filter container portion.
- the shape of the net 5 is not limited to a columnar shape, and various shapes can be used.
- the water to be treated and the cationic flocculant come into contact with each other.
- the insoluble component fine particles in the water to be treated are usually negatively charged, but the fine particles are electrically neutralized by contact with a cationic flocculant.
- the electrically neutralized fine particles tend to come close to each other, and the particles are bonded to each other by the van der Waals force.
- the insoluble component fine particles aggregate with each other.
- the negatively charged insoluble component fine particles are electrostatically adsorbed on the cationic flocculant supported on the surface of the fiber 2. Therefore, the fine particles of the insoluble component are captured on the surface of the fiber 2 in the water treatment filter medium 1 and separated from the water to be treated. In this way, the insoluble component can be removed by passing the water to be treated through the water treatment filter medium 1.
- the water treatment filter medium 1 of the present embodiment includes a cationic flocculant composed of at least one of an inorganic material and a natural organic polymer material, and an anionic surfactant.
- the water treatment filter medium 1 further includes a fiber filter medium 3 in which a plurality of fibers 2 are aggregated and both a cationic flocculant and an anionic surfactant are supported on the surface of each fiber 2. Since the water treatment filter medium 1 carries a cationic flocculant on the surface of each fiber 2 of the fiber filter medium 3, it electrostatically adsorbs fine particles of insoluble components in the water to be treated, and further aggregates the fine particles with each other. Let me.
- the fine particles of the insoluble component can be retained on the surface of each fiber 2 of the fiber filter medium 3. Therefore, the insoluble component can be separated and removed from the water to be treated by passing the water to be treated through the water treatment filter medium 1. Further, on the surface of the fiber filter medium 3, the cationic flocculant is supported via an anionic surfactant. Therefore, the cationic flocculant can be stably retained on the surface of the fiber filter medium 3 for a long period of time.
- the water treatment filter medium 1 uses the fiber filter medium 3 as the base material, it is possible to suppress the generation of mud balls and maintain the filtration performance in a high state for a long period of time.
- the cationic flocculant made of an inorganic material is preferably polyaluminum chloride, and the cationic flocculant made of a natural organic polymer material is preferably chitosan.
- these materials tend to electrostatically adsorb fine particles of insoluble components in the water to be treated, and further tend to agglomerate the fine particles with each other. Therefore, by using these materials as the cationic flocculant, it is possible to further improve the filtration performance of the water treatment filter medium 1.
- the fiber filter medium 3 is preferably made of a material that can be washed with water. That is, the fiber filter medium 3 is preferably made of a material that is not damaged even when washed with water.
- the water treatment filter medium 1 can be taken out from the filtration container and washed with water. Then, by adding chemicals (cationic flocculant and anionic surfactant) at the time of washing, the consumed chemicals can be supplied each time. Therefore, the water treatment filter medium 1 can maintain high filtration performance for a long period of time. Further, since such a water treatment filter medium 1 can be regularly washed with a strong force, for example, by hand washing or washing using a washing machine, the generation of mud balls is suppressed and high filtration performance is achieved. Can be sustained.
- the fiber filter medium 3 itself, which is a collection of a plurality of fibers 2, is used as the water treatment filter medium 1, and the water treatment filter medium 1, that is, the fiber filter medium 3 is put into the inside of the filtration container and held.
- the water to be treated may be filtered.
- water treatment filter medium 1 and / or the fiber filter medium 3 does not need to be formed in a sheet shape, and can be formed into various shapes.
- the columnar water treatment filter medium 1 and the like can have a size corresponding to the filtration portion of the filtration container portion described later.
- a columnar water treatment filter medium 1 or the like is formed so as to have a size slightly larger than the filtration portion of the filtration container portion, and the water treatment filter medium 1 or the like is arranged and held in the filtration portion.
- the fiber filtration portion by using a plurality of columnar water treatment filter media 1 and the like whose size is smaller than that of the filtration portion of the filtration container portion. Further, the columnar water treatment filter medium 1 and the like may be wrapped in the net 5.
- FIG. 4 shows a thick, lumpy (lumpy) water treatment filter medium 1 and the like. Then, in FIG. 4, the thick block of water treatment filter medium 1 and the like are arranged inside the substantially columnar net 5 in a state of being rolled into a spiral shape.
- the water treatment filter medium 1 and the like may include at least one of a sheet-shaped water treatment filter medium 1 and the like and a lumpy water treatment filter medium 1 and the like. That is, when a plurality of water treatment filter media 1 and the like are held inside the filtration container portion, the water treatment filter media 1 and the like having different shapes may be mixed.
- the water treatment filtration device 10 is formed so as to be elongated in the vertical direction (vertical direction) while being placed on a floor, a pedestal, or the like. Then, the water to be treated is filtered by passing the water to be treated from above to below in the water treatment filtration device 10. Therefore, in the present embodiment, the direction from the upper side to the lower side in the vertical direction is the water flow direction of the water treatment filtration device 10.
- the water flow direction of the water treatment filtration device 10 may intersect with the vertical direction. Further, the water treatment filtration device 10 may be curved or the like so that a curved water passage path is formed in the water treatment filtration device 10. In this case, the direction along the curved water flow path is the water flow direction of the water treatment filtration device 10.
- the water treatment filter device 10 has a filter container portion 11 through which water to be treated can pass and a filter medium for water treatment that can be taken in and out of the filter container portion 11. It has 1st grade and. Further, a filtration unit 15 for filtering the water to be treated is provided inside the filtration container unit 11, and a water treatment filter medium 1 or the like is arranged in the filtration unit 15.
- the water treatment filter medium 1 and the like arranged in the filtration unit 15 are pressed by the pressing member 14. That is, the water treatment filter medium 1 and the like are arranged in the filtration unit 15 in a state of being compressed by the pressing member 14.
- the filtration container portion 11 includes a container main body portion 12 and a lid portion 13, so that a space is formed inside the filtration container portion 11 by the container main body portion 12 and the lid portion 13. I have to.
- the container main body portion 12 has a substantially disk-shaped bottom wall portion 121 and a substantially cylindrical peripheral wall portion 122 connected to the outer peripheral edge of the bottom wall portion 121.
- the peripheral wall portion 122 is formed so as to rise upward from the outer peripheral edge of the bottom wall portion 121, and has a large diameter portion 123 having substantially the same diameter from the lower end to the upper end and a large diameter portion 123 having substantially the same diameter from the lower end to the upper end. It is provided with a small diameter portion 124 having a diameter smaller than 123. Then, the upper end of the small diameter portion 124 is opened upward.
- the peripheral wall portion 122 includes a continuous portion 125 in which a large diameter portion 123 and a small diameter portion 124 are continuously provided.
- the continuous portion 125 has a curved shape so as to be convex upward and outward, and is smoothly connected to the large diameter portion 123 and the small diameter portion 124. By doing so, the inner surface of the peripheral wall portion 122 is formed with a smooth curved surface.
- the container main body 12 has a substantially cylindrical wall portion (large diameter portion 123) extending in the vertical direction (water flow direction of the water to be treated), and the container main body An opening 124a opened toward the upstream side is formed in the portion 12.
- the filtration portion 15 is formed in the large diameter portion 123. Therefore, in the present embodiment, the area of the opening 124a is smaller than the area of the filtration portion 15. Further, in the present embodiment, the water treatment filter medium 1 and the like can be taken in and out and the pressing member 14 can be taken in and out from the opening 124a.
- the diameter of the opening 124a is preferably set so as to be larger than a size that allows a human hand to be inserted. By doing so, the holding member 14 can be smoothly taken in and out and fixed by a human hand.
- the container main body 12 is formed with a locking portion 126 for locking the pressing member 14 introduced inside the container main body 12. Then, by locking the locked portion 14b of the pressing member 14 to the locking portion 126 so as to be releasable, the pressing member 14 that presses the water treatment filter medium 1 or the like arranged in the filtering portion 15 in a compressed state. Is fixed to the container body 12.
- two substantially disk-shaped pressing members 14 are detachably provided on the container body 12. Specifically, of the two pressing members 14, the pressing member 14 fixed to the upper side (upstream side) of the container body portion 12 is the upstream side fixing plate 14A, and the lower side (downstream side) of the container body portion 12 is used.
- the pressing member 14 fixed to is a downstream side fixing plate 14B.
- the upstream side protrusion as an upstream side locking portion for locking the upstream side fixing plate (holding member arranged on the upstream side of the fiber filter medium 3) 14A.
- a portion 126a is provided.
- a downstream side fixing plate (holding member arranged on the downstream side of the fiber filter medium 3) 14B is locked on the downstream side of the upstream side protrusion 126a on the inner surface of the large diameter portion 123 of the container main body portion 12.
- a downstream side protrusion 126b is provided as a downstream side locking part.
- the upstream side protrusion 126a is formed so as to project from the inner surface of the large diameter portion 123 toward the inside (central axis side), and extends so as to be elongated in a substantially horizontal direction.
- the four upstream protrusions 126a are formed substantially evenly along the circumferential direction.
- downstream side protrusion 126b is also formed so as to project from the inner surface of the large diameter portion 123 toward the inside (central axis side), and extends so as to be elongated in the substantially horizontal direction.
- the four downstream protrusions 126b are formed substantially evenly along the circumferential direction.
- downstream side fixing plate 14B moves downward (downstream side). Is detachably provided on the container body 12 in a regulated state.
- the upstream side fixing plate 14A moves upward (upstream side) by abutting (releasably locking) the locked portion 14b of the upstream side fixing plate 14A on the lower surface of the upstream side protrusion 126a. Is detachably provided on the container body 12 in a regulated state.
- the contact of the locked portion 14b of the upstream fixing plate 14A with the lower surface of the upstream protruding portion 126a is performed by the restoring force of the water treatment filter medium 1 or the like compressed by the pressing by the upstream fixing plate 14A. .. That is, in the present embodiment, the water treatment filter medium 1 and the like are interposed between the upstream fixing plate 14A and the downstream fixing plate 14B in a compressed state.
- the two pressing members 14 are arranged so as to be separated from each other in the water flow direction of the water treatment filtration device 10, and water is separated between the two pressing members 14 which are separated from each other.
- a processing filter medium 1 or the like is interposed. That is, water treatment is performed between the upstream fixing plate 14A fixed to the upper side (upstream side) of the container main body 12 and the downstream fixing plate 14B fixed to the lower side (downstream side) of the container main body 12.
- the filtration unit 15 on which the filter medium including the filter medium 1 and the like is arranged is formed.
- the portion of the filtration unit 15 where the water treatment filter medium 1 and the like are arranged is the fiber filtration unit 151.
- the fiber filtration unit 151 is filled with one or more water treatment filter media 1 and the like. In this embodiment, the entire filtration unit 15 is illustrated as the fiber filtration unit 151.
- a part of the filtration unit 15 becomes the fiber filtration unit 151.
- an activated carbon layer in which activated carbon is arranged is formed on the downstream side of the filtration unit 15, and a fiber filtration unit 151 in which a water treatment filter medium 1 or the like is arranged is formed on the upstream side of the activated carbon layer.
- a fiber filtration unit 151 in which a water treatment filter medium 1 or the like is arranged is formed on the upstream side of the activated carbon layer.
- the lid portion 13 is detachably attached to the container main body portion 12 so as to close the opening 124a at the upper end of the container main body portion 12.
- the lid portion 13 has a substantially disk-shaped upper wall portion 131 and a peripheral wall portion 132 that hangs down from the outer peripheral end of the upper wall portion 131 and is one size larger than the small diameter portion 124 of the container main body portion 12.
- the filtration container portion 11 may have any shape as long as it can form a space inside.
- the upper wall portion 131 of the lid portion 13 is provided with an introduction hole 131a for introducing the water to be treated into the inside of the filtration container portion 11. Further, the bottom wall portion 121 of the container main body portion 12 is provided with a lead-out hole 121a for leading out the water to be treated (treated water: filtered water) that has passed through the filtration portion 15 to the outside of the filtration container portion 11. ..
- the introduction hole 131a for introducing the water to be treated is formed on the upstream side of the upstream side protrusion (upstream side locking portion) 126a in the filtration container portion 11.
- a plate member having holes 14a provided substantially uniformly on the entire surface can be used.
- a plate member for example, a punching plate can be used.
- a non-woven fabric having high strength can also be used.
- the pressing member 14 arranged so as to cover the upper surface and the lower surface of the filtration unit 15 can be taken in and out through the opening 124a having a smaller area than the filtration unit 15.
- the pressing member 14 can be reversibly displaced from a state in which the upper surface and the lower surface of the filtration unit 15 can be covered to a state in which the pressing member 14 can be taken in and out from the opening 124a. Then, the pressing member 14 is displaced to a state where it can be taken in and out of the opening 124a so that it can be taken in and out of the opening 124a.
- the pressing member 14 includes a divided body 141 divided into a plurality of parts.
- the pressing member 14 can be unfolded or folded by relatively moving the plurality of divided bodies 141.
- the pressing member 14 includes two semicircular divided bodies 141. Then, the two divided bodies 141 are connected by a hinge 142 at a straight line portion. At this time, the two divided bodies 141 are connected by a hinge 142 so that one divided body 141 can be relatively moved between 0 ° and 180 ° with respect to the other divided body 14. By doing so, it is possible to reversibly displace between the unfolded state which is substantially a disk shape in a plan view and the folded state which is a substantially semicircular shape in a plan view.
- the upstream side fixing plate 14A and the downstream side fixing plate 14B have substantially the same shape. That is, using the pressing member 14 having a common structure, the pressing member 14 arranged on the downstream side is the downstream fixing plate 14B, and the pressing member 14 arranged on the upstream side is the upstream fixing plate 14A.
- the shape of the pressing member 14 By making the shape of the pressing member 14 such a shape, the upper surface of the water treatment filter medium 1 or the like arranged in the filtering portion 15 by the pressing member 14 inserted from the opening 124a having an area smaller than that of the filtering portion 15. And almost the entire surface of the lower surface is pressed.
- the pressing member 14 and the water treatment filter medium 1 and the like are introduced into the container main body 12 as follows.
- the following method is only an example, and other methods can be used.
- one (one) pressing member 14 is introduced into the container main body 12 in a state of being folded into a semicircle. Then, the pressing member 14 introduced into the container main body portion 12 is developed so as to have a substantially disk shape on the downstream side of the upstream side protrusion 126a and on the upstream side of the downstream side protrusion 126b. Then, in a state of being deployed so as to have a substantially disk shape, the locked portion 14b on the outer peripheral side is placed on the upper surface of the downstream protruding portion 126b (locked so that it can be released), so that the downstream fixing plate 14B However, the container body 12 is detachably provided.
- the water treatment filter medium 1 and the like are introduced into the container main body portion 12 and placed on the pressing member 14 (downstream side fixing plate 14B) placed on the upper surface of the downstream side protrusion 126b.
- the water treatment filter medium 1 or the like arranged on the pressing member 14 the ones shown in FIGS. 1 to 4 can be used.
- the water treatment filter medium 1 and the like can be arranged on the pressing member 14 (downstream side fixing plate 14B) in a folded and laminated state or in a so-called crumpled state.
- the other pressing member 14 is folded into a semicircle and introduced into the container body 12. After that, the pressing member 14 introduced into the container main body 12 is opened in a half-open state so that the downstream side is separated, and the pressing member 14 is moved downward in this state.
- the holding member 14 in the half-opened state is developed so as to have a substantially disk shape while pressing the water treatment filter medium 1 or the like arranged on the downstream fixing plate 14B.
- the locked portion 14b on the outer peripheral side faces the lower surface of the upstream protruding portion 126a in a state of being unfolded so as to have a substantially disk shape.
- the pressing member 14 moves upward (upstream side) due to the restoring force of the compressed water treatment filter medium 1 or the like, and the locked portion 14b collides with the upstream side. It abuts (locks releasably) on the lower surface of the portion 126a.
- the upstream fixing plate 14A is detachably provided on the container main body 12.
- the water treatment filter medium 1 and the like arranged in the filtration unit 15 are compressed in a folded and laminated state or in a crumpled state.
- the crushed pores 4 of the water treatment filter medium 1 and the like are formed in the entire filtration section 15 (fiber filtration section 151) so that the water treatment filter medium 1 and the like can be used three-dimensionally. become.
- the filtration unit 15 may be formed by a water treatment filter medium 1 or the like wrapped in a net 5.
- the water treatment filter medium 1 and the like become denser as they are compressed, and minute insoluble components in the water to be treated, for example, micron-order insoluble components can be removed.
- the following may be performed. That is, a larger amount of the filter medium 1 for water treatment is arranged between the upstream side fixing plate 14A and the downstream side fixing plate 14B, and is compressed by the upstream side fixing plate 14A and the downstream side fixing plate 14B.
- the filtration unit 15 fiber filtration unit 151 having the filtration performance of the above may be used.
- the water treatment filter medium 1 and the like are used three-dimensionally, so that it is possible to perform filtration with higher performance than the sand filter medium.
- the filtration unit 15 having the desired filtration performance (fiber filtration unit 151). ) Can be.
- the upstream side protrusions 126a for locking the upstream side fixing plate 14A may be provided at a plurality of locations in a state of being separated along the vertical direction (water flow direction of the water treatment filtration device 10). By doing so, even when the same amount of the water treatment filter medium 1 or the like is used, the water treatment filter medium 1 or the like is compressed according to the position of the upstream side protrusion 126a that locks the upstream side fixing plate 14A. The amount can be changed step by step.
- the pressing member 14 shown in FIG. 7 is formed by using three or more (8 members in FIG. 7) divided bodies 141 having a substantially fan shape in a plan view. Specifically, the tips of the eight fan-shaped split bodies 141 are connected to the shaft portion 143, and each split body 141 is slid in the circumferential direction with respect to the other split bodies to be unfolded or folded. I am trying to be able to hang out.
- the pressing member 14 shown in FIG. 7 includes a divided body 141 divided into a plurality of parts.
- the pressing member 14 shown in FIG. 7 can be unfolded or folded by relatively moving the plurality of divided bodies 141.
- the water treatment filtration device 10 shown in FIG. 8 basically has substantially the same configuration as the water treatment filtration device 10 shown in FIG.
- the introduction hole 124b for introducing the water to be treated into the inside of the filtration container portion 11 is not the upper wall portion 131 of the lid portion 13, but the peripheral wall portion 122. It is provided on the upper part (small diameter portion 124).
- the introduction hole 124b is also formed on the upstream side of the upstream side protrusion (upstream side locking portion) 126a in the filtration container portion 11.
- an upstream side fixing plate (holding member arranged on the upstream side of the fiber filter medium 3) 14A is engaged with the inner surface of the large diameter portion 123 of the container main body portion 12.
- An upstream side protrusion 126a is provided as an upstream side locking part to stop.
- a downstream side fixing plate (holding member arranged on the downstream side of the fiber filter medium 3) 14B is locked on the downstream side of the upstream side protrusion 126a on the inner surface of the large diameter portion 123 of the container main body portion 12.
- a downstream side protrusion 126b is provided as a downstream side locking part.
- the upstream side protrusion 126a is formed so as to project from the inner surface of the large diameter portion 123 toward the inside (central axis side), and is formed in a substantially horizontal direction. It is formed over the entire circumference so as to extend to.
- the downstream side protrusion 126b is also formed so as to project from the inner surface of the large diameter portion 123 toward the inside (central axis side), and is formed over the entire circumference so as to extend substantially in the horizontal direction. Has been done.
- the pressing member 14 (upstream side fixing plate 14A and downstream side fixing plate 14B) shown in FIG. 9 is made of an elastic material such as rubber, and can be flexed while elastically deforming the whole. There is.
- the pressing member 14 and the water treatment filter medium 1 and the like are introduced into the container main body 12 as follows.
- the following method is only an example, and other methods can be used.
- one (one) pressing member 14 is curved as shown in FIG. 9 (b) and introduced into the container main body 12.
- the pressing member 14 is deployed inside the container body 12, and the locked portion 14b on the outer peripheral side is placed (locked releasably) on the upper surface of the downstream protruding portion 126b, whereby the downstream fixing plate is fixed.
- 14B is detachably provided on the container main body 12.
- the pressing member 14 is strongly pushed downward to bend the pressing member 14. By doing so, the outer peripheral edge of the pressing member 14 gets over the upstream protruding portion 126a, and the pressing member 14 moves to the downstream side of the upstream protruding portion 126a. Then, if the locked portion 14b is further moved to the downstream side in the same state, the locked portion 14b is placed on the upper surface of the downstream side protrusion 126b.
- the pressing member 14 to be introduced first can be as follows after being introduced into the container main body 12. First, the pressing member 14 introduced into the container body 12 is developed so as to have a substantially disk shape on the downstream side of the upstream side protrusion 126a and on the upstream side of the downstream side protrusion 126b. Then, in a state of being deployed so as to have a substantially disk shape, the locked portion 14b on the outer peripheral side is placed on the upper surface of the downstream protruding portion 126b (locked so that it can be released), so that the downstream fixing plate 14B However, the container body 12 is detachably provided.
- the water treatment filter medium 1 and the like are introduced into the container main body portion 12 and placed on the pressing member 14 (downstream side fixing plate 14B) placed on the upper surface of the downstream side protrusion 126b.
- the water treatment filter medium 1 or the like arranged on the pressing member 14 the ones shown in FIGS. 1 to 4 can be used.
- the other pressing member 14 is curved as shown in FIG. 9B inside the container main body 12. Introduce and push strongly downward. By doing so, the other pressing member 14 is moved to the downstream side of the upstream side protrusion 126a so that the upstream side fixing plate 14A is detachably provided on the container main body portion 12.
- the water to be treated introduced into the inside of the filtration container portion 11 through the introduction hole 131a of the lid portion 13 and the introduction hole 124b of the small diameter portion 124 passes through the hole portion 14a of the upstream fixing plate 14A and is used as a water treatment filter medium 1.
- the water treatment filter medium 1 carries a cationic flocculant on the surface of each fiber 2 of the fiber filter medium 3, the fine particles of the insoluble component in the water to be treated are electrostatically adsorbed and the fine particles are aggregated with each other. Let me.
- the water to be treated that has passed through the water treatment filter medium 1 passes through the hole 14a of the downstream fixing plate 14B and is led out to the outside of the filtration container 11 through the lead-out hole 121a of the container body 12.
- the water treatment filtration device 10 of the present embodiment includes the water treatment filter medium 1 and the filtration container portion 11 that holds the water treatment filter medium 1 inside. Then, inside the filter container portion 11, the water treatment filter medium 1 is three-dimensionally (three-dimensionally) arranged by using the pressing member 14. Therefore, it is possible to suppress clogging of the water treatment filter medium 1 and maintain the filtration performance in a high state for a long period of time while performing filtration having higher performance than the sand filter medium.
- the water treatment filter medium 1 is held between the upstream side fixing plate 14A and the downstream side fixing plate 14B in a compressed state, so that the water treatment filter medium 1 is between the fibers 2 of the water treatment filter medium 1.
- the distance can be reduced. As a result, it is possible to improve the collection performance of the water treatment filter medium 1.
- the filtration container portion 11 includes a container main body portion 12 and a lid portion 13. Therefore, the water treatment filter medium 1 can be easily taken out by removing the upstream side fixing plate 14A after removing the lid portion 13 from the container main body portion 12. Then, since the water treatment filter medium 1 can be washed or replaced as needed, the maintenance and management of the water treatment filtration device 10 can be easily performed.
- the water treatment system 100 includes a main flow path 20.
- One end of the main flow path 20 reaches the treated water W, which is well water or tap water existing in the ground.
- the other end of the main flow path 20 is connected to the faucet 50.
- a pump P is connected upstream of the drug dissolving device 30 in the main flow path 20.
- the pump P pumps the water to be treated W along the main flow path 20.
- a pump P for example, an electric pump provided with an accumulator and a pressure switch can be used.
- the water W to be treated pumped up by the pump P is introduced into the drug dissolving device 30, and the drug dissolving device 30, for example, dissolves a certain amount of chlorine-based chemicals.
- a water treatment filtration device 10 and a chlorine removal tank 40 are connected downstream of the drug dissolving device 30 in the main flow path 20.
- the chlorine removing tank 40 removes excess chlorine contained in the water to be treated W.
- As the chlorine removal tank 40 a container filled with activated carbon particles is used.
- the chlorine removing tank 40 filled with activated carbon particles may be provided on the downstream side of the portion where the fiber filtration portion 151 is formed inside the water treatment filtration device 10.
- an aggregation promoting portion for promoting aggregation of fine particles of insoluble components contained in the water to be treated W is provided between the drug dissolving device 30 and the water treatment filtering device 10. It may be intervened.
- the aggregation promoting portion can be directly connected to the main flow path 20, and for example, the one described in Japanese Patent No. 6519934 can be used.
- a predetermined flow rate for example, about 6.3 L / min
- the pump P first operates to pump up the well water or tap water to be treated W existing in the ground.
- the pumped water W to be treated passes through the chemical dissolution device 30, and a chlorine-based chemical such as an aqueous solution of sodium hypochlorite is introduced.
- a chlorine-based chemical such as an aqueous solution of sodium hypochlorite
- a chlorine-based chemical for example, insoluble iron hydroxide (Fe (OH) 3 3) is formed before the iron ions in the water W to be treated become colloidal iron silicate. Become.
- the insoluble component of the water W to be treated in which the chlorine-based chemical is dissolved by passing through the chemical dissolving device 30, is removed by passing through the water treatment filtration device 10.
- the main flow path 20 is connected to the introduction hole 13c of the lid portion 13 and the outlet hole 12c of the container body portion 12 in the water treatment filtration device 10. Then, as described above, when the water to be treated W passes through the water treatment filter medium 1, the insoluble components in the water to be treated W are captured and removed.
- Excess chlorine is removed from the water W to be treated that has passed through the water treatment filtration device 10 by passing through the chlorine removal tank 40. Then, the water from which the foreign matter and the excess chlorine have been removed through the water treatment filtration device 10 and the chlorine removal tank 40 is supplied to the user from the faucet 50.
- the pumped water W to be treated passes through the chemical dissolution device 30, the water treatment filtration device 10, and the chlorine removal tank 40, so that insoluble components and excess chlorine are removed. Then, the water treatment filtration device 10 can separate the fine particles of the insoluble component in the water to be treated W with high efficiency, so that clean water can be stably provided to the user.
- the water treatment filtration device 10 includes a filtration container portion 11 through which the water to be treated can pass, and a filtration unit 15 provided inside the filtration container portion 11 for filtering the water to be treated. There is.
- the water treatment filtration device 10 is arranged in the filtration unit 15, and the fiber filter medium 3 that can be taken in and out of the filtration container unit 11 and the fiber filter medium 3 arranged in the filtration unit 15 are compressed.
- a pressing member 14 for pressing is provided.
- the filtration container portion 11 has a container main body portion 12 in which an opening 124a through which the pressing member 14 can be taken in and out is formed, and a lid portion 13 for opening and closing the opening 124a.
- the area of the opening 124a is smaller than the area of the filtration portion 15, and the pressing member 14 is displaced so that it can be taken in and out of the opening 124a.
- the water treatment filtration device 10 is configured so that the pressing member 14 and the fiber filter medium 3 can be taken in and out from the opening 124a of the container main body 12. Therefore, the fiber filter medium 3 can be easily taken out, and the fiber filter medium 3 can be washed more easily.
- the fiber filter medium 3 can be taken out from the container main body 12 and washed, it is not necessary to provide a mechanism such as backwashing in the water treatment filtration device 10, and the configuration can be simplified.
- the fiber filter medium 3 as a filtration filter, the fiber filter medium 3 can be used three-dimensionally (three-dimensionally). As a result, it is possible to suppress clogging of the fiber filter medium 3 and maintain the filtration performance in a high state for a long period of time while performing filtration having higher performance than that of the sand filter medium.
- the fiber filter medium 3 is used as a filtration filter, it is possible to easily remove the adhering stains by hand washing or washing with a washing machine after use. As a result, the fiber filter medium 3 can be reused many times.
- the fiber filter medium 3 is used in a compressed state. Therefore, the fiber filter medium 3 can continue to be used without any problem even if a part of the fiber filter medium 3 is damaged by repeated cleaning, and is excellent in durability.
- the compressed fiber filter medium 3 as a filtration filter, it is possible to obtain a filter having a high processing capacity by using the relatively inexpensive fiber filter medium 3.
- the fiber filter medium 3 in the compressed state (the state in which the pores 4 are small) is used for filtration and the fiber filter medium 3 in the uncompressed state (the state in which the pores 4 are large) is used for cleaning. At the time of the state, the captured insoluble component can be more easily removed from the fiber filter medium 3.
- the pressure applied to the lid portion 13 that opens and closes the opening 124a can be reduced, and the filtration container portion 11 is damaged. Can be suppressed.
- the fiber filter medium 3 can be easily taken out even in the water treatment filtration device 10 in which the pressure applied to the lid portion 13 is reduced. You will be able to do it.
- the water treatment filtration device 10 capable of suppressing an increase in running cost while simplifying the configuration.
- the pressing member 14 may include a plurality of divided bodies 141, and may be configured to be unfoldable and foldable by relatively moving the plurality of divided bodies 141.
- the pressing member 14 can be taken in and out from the opening 124a having a small area with a simpler configuration.
- the pressing member 14 includes two divided bodies 141, and by connecting one divided body 141 to the other divided body 141 so as to be relatively movable between 0 ° and 180 °, it can be unfolded and folded. It may be configured to be possible.
- the pressing member 14 can be folded in half or expanded into a disk shape by simply moving one of the divided bodies 141 relative to each other. Therefore, the pressing member 14 can be unfolded and folded more easily.
- the pressing member 14 may be detachably provided on the container main body portion 12.
- the fiber filter medium 3 can be more easily and surely taken out from the container body 12.
- the fiber filter medium 3 arranged in the filtration unit 15 may be compressed in a crumpled state.
- the crushed pores 4 of the fiber filter medium 3 are formed in the entire filtration section 15, and the fiber filter medium 3 can be used more reliably and three-dimensionally.
- the fiber filter medium 3 may include at least one of the sheet-shaped fiber filter medium 3 and the massive fiber filter medium 3.
- the filtration unit 15 may have a fiber filtration unit 151 formed by the fiber filter medium 3. Then, the fiber filtration unit 151 may be filled with one or more fiber filter media 3.
- the filtration unit 15 may be formed by the fiber filter medium 3 wrapped in the net 5.
- the fiber filter medium 3 can be taken in and out of the container body 12 more easily. Further, if the net 5 is filled with the torn fiber filter medium 3, the filter medium having substantially the same function as one fiber filter medium 3 can be obtained.
- the fiber filter medium 3 may be formed of at least one of an olefin-based fiber and a polyester-based fiber.
- the fiber filter medium 3 can be formed using a relatively inexpensive material.
- the average value of the fiber diameter of the fiber filter medium 3 may be 0.1 to 10 ⁇ m, and the basis weight may be 10 g / m 2 or more.
- the fiber diameter of the fiber 2 constituting the fiber filter medium 3 and the basis weight of the fiber filter medium 3 within the above ranges, the specific surface area inside the fiber filter medium is increased, and the contact property between the water to be treated and the flocculant is increased. Therefore, it becomes possible to efficiently capture the insoluble components in the water to be treated.
- the clue portion 144 may be formed on the pressing member 14.
- the pressing member 14 can be more easily attached to and detached from the container body 12.
- the container main body portion 12 may be provided with an upstream side locking portion 126a for locking the pressing member 14A arranged on the upstream side of the fiber filter medium 3.
- introduction holes 131a and 124b for introducing water to be treated may be formed on the upstream side of the filtration container portion 11 with respect to the upstream locking portion 126a.
- the upstream side of the filtration unit 15 can be used, for example, as an aggregation promoting unit that promotes aggregation of fine particles of insoluble components contained in the water to be treated W.
- the container main body portion 12 may have a substantially cylindrical wall portion 122 extending in the water flow direction of the water to be treated.
- the inner surface of the container main body 12 can be made a smooth curved surface, and it is possible to prevent the stress applied to the inside of the container main body 12 from being concentrated on a part of the container main body 12. Can be prevented from being damaged.
- the pressing member 14 may have a substantially disk-shaped upstream fixing plate 14A and a substantially disk-shaped downstream fixing plate 14B.
- the container body 12 has an upstream locking portion 126a that regulates the upstream movement of the upstream fixing plate 14A and a downstream locking portion that regulates the downstream locking of the downstream fixing plate 14B. 126b and may be provided.
- the fiber filter medium 3 may be compressed between the upstream side fixing plate 14A and the downstream side fixing plate 14B.
- both the upstream side fixing plate 14A and the downstream side fixing plate 14B that partition the upstream side and the downstream side of the filtration unit 15 can be taken out, so that the cleaning and maintenance of the water treatment filtration device 10 can be performed more easily. You will be able to do it.
- upstream locking portion 126a is an upstream projecting portion 126a projecting inward of the container body 12, and the downstream locking portion 126b projects downstream toward the inside of the container body 12. It may be a protrusion 126b.
- the upstream side fixing plate 14A and the downstream side fixing plate 14B can be locked more reliably.
- the water treatment filtration device according to the present embodiment has been described above, but the present embodiment is not limited to these, and various modifications can be made within the scope of the gist of the present embodiment.
- a filtration device for water treatment capable of suppressing an increase in running cost while simplifying the configuration.
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Abstract
A filtration device (10) for water treatment comprises: a filtration container (11) that allows water being treated to pass therethrough; and a filtration unit (15) that is provided inside the filtration container (11) and that filters the water being treated. Furthermore, the filtration device (10) for water treatment comprises: a fiber filter material (3) that is disposed in the filtration unit (15) and that can be inserted into and removed from the interior of the filtration container (11); and a pressing member (14) that presses the fiber filter material (3) disposed in the filtration unit (15) in a compressed state. In addition, the filtration container (11) has: a container body (12) in which an opening (124a) to allow the pressing member (14) to be inserted and removed is formed; and a cover (13) for opening and closing the opening (124a). Moreover, the area of the opening (124a) is smaller than the area of the filtration unit (15), and the pressing member (14) is displaced so as to be able to be inserted and removed through the opening (124a).
Description
本開示は、水処理用濾過装置に関する。
This disclosure relates to a filtration device for water treatment.
濾過フィルターを用いて被処理水を浄化する水処理用濾過装置が従来から知られている。この種の水処理用濾過装置としては、特許文献1に開示されたものが提案されている。この特許文献1では、カートリッジ式の濾過フィルターが用いられており、目詰まり等により濾過フィルターの浄化能力が低下した場合には、新しい濾過フィルターと交換することができるようにしている。
Conventionally known is a water treatment filtration device that purifies the water to be treated using a filtration filter. As a filtration device for water treatment of this type, the one disclosed in Patent Document 1 has been proposed. In Patent Document 1, a cartridge type filtration filter is used, and when the purification ability of the filtration filter is lowered due to clogging or the like, it can be replaced with a new filtration filter.
このように、特許文献1に開示の水処理用濾過装置では、濾過フィルターを定期的に交換することで、水処理用濾過装置の浄化能力が低下してしまうことを抑制している。
As described above, in the water treatment filtration device disclosed in Patent Document 1, the purification capacity of the water treatment filtration device is suppressed from being lowered by periodically replacing the filtration filter.
しかしながら、特許文献1に開示の技術では、濾過フィルターを定期的に交換する必要があるため、水処理用濾過装置の使用期間が長くなるほどランニングコストが増加してしまうという問題がある。
However, in the technique disclosed in Patent Document 1, since the filtration filter needs to be replaced regularly, there is a problem that the running cost increases as the period of use of the water treatment filtration device increases.
そのため、特許文献2に開示された水処理用濾過装置も提案されている。この特許文献2では、濾過フィルターを再利用することで、水処理用濾過装置を長期間使用した際にかかるランニングコストが増加してしまうことを抑制できるようにしている。
Therefore, a filtration device for water treatment disclosed in Patent Document 2 has also been proposed. In Patent Document 2, by reusing the filtration filter, it is possible to suppress an increase in running cost when the water treatment filtration device is used for a long period of time.
しかしながら、上記特許文献2に開示の水処理用濾過装置では、逆洗水を濾過フィルターに供給することで、浄化能力が低下した濾過フィルターの再生を行っているため、濾過フィルターを逆洗するための機構を設ける必要がある。そのため、特許文献2に開示の技術では、水処理用濾過装置の構成が複雑化してしまうという問題がある。
However, in the water treatment filtration device disclosed in Patent Document 2, since the backwashing water is supplied to the filtration filter to regenerate the filtration filter having a reduced purification capacity, the filter is backwashed. It is necessary to provide the mechanism of. Therefore, the technique disclosed in Patent Document 2 has a problem that the configuration of the water treatment filtration device becomes complicated.
このように、従来の水処理用濾過装置では、構成の簡素化を図りつつ長期間使用時のランニングコストの増加を抑えることができなかった。
As described above, the conventional filtration device for water treatment could not suppress the increase in running cost during long-term use while simplifying the configuration.
本開示は、このような従来技術の有する課題に鑑みてなされたものである。そして、本開示の目的は、構成の簡素化を図りつつランニングコストの増加を抑制することが可能な水処理用濾過装置を提供することにある。
This disclosure has been made in view of the problems of the prior art. An object of the present disclosure is to provide a water treatment filtration device capable of suppressing an increase in running cost while simplifying the configuration.
上記課題を解決するために、本開示の一態様に係る水処理用濾過装置は、被処理水が通水可能な濾過容器部と、前記濾過容器部の内部に設けられ、前記被処理水を濾過する濾過部と、を備える。さらに、水処理用濾過装置は、前記濾過部に配置され、前記濾過容器部の内部への出し入れが可能な繊維濾材と、前記濾過部に配置された前記繊維濾材を圧縮させた状態で押さえる押さえ部材と、を備える。そして、前記濾過容器部は、前記押さえ部材の出し入れが可能な開口部が形成された容器本体部と、前記開口部を開閉する蓋部と、を有する。また、前記開口部の面積が、前記濾過部の面積よりも小さくなっており、前記押さえ部材が、前記開口部からの出し入れが可能となるように変位する。
In order to solve the above problems, the water treatment filtration device according to one aspect of the present disclosure is provided with a filtration container portion through which the water to be treated can pass and the inside of the filtration container portion to allow the water to be treated. It is provided with a filtration unit for filtering. Further, the water treatment filtration device is arranged in the filtration unit, and the fiber filter medium which can be taken in and out of the inside of the filtration container unit and the fiber filter medium arranged in the filtration unit are pressed in a compressed state. It is provided with a member. The filtration container portion has a container body portion formed with an opening through which the holding member can be taken in and out, and a lid portion that opens and closes the opening. Further, the area of the opening is smaller than the area of the filtration portion, and the pressing member is displaced so as to be able to be taken in and out of the opening.
本開示によれば、構成の簡素化を図りつつランニングコストの増加を抑制することが可能な水処理用濾過装置を得ることができる。
According to the present disclosure, it is possible to obtain a water treatment filtration device capable of suppressing an increase in running cost while simplifying the configuration.
以下、本開示の実施形態について図面を参照しつつ詳細に説明する。また、以下の実施形態及びその変形例には、同様の構成要素が含まれている。よって、以下では、それら同様の構成要素には共通の符号を付与するとともに、重複する説明を省略する。
Hereinafter, embodiments of the present disclosure will be described in detail with reference to the drawings. In addition, the following embodiments and modifications thereof include similar components. Therefore, in the following, common reference numerals will be given to these similar components, and duplicate description will be omitted.
本実施形態に係る水処理用濾過装置10は、複数の繊維2が集合してなる繊維濾材3を備えている。そして、本実施形態の水処理用濾過装置10では、繊維濾材3を備える水処理用濾材1が用いられている。
The water treatment filtration device 10 according to the present embodiment includes a fiber filter medium 3 in which a plurality of fibers 2 are aggregated. Then, in the water treatment filtration device 10 of the present embodiment, the water treatment filter medium 1 including the fiber filter medium 3 is used.
[水処理用濾材]
まず初めに、本実施形態の水処理用濾過装置10で用いられる水処理用濾材1について説明する。 [Water treatment filter medium]
First, the watertreatment filter medium 1 used in the water treatment filtration device 10 of the present embodiment will be described.
まず初めに、本実施形態の水処理用濾過装置10で用いられる水処理用濾材1について説明する。 [Water treatment filter medium]
First, the water
本実施形態の水処理用濾材1は、上述したように、複数の繊維2が集合してなる繊維濾材3を備えている。本実施形態では、繊維濾材3は、織布又は不織布からなる繊維構造体であり、図1に示すように、可撓性を有するシート状に形成されている。この繊維濾材3は、被処理水が通過することが可能な細孔4を内部に多数有している。なお、繊維濾材3は、複数の織布及び/又は不織布を積層してなる繊維構造体であってもよい。ただ、圧力損失を抑制しつつ、被処理水中の不溶解成分を効率的に捕捉する観点から、繊維濾材3は不織布であることが好ましい。
As described above, the water treatment filter medium 1 of the present embodiment includes a fiber filter medium 3 in which a plurality of fibers 2 are aggregated. In the present embodiment, the fiber filter medium 3 is a fiber structure made of a woven fabric or a non-woven fabric, and is formed in a flexible sheet shape as shown in FIG. The fiber filter medium 3 has a large number of pores 4 through which water to be treated can pass. The fiber filter medium 3 may be a fiber structure in which a plurality of woven fabrics and / or non-woven fabrics are laminated. However, the fiber filter medium 3 is preferably a non-woven fabric from the viewpoint of efficiently capturing the insoluble components in the water to be treated while suppressing the pressure loss.
繊維濾材3を構成する繊維2の材料は特に限定されず、例えば、水及び薬品に対する耐久性が高い材料を用いることができる。繊維2の材料としては、オレフィン系樹脂の繊維及びポリエステル系樹脂の繊維のうち少なくともいずれか一方の繊維を用いることができる。具体的には、繊維2の材料としては、ポリエチレン(PE)、ポリプロピレン(PP)、ポリエチレンテレフタレート(PET)及びポリブチレンテレフタレートからなる群より選ばれる少なくとも一つを用いることができる。また、繊維2の材料としては、セルロース、アクリル樹脂及びポリアミドからなる群より選ばれる少なくとも一つも用いることができる。
The material of the fiber 2 constituting the fiber filter medium 3 is not particularly limited, and for example, a material having high durability against water and chemicals can be used. As the material of the fiber 2, at least one of the olefin resin fiber and the polyester resin fiber can be used. Specifically, as the material of the fiber 2, at least one selected from the group consisting of polyethylene (PE), polypropylene (PP), polyethylene terephthalate (PET) and polybutylene terephthalate can be used. Further, as the material of the fiber 2, at least one selected from the group consisting of cellulose, acrylic resin and polyamide can be used.
繊維濾材3として、このような安価な繊維材料を用いることにより、低コストな水処理用濾材1を実現することができる。また、上記材料からなる繊維濾材3は柔軟性に優れている。そのため、一般的な使い捨てカートリッジフィルターと異なり、水処理用濾材1は、使用後に手洗い又は洗濯機で洗浄して、付着した汚れを容易に除去することができる。その結果、水処理用濾材1は、何度も再利用することができる。さらに、水処理用濾材1は、繰返しの洗浄により繊維濾材3の一部が破損した場合でも問題なく使用し続けることができるため、耐久性に優れている。
By using such an inexpensive fiber material as the fiber filter medium 3, a low-cost water treatment filter medium 1 can be realized. Further, the fiber filter medium 3 made of the above material has excellent flexibility. Therefore, unlike a general disposable cartridge filter, the water treatment filter medium 1 can be easily removed by hand washing or washing with a washing machine after use. As a result, the water treatment filter medium 1 can be reused many times. Further, the water treatment filter medium 1 is excellent in durability because it can be used continuously without any problem even if a part of the fiber filter medium 3 is damaged by repeated washing.
繊維濾材3を構成する繊維2の繊維径の平均値は、0.1μm~10μmであることが好ましい。また、繊維濾材3の目付量は、10g/m2以上であることが好ましい。繊維濾材3を構成する繊維2の繊維径及び繊維濾材3の目付量を上記範囲内とすることにより、繊維濾材内部の比表面積が高まり、被処理水と凝集剤との接触性が向上するため、被処理水中の不溶解成分を効率的に捕捉することが可能となる。なお、繊維濾材3の目付量の上限は特に限定されないが、1000g/m2とすることができる。
The average value of the fiber diameters of the fibers 2 constituting the fiber filter medium 3 is preferably 0.1 μm to 10 μm. The basis weight of the fiber filter medium 3 is preferably 10 g / m 2 or more. By setting the fiber diameter of the fiber 2 constituting the fiber filter medium 3 and the basis weight of the fiber filter medium 3 within the above ranges, the specific surface area inside the fiber filter medium is increased and the contact property between the water to be treated and the coagulant is improved. , It becomes possible to efficiently capture the insoluble component in the water to be treated. The upper limit of the basis weight of the fiber filter medium 3 is not particularly limited, but may be 1000 g / m 2 .
繊維濾材3の厚さは、特に限定されるものではなく、様々な厚さとすることができる。例えば、チリ紙やティッシュ等と同じくらいの厚みを有するシート状の繊維濾材3とすることができる。なお、シート状の繊維濾材3の厚さは、繊維濾材3の内部に付着した汚れを容易に除去することができる程度の厚さとするのが好ましい。
The thickness of the fiber filter medium 3 is not particularly limited, and may be various thicknesses. For example, a sheet-shaped fiber filter medium 3 having a thickness similar to that of chili paper or tissue can be used. The thickness of the sheet-shaped fiber filter medium 3 is preferably such that dirt adhering to the inside of the fiber filter medium 3 can be easily removed.
なお、繊維濾材3として、プリーツ(ひだ)を全面に有する繊維構造体を用いてもよい。プリーツを有することで、被処理水中の不溶解成分を取り除く効果を高めることが可能となる。つまり、繊維濾材3は、後述する濾過容器部における被処理水が通水する断面積に対して、表面積が大きいほど不溶解成分を濾過する面積が増えて、浄化性能が向上する。そのため、繊維濾材3にプリーツを設けて不溶解成分を濾過する面積を増やすことにより、不溶解成分の捕集性能を高めることが可能となる。なお、繊維濾材3にプリーツを形成する方法は特に限定されないが、例えば、繊維構造体を繰り返し折り畳むことにより形成することができる。
Note that, as the fiber filter medium 3, a fiber structure having pleats (folds) on the entire surface may be used. Having pleats makes it possible to enhance the effect of removing insoluble components in the water to be treated. That is, the larger the surface area of the fiber filter medium 3 with respect to the cross-sectional area through which the water to be treated passes in the filtration container portion described later, the larger the area for filtering the insoluble component, and the purification performance is improved. Therefore, by providing pleats on the fiber filter medium 3 to increase the area for filtering the insoluble components, it is possible to improve the collection performance of the insoluble components. The method of forming the pleats on the fiber filter medium 3 is not particularly limited, but the pleats can be formed, for example, by repeatedly folding the fiber structure.
本実施形態では、水処理用濾材1は、繊維濾材3を構成する繊維2の表面に、カチオン系凝集剤を担持している。被処理水中の不溶解成分の微粒子は、通常、負に帯電し、互いに電気的に反発しあいながら、被処理水中に浮遊している。そして、被処理水中の微粒子とカチオン系凝集剤が接触することにより、微粒子は電気的に中和するため、当該微粒子は互いに結合して凝集することができる。また、被処理水中の不溶解成分の微粒子は負に帯電していることから、カチオン系凝集剤に対して静電気的に吸着される。
In the present embodiment, the water treatment filter medium 1 carries a cationic flocculant on the surface of the fibers 2 constituting the fiber filter medium 3. The fine particles of the insoluble component in the water to be treated are usually negatively charged and float in the water to be treated while electrically repelling each other. Then, when the fine particles in the water to be treated come into contact with the cationic flocculant, the fine particles are electrically neutralized, so that the fine particles can bind to each other and aggregate. Further, since the fine particles of the insoluble component in the water to be treated are negatively charged, they are electrostatically adsorbed to the cationic flocculant.
カチオン系凝集剤は、被処理水中の不溶解成分の微粒子を電気的に中和することが可能ならば、特に限定されない。カチオン系凝集剤は、無機材料及び天然有機高分子材料の少なくとも一方からなる凝集剤であることが好ましい。無機材料からなるカチオン系凝集剤は、ポリ塩化アルミニウム、硫酸バンド(硫酸アルミニウム)、ポリ硫酸第二鉄、硫酸第一鉄、ポリシリカ鉄、塩化第二鉄及び消石灰からなる群より選ばれる少なくとも一つであることが好ましい。また、天然有機高分子材料からなる凝集剤は、キトサンであることが好ましい。
The cationic flocculant is not particularly limited as long as it can electrically neutralize fine particles of insoluble components in the water to be treated. The cationic flocculant is preferably a flocculant composed of at least one of an inorganic material and a natural organic polymer material. The cationic flocculant composed of an inorganic material is at least one selected from the group consisting of polyaluminum chloride, band sulfate (aluminum sulfate), ferric sulfate, ferrous sulfate, polysilica iron, ferric chloride and slaked lime. Is preferable. Further, the flocculant made of a natural organic polymer material is preferably chitosan.
また、水処理用濾材1は、繊維濾材3を構成する繊維2の表面に、カチオン系凝集剤に加えて、アニオン界面活性剤を担持している。本実施形態の水処理用濾材1では、繊維濾材3の表面にアニオン界面活性剤を付着させて繊維2の表面を負に帯電させた後、カチオン系凝集剤と接触させることにより、カチオン系凝集剤を繊維2の表面に担持している。
Further, the water treatment filter medium 1 carries an anionic surfactant in addition to the cationic flocculant on the surface of the fibers 2 constituting the fiber filter medium 3. In the water treatment filter medium 1 of the present embodiment, an anionic surfactant is adhered to the surface of the fiber filter medium 3, the surface of the fiber 2 is negatively charged, and then the surface of the fiber 2 is brought into contact with the cationic flocculant to cause cationic aggregation. The agent is supported on the surface of the fiber 2.
詳細に説明すると、繊維濾材3をカチオン系凝集剤に直接接触させた場合、繊維2の表面が正に帯電しているときには、繊維2の表面とカチオン系凝集剤が反発し、繊維2の表面にカチオン系凝集剤が担持され難くなる。これに対して、繊維濾材3の表面に予めアニオン界面活性剤を担持することにより、繊維2の表面は負に帯電する。そして、負に帯電した繊維濾材3にカチオン系凝集剤に接触させた場合、繊維濾材3の表面にカチオン系凝集剤が吸着され易くなる。そのため、アニオン界面活性剤を予め担持することにより、繊維濾材3の表面にカチオン系凝集剤を効率的に担持することができる。また、繊維濾材3において、カチオン系凝集剤はアニオン界面活性剤を介して担持されており、アニオン界面活性剤が繊維2の表面とカチオン系凝集剤との間でアンカー効果を発揮している。そのため、繊維2の表面にカチオン系凝集剤を長期間に亘って安定的に保持することが可能となる。
More specifically, when the fiber filter medium 3 is brought into direct contact with the cationic flocculant, when the surface of the fiber 2 is positively charged, the surface of the fiber 2 and the cationic flocculant repel each other, and the surface of the fiber 2 is repelled. It becomes difficult for the cationic flocculant to be supported on the fiber. On the other hand, by supporting the anionic surfactant on the surface of the fiber filter medium 3 in advance, the surface of the fiber 2 is negatively charged. When the negatively charged fiber filter medium 3 is brought into contact with the cationic flocculant, the cationic flocculant is easily adsorbed on the surface of the fiber filter medium 3. Therefore, by supporting the anionic surfactant in advance, the cationic flocculant can be efficiently supported on the surface of the fiber filter medium 3. Further, in the fiber filter medium 3, the cationic flocculant is supported via an anionic surfactant, and the anionic surfactant exerts an anchor effect between the surface of the fiber 2 and the cationic flocculant. Therefore, the cationic flocculant can be stably retained on the surface of the fiber 2 for a long period of time.
アニオン界面活性剤は、上記効果を発揮できるならば特に限定されないが、例えば、カルボン酸型、スルホン酸型、硫酸エステル型、及びリン酸エステル型からなる群より選ばれる少なくとも一つを使用することができる。カルボン酸型のアニオン界面活性剤は、脂肪族モノカルボン酸塩、ポリオキシエチレンアルキルエーテルカルボン酸塩、N-アシルサルコシン塩、及びN-アシルグルタミン酸塩からなる群より選ばれる少なくとも一つであることが好ましい。スルホン酸型のアニオン界面活性剤は、ジアルキルスルホこはく酸塩、アルカンスルホン酸塩、アルファオレフィンスルホン酸塩、直鎖アルキルベンゼンスルホン酸塩、アルキル(分岐鎖)ベンゼンスルホン酸塩、ナフタレンスルホン酸塩-ホルムアルデヒド縮合物、アルキルナフタレンスルホン酸塩、及びN-メチル-N-アシルタウリン塩からなる群より選ばれる少なくとも一つであることが好ましい。硫酸エステル型のアニオン界面活性剤は、アルキル硫酸塩、ポリオキシエチレンアルキルエーテル硫酸塩、及び油脂硫酸エステル塩からなる群より選ばれる少なくとも一つであることが好ましい。リン酸エステル型のアニオン界面活性剤は、アルキルリン酸塩、ポリオキシエチレンアルキルエーテルリン酸塩、及びポリオキシエチレンアルキルフェニルエーテルリン酸塩からなる群より選ばれる少なくとも一つであることが好ましい。
The anionic surfactant is not particularly limited as long as it can exhibit the above effects, but for example, at least one selected from the group consisting of a carboxylic acid type, a sulfonic acid type, a sulfate ester type, and a phosphoric acid ester type should be used. Can be done. The carboxylic acid type anionic surfactant shall be at least one selected from the group consisting of aliphatic monocarboxylic acid salts, polyoxyethylene alkyl ether carboxylates, N-acyl sarcosin salts, and N-acyl glutamates. Is preferable. Sulfonic acid type anionic surfactants are dialkyl sulfosulfates, alkane sulfonates, alpha olefin sulfonates, linear alkyl benzene sulfonates, alkyl (branched chain) benzene sulfonates, naphthalene sulfonates-formaldehyde. It is preferably at least one selected from the group consisting of condensates, alkylnaphthalene sulfonates, and N-methyl-N-acyltaurine salts. The sulfate ester type anionic surfactant is preferably at least one selected from the group consisting of alkyl sulfates, polyoxyethylene alkyl ether sulfates, and fat and oil sulfates. The phosphoric acid ester type anionic surfactant is preferably at least one selected from the group consisting of alkyl phosphates, polyoxyethylene alkyl ether phosphates, and polyoxyethylene alkyl phenyl ether phosphates.
このような水処理用濾材1の作用について説明する。水処理用濾材1は、後述するように、濾過容器部の内部に保持されて使用される。この際、水処理用濾材1は、不規則に折り畳まれて積層された状態で、濾過容器部の内部に保持されていてもよい。また、水処理用濾材1は、もんだり丸めたりすることにより、皺が寄ったり形が崩れた状態、いわゆるくしゃくしゃの状態で、濾過容器部の内部に保持されていてもよい。
The operation of such a water treatment filter medium 1 will be described. As will be described later, the water treatment filter medium 1 is held and used inside the filtration container portion. At this time, the water treatment filter medium 1 may be held inside the filtration container portion in a state of being irregularly folded and laminated. Further, the water treatment filter medium 1 may be held inside the filtration container portion in a state of wrinkling or losing its shape due to being squeezed or rolled, that is, in a so-called crumpled state.
なお、複数の水処理用濾材1を濾過容器部の内部で保持する場合、折り畳まれて積層された状態の水処理用濾材1と、いわゆるくしゃくしゃの状態の水処理用濾材1とが、混在するようにしてもよい。
When a plurality of water treatment filter media 1 are held inside the filtration container portion, the water treatment filter medium 1 in a folded and laminated state and the so-called crumpled water treatment filter medium 1 coexist. You may do so.
また、図2に示すように、複数枚のシート状の水処理用濾材1をネット5に充填することで、ネット5に包まれた水処理用濾材1が濾過容器部の内部に保持されていてもよい。本実施形態では、中空を有する略円柱状のネット5の内部に、複数枚のシート状の水処理用濾材1がランダムに投入されたものを例示している。
Further, as shown in FIG. 2, by filling the net 5 with a plurality of sheets of the water treatment filter medium 1, the water treatment filter medium 1 wrapped in the net 5 is held inside the filtration container portion. You may. In the present embodiment, a plurality of sheet-shaped filter media 1 for water treatment are randomly put into the hollow net 5 having a substantially cylindrical shape.
このとき、複数枚のシート状の水処理用濾材1は、折り畳まれて積層された状態の水処理用濾材1、および、いわゆるくしゃくしゃの状態の水処理用濾材1のうち少なくともいずれか一方の水処理用濾材1が存在するように、ネット5に充填させるのが好ましい。
At this time, the plurality of sheets of the water treatment filter medium 1 are the water of at least one of the water treatment filter medium 1 in the folded and laminated state and the water treatment filter medium 1 in the so-called crumpled state. It is preferable to fill the net 5 so that the processing filter medium 1 is present.
この円柱状のネット5は、後述する濾過容器部の濾過部に対応する大きさとすることができる。例えば、円柱状のネット5を、大きさが濾過容器部の濾過部よりも若干大きくなるように形成することができる。そして、水処理用濾材1が充填されたネット5を濾過部に配置して保持した際に、ネット5内部の水処理用濾材1が、ネット5の径方向及び軸方向に所定量圧縮されるようにすることが可能である。こうすれば、濾過容器部内への水処理用濾材1の出し入れを容易に行うことができる。
The columnar net 5 can have a size corresponding to the filtration portion of the filtration container portion described later. For example, the columnar net 5 can be formed so that the size is slightly larger than that of the filtration portion of the filtration container portion. Then, when the net 5 filled with the water treatment filter medium 1 is arranged and held in the filtration portion, the water treatment filter medium 1 inside the net 5 is compressed by a predetermined amount in the radial direction and the axial direction of the net 5. It is possible to do so. By doing so, the water treatment filter medium 1 can be easily taken in and out of the filter container portion.
なお、大きさが濾過容器部の濾過部よりも小さい円柱状のネット5を用いることも可能である。また、ネット5の形状は円柱状に限られるものではなく、様々な形状とすることが可能である。
It is also possible to use a columnar net 5 whose size is smaller than that of the filtration part of the filtration container part. Further, the shape of the net 5 is not limited to a columnar shape, and various shapes can be used.
そして、濾過容器部の内部に被処理水を投入し、水処理用濾材1の細孔4を被処理水が通過する際、被処理水とカチオン系凝集剤が接触する。被処理水中の不溶解成分の微粒子は通常、負に帯電しているが、カチオン系凝集剤と接触することにより、当該微粒子は電気的に中和する。また、電気的に中和した微粒子は互いに近接しやすくなり、ファンデルワールス力によって粒子同士が結合するようになる。その結果、不溶解成分の微粒子は互いに凝集する。また、負に帯電している不溶解成分の微粒子は、繊維2の表面に担持されたカチオン系凝集剤に静電気的に吸着する。そのため、不溶解成分の微粒子は、水処理用濾材1における繊維2の表面で捕捉され、被処理水から分離される。このように、被処理水を水処理用濾材1に通過させることにより、不溶解成分を除去することができる。
Then, when the water to be treated is put into the inside of the filtration container and the water to be treated passes through the pores 4 of the water treatment filter medium 1, the water to be treated and the cationic flocculant come into contact with each other. The insoluble component fine particles in the water to be treated are usually negatively charged, but the fine particles are electrically neutralized by contact with a cationic flocculant. In addition, the electrically neutralized fine particles tend to come close to each other, and the particles are bonded to each other by the van der Waals force. As a result, the insoluble component fine particles aggregate with each other. Further, the negatively charged insoluble component fine particles are electrostatically adsorbed on the cationic flocculant supported on the surface of the fiber 2. Therefore, the fine particles of the insoluble component are captured on the surface of the fiber 2 in the water treatment filter medium 1 and separated from the water to be treated. In this way, the insoluble component can be removed by passing the water to be treated through the water treatment filter medium 1.
このように、本実施形態の水処理用濾材1は、無機材料及び天然有機高分子材料の少なくとも一方からなるカチオン系凝集剤と、アニオン界面活性剤とを備える。水処理用濾材1は、さらに、複数の繊維2が集合してなり、各繊維2の表面にカチオン系凝集剤及びアニオン界面活性剤の両方を担持する繊維濾材3を備える。水処理用濾材1は、繊維濾材3の各繊維2の表面にカチオン系凝集剤を担持しているため、被処理水中の不溶解成分の微粒子を静電気的に吸着し、さらに当該微粒子を互いに凝集させる。そして、不溶解成分の微粒子を、繊維濾材3の各繊維2の表面に保持することができる。そのため、被処理水を水処理用濾材1に通過させることにより、被処理水から不溶解成分を分離して除去することができる。さらに、繊維濾材3の表面において、カチオン系凝集剤はアニオン界面活性剤を介して担持されている。そのため、繊維濾材3の表面に、カチオン系凝集剤を長期間に亘って安定的に保持することが可能となる。
As described above, the water treatment filter medium 1 of the present embodiment includes a cationic flocculant composed of at least one of an inorganic material and a natural organic polymer material, and an anionic surfactant. The water treatment filter medium 1 further includes a fiber filter medium 3 in which a plurality of fibers 2 are aggregated and both a cationic flocculant and an anionic surfactant are supported on the surface of each fiber 2. Since the water treatment filter medium 1 carries a cationic flocculant on the surface of each fiber 2 of the fiber filter medium 3, it electrostatically adsorbs fine particles of insoluble components in the water to be treated, and further aggregates the fine particles with each other. Let me. Then, the fine particles of the insoluble component can be retained on the surface of each fiber 2 of the fiber filter medium 3. Therefore, the insoluble component can be separated and removed from the water to be treated by passing the water to be treated through the water treatment filter medium 1. Further, on the surface of the fiber filter medium 3, the cationic flocculant is supported via an anionic surfactant. Therefore, the cationic flocculant can be stably retained on the surface of the fiber filter medium 3 for a long period of time.
また、水処理用濾材1は、基材として繊維濾材3を用いていることから、マッドボールの発生を抑制して、濾過性能を長期間に亘って高い状態に維持することができる。
Further, since the water treatment filter medium 1 uses the fiber filter medium 3 as the base material, it is possible to suppress the generation of mud balls and maintain the filtration performance in a high state for a long period of time.
水処理用濾材1において、無機材料からなるカチオン系凝集剤はポリ塩化アルミニウムであり、天然有機高分子材料からなるカチオン系凝集剤はキトサンであることが好ましい。これらの材料は、被処理水中の不溶解成分の微粒子を静電気的に吸着しやすく、さらに当該微粒子を互いに凝集させやすい。そのため、カチオン系凝集剤としてこれらの材料を用いることにより、水処理用濾材1の濾過性能をより高めることが可能となる。
In the water treatment filter medium 1, the cationic flocculant made of an inorganic material is preferably polyaluminum chloride, and the cationic flocculant made of a natural organic polymer material is preferably chitosan. These materials tend to electrostatically adsorb fine particles of insoluble components in the water to be treated, and further tend to agglomerate the fine particles with each other. Therefore, by using these materials as the cationic flocculant, it is possible to further improve the filtration performance of the water treatment filter medium 1.
また、水処理用濾材1において、繊維濾材3は、水で洗浄可能な材料からなることが好ましい。つまり、繊維濾材3は、水を用いて洗浄しても破損しない材料からなることが好ましい。この場合、水処理用濾材1を一定期間使用した後、水処理用濾材1を濾過容器部から取り出し、水を用いて洗浄することができる。そして、洗浄の際に、薬剤(カチオン系凝集剤及びアニオン界面活性剤)を添加することで、消費された薬剤をその都度供給することができる。そのため、水処理用濾材1は、長期間に亘って高い濾過性能が持続することができる。また、このような水処理用濾材1は、定期的に強い力による洗浄、例えば、手洗いや洗濯機を用いた洗浄を行うことができるため、マッドボールの発生を抑制して、高い濾過性能が持続することができる。
Further, in the water treatment filter medium 1, the fiber filter medium 3 is preferably made of a material that can be washed with water. That is, the fiber filter medium 3 is preferably made of a material that is not damaged even when washed with water. In this case, after the water treatment filter medium 1 has been used for a certain period of time, the water treatment filter medium 1 can be taken out from the filtration container and washed with water. Then, by adding chemicals (cationic flocculant and anionic surfactant) at the time of washing, the consumed chemicals can be supplied each time. Therefore, the water treatment filter medium 1 can maintain high filtration performance for a long period of time. Further, since such a water treatment filter medium 1 can be regularly washed with a strong force, for example, by hand washing or washing using a washing machine, the generation of mud balls is suppressed and high filtration performance is achieved. Can be sustained.
なお、複数の繊維2が集合してなる繊維濾材3自体を水処理用濾材1とし、この水処理用濾材1、すなわち、繊維濾材3を濾過容器部の内部に投入して保持させることで、被処理水を濾過するようにしてもよい。
The fiber filter medium 3 itself, which is a collection of a plurality of fibers 2, is used as the water treatment filter medium 1, and the water treatment filter medium 1, that is, the fiber filter medium 3 is put into the inside of the filtration container and held. The water to be treated may be filtered.
また、水処理用濾材1および/または繊維濾材3(以下、水処理用濾材1等と記載する)は、シート状に形成する必要はなく、様々な形状とすることができる。
Further, the water treatment filter medium 1 and / or the fiber filter medium 3 (hereinafter, referred to as water treatment filter medium 1 and the like) does not need to be formed in a sheet shape, and can be formed into various shapes.
例えば、図3に示すように、略円柱状(塊状)の水処理用濾材1等とすることができる。この円柱状の水処理用濾材1等は、後述する濾過容器部の濾過部に対応する大きさとすることができる。例えば、円柱状の水処理用濾材1等を、大きさが濾過容器部の濾過部よりも若干大きくなるように形成し、この水処理用濾材1等を濾過部に配置して保持した際に、径方向及び軸方向に所定量圧縮されるようにすることが可能である。こうすれば、1つの水処理用濾材1等を用いて、後述する繊維濾過部を形成することができる。
For example, as shown in FIG. 3, it can be a substantially columnar (lumpy) water treatment filter medium 1 or the like. The columnar water treatment filter medium 1 and the like can have a size corresponding to the filtration portion of the filtration container portion described later. For example, when a columnar water treatment filter medium 1 or the like is formed so as to have a size slightly larger than the filtration portion of the filtration container portion, and the water treatment filter medium 1 or the like is arranged and held in the filtration portion. , It is possible to compress a predetermined amount in the radial direction and the axial direction. In this way, the fiber filtration portion described later can be formed by using one water treatment filter medium 1 or the like.
なお、大きさが濾過容器部の濾過部よりも小さい円柱状の水処理用濾材1等を複数用いて、繊維濾過部を形成することも可能である。また、円柱状の水処理用濾材1等がネット5に包まれるようにしてもよい。
It is also possible to form the fiber filtration portion by using a plurality of columnar water treatment filter media 1 and the like whose size is smaller than that of the filtration portion of the filtration container portion. Further, the columnar water treatment filter medium 1 and the like may be wrapped in the net 5.
また、図4に示すような水処理用濾材1等とすることも可能である。図4には、厚手の一塊状(塊状)の水処理用濾材1等が示されている。そして、図4では、厚手の一塊状の水処理用濾材1等は、渦状に丸められた状態で、略円柱状のネット5の内部に配置されている。
It is also possible to use a water treatment filter medium 1 or the like as shown in FIG. FIG. 4 shows a thick, lumpy (lumpy) water treatment filter medium 1 and the like. Then, in FIG. 4, the thick block of water treatment filter medium 1 and the like are arranged inside the substantially columnar net 5 in a state of being rolled into a spiral shape.
このように、厚手の一塊状の水処理用濾材1等がネット5に包まれるようにすることで、濾過容器部の内部に投入して保持させる際に形が崩れてしまうのを抑制できるようにし、より容易に濾過容器部の内部に投入することができるようにしている。なお、ネット5を用いずに、厚手の一塊状の水処理用濾材1等を直接濾過容器部の内部に投入することも可能である。
In this way, by wrapping the thick lump of water treatment filter medium 1 or the like in the net 5, it is possible to prevent the shape from being deformed when it is put into the inside of the filtration container and held. This makes it easier to put it inside the filtration container. It is also possible to directly put the thick lump of water treatment filter medium 1 and the like into the inside of the filtration container without using the net 5.
また、水処理用濾材1等が、シート状の水処理用濾材1等及び塊状の水処理用濾材1等のうち少なくともいずれか一方の濾材を含むようにしてもよい。すなわち、複数の水処理用濾材1等を濾過容器部の内部で保持する場合、形状の異なる水処理用濾材1等が混在するようにしてもよい。
Further, the water treatment filter medium 1 and the like may include at least one of a sheet-shaped water treatment filter medium 1 and the like and a lumpy water treatment filter medium 1 and the like. That is, when a plurality of water treatment filter media 1 and the like are held inside the filtration container portion, the water treatment filter media 1 and the like having different shapes may be mixed.
なお、ネット5を用いる場合、ネット5が目詰まりすることにより濾過性能が低下してしまうことを抑制できるように、比較的網目が粗いネットを用いるのが好ましい。
When the net 5 is used, it is preferable to use a net having a relatively coarse mesh so that the filtration performance cannot be deteriorated due to the clogging of the net 5.
[水処理用濾過装置]
次に、本実施形態の水処理用濾過装置について説明する。 [Filtration device for water treatment]
Next, the water treatment filtration device of this embodiment will be described.
次に、本実施形態の水処理用濾過装置について説明する。 [Filtration device for water treatment]
Next, the water treatment filtration device of this embodiment will be described.
本実施形態に係る水処理用濾過装置10は、床や台座等に載置した状態で、鉛直方向(上下方向)に細長くなるように形成されている。そして、水処理用濾過装置10内で被処理水を上方から下方に向けて通水させることで、被処理水が濾過されるようにしている。したがって、本実施形態では、鉛直方向の上側から下側に向かう方向が、水処理用濾過装置10の通水方向となっている。
The water treatment filtration device 10 according to the present embodiment is formed so as to be elongated in the vertical direction (vertical direction) while being placed on a floor, a pedestal, or the like. Then, the water to be treated is filtered by passing the water to be treated from above to below in the water treatment filtration device 10. Therefore, in the present embodiment, the direction from the upper side to the lower side in the vertical direction is the water flow direction of the water treatment filtration device 10.
なお、水処理用濾過装置10を斜めに配置したり、横向きに配置したりすることで、水処理用濾過装置10の通水方向が鉛直方向と交差するようにしてもよい。また、水処理用濾過装置10を湾曲等させることで、水処理用濾過装置10内に、曲線状の通水経路が形成されるようにしてもよい。この場合、曲線状の通水経路に沿った方向が水処理用濾過装置10の通水方向となる。
By arranging the water treatment filtration device 10 diagonally or sideways, the water flow direction of the water treatment filtration device 10 may intersect with the vertical direction. Further, the water treatment filtration device 10 may be curved or the like so that a curved water passage path is formed in the water treatment filtration device 10. In this case, the direction along the curved water flow path is the water flow direction of the water treatment filtration device 10.
本実施形態に係る水処理用濾過装置10は、図5に示すように、被処理水が通水可能な濾過容器部11と、濾過容器部11の内部への出し入れが可能な水処理用濾材1等と、を備えている。また、濾過容器部11の内部には、被処理水を濾過する濾過部15が設けられており、この濾過部15に水処理用濾材1等が配置されている。
As shown in FIG. 5, the water treatment filter device 10 according to the present embodiment has a filter container portion 11 through which water to be treated can pass and a filter medium for water treatment that can be taken in and out of the filter container portion 11. It has 1st grade and. Further, a filtration unit 15 for filtering the water to be treated is provided inside the filtration container unit 11, and a water treatment filter medium 1 or the like is arranged in the filtration unit 15.
そして、濾過部15に配置された水処理用濾材1等が押さえ部材14によって押圧されている。すなわち、水処理用濾材1等は、押さえ部材14によって圧縮された状態で濾過部15に配置されている。
Then, the water treatment filter medium 1 and the like arranged in the filtration unit 15 are pressed by the pressing member 14. That is, the water treatment filter medium 1 and the like are arranged in the filtration unit 15 in a state of being compressed by the pressing member 14.
本実施形態では、濾過容器部11は、容器本体部12と蓋部13と、を備えており、この容器本体部12と蓋部13とによって濾過容器部11の内部に空間が形成されるようにしている。
In the present embodiment, the filtration container portion 11 includes a container main body portion 12 and a lid portion 13, so that a space is formed inside the filtration container portion 11 by the container main body portion 12 and the lid portion 13. I have to.
容器本体部12は、略円板状の底壁部121と、底壁部121の外周縁に連設された略円筒状の周壁部122と、を有している。
The container main body portion 12 has a substantially disk-shaped bottom wall portion 121 and a substantially cylindrical peripheral wall portion 122 connected to the outer peripheral edge of the bottom wall portion 121.
周壁部122は、底壁部121の外周縁から上方に向けて立ち上がるように形成され、下端から上端にかけて略同径となる大径部123と、下端から上端にかけて略同径となり、大径部123よりも小径の小径部124と、を備えている。そして、小径部124の上端が上方に向けて開放されている。
The peripheral wall portion 122 is formed so as to rise upward from the outer peripheral edge of the bottom wall portion 121, and has a large diameter portion 123 having substantially the same diameter from the lower end to the upper end and a large diameter portion 123 having substantially the same diameter from the lower end to the upper end. It is provided with a small diameter portion 124 having a diameter smaller than 123. Then, the upper end of the small diameter portion 124 is opened upward.
また、周壁部122は、大径部123と小径部124とを連設する連設部125を備えている。本実施形態では、連設部125は、上方かつ外方に凸となるように湾曲した形状をしており、大径部123および小径部124に滑らかに連設されている。こうすることで、周壁部122の内面が滑らかな曲面で形成されるようにしている。
Further, the peripheral wall portion 122 includes a continuous portion 125 in which a large diameter portion 123 and a small diameter portion 124 are continuously provided. In the present embodiment, the continuous portion 125 has a curved shape so as to be convex upward and outward, and is smoothly connected to the large diameter portion 123 and the small diameter portion 124. By doing so, the inner surface of the peripheral wall portion 122 is formed with a smooth curved surface.
このように、本実施形態では、容器本体部12は、上下方向(被処理水の通水方向)に延在する略円筒状の壁部(大径部123)を有しており、容器本体部12には、上流側に向けて開放された開口部124aが形成されている。
As described above, in the present embodiment, the container main body 12 has a substantially cylindrical wall portion (large diameter portion 123) extending in the vertical direction (water flow direction of the water to be treated), and the container main body An opening 124a opened toward the upstream side is formed in the portion 12.
なお、本実施形態では、濾過部15が大径部123に形成されている。したがって、本実施形態では、開口部124aの面積が、濾過部15の面積よりも小さくなっている。また、本実施形態では、開口部124aから水処理用濾材1等の出し入れや押さえ部材14の出し入れが行えるようにしている。この開口部124aの径は、人の手を挿入することができる程度以上の大きさとなるように設定するのが好ましい。こうすれば、押さえ部材14の出し入れや固定作業を人の手でスムーズに行うことができるようになる。
In the present embodiment, the filtration portion 15 is formed in the large diameter portion 123. Therefore, in the present embodiment, the area of the opening 124a is smaller than the area of the filtration portion 15. Further, in the present embodiment, the water treatment filter medium 1 and the like can be taken in and out and the pressing member 14 can be taken in and out from the opening 124a. The diameter of the opening 124a is preferably set so as to be larger than a size that allows a human hand to be inserted. By doing so, the holding member 14 can be smoothly taken in and out and fixed by a human hand.
また、容器本体部12には、容器本体部12の内部に導入された押さえ部材14を係止する係止部126が形成されている。そして、この係止部126に押さえ部材14の被係止部14bを解除可能に係止させることで、濾過部15に配置された水処理用濾材1等を圧縮させた状態で押さえる押さえ部材14が、容器本体部12に固定されるようにしている。
Further, the container main body 12 is formed with a locking portion 126 for locking the pressing member 14 introduced inside the container main body 12. Then, by locking the locked portion 14b of the pressing member 14 to the locking portion 126 so as to be releasable, the pressing member 14 that presses the water treatment filter medium 1 or the like arranged in the filtering portion 15 in a compressed state. Is fixed to the container body 12.
本実施形態では、2枚の略円板状をした押さえ部材14が容器本体部12に着脱自在に設けられるようにしている。具体的には、2枚の押さえ部材14のうち、容器本体部12の上側(上流側)に固定される押さえ部材14を上流側固定板14Aとし、容器本体部12の下側(下流側)に固定される押さえ部材14を下流側固定板14Bとしている。
In the present embodiment, two substantially disk-shaped pressing members 14 are detachably provided on the container body 12. Specifically, of the two pressing members 14, the pressing member 14 fixed to the upper side (upstream side) of the container body portion 12 is the upstream side fixing plate 14A, and the lower side (downstream side) of the container body portion 12 is used. The pressing member 14 fixed to is a downstream side fixing plate 14B.
一方、容器本体部12の大径部123の内面には、上流側固定板(繊維濾材3よりも上流側に配置される押さえ部材)14Aを係止する上流側係止部としての上流側突部126aが設けられている。また、容器本体部12の大径部123の内面における上流側突部126aよりも下流側には、下流側固定板(繊維濾材3よりも下流側に配置される押さえ部材)14Bを係止する下流側係止部としての下流側突部126bが設けられている。
On the other hand, on the inner surface of the large diameter portion 123 of the container main body portion 12, the upstream side protrusion as an upstream side locking portion for locking the upstream side fixing plate (holding member arranged on the upstream side of the fiber filter medium 3) 14A. A portion 126a is provided. Further, a downstream side fixing plate (holding member arranged on the downstream side of the fiber filter medium 3) 14B is locked on the downstream side of the upstream side protrusion 126a on the inner surface of the large diameter portion 123 of the container main body portion 12. A downstream side protrusion 126b is provided as a downstream side locking part.
上流側突部126aは、大径部123の内面から内側(中心軸側)に向けて突出するように形成されており、略水平方向に細長くなるように延在している。本実施形態では、4つの上流側突部126aが周方向に沿って略均等に形成されている。
The upstream side protrusion 126a is formed so as to project from the inner surface of the large diameter portion 123 toward the inside (central axis side), and extends so as to be elongated in a substantially horizontal direction. In the present embodiment, the four upstream protrusions 126a are formed substantially evenly along the circumferential direction.
また、下流側突部126bも、大径部123の内面から内側(中心軸側)に向けて突出するように形成されており、略水平方向に細長くなるように延在している。本実施形態では、4つの下流側突部126bが周方向に沿って略均等に形成されている。
Further, the downstream side protrusion 126b is also formed so as to project from the inner surface of the large diameter portion 123 toward the inside (central axis side), and extends so as to be elongated in the substantially horizontal direction. In the present embodiment, the four downstream protrusions 126b are formed substantially evenly along the circumferential direction.
そして、下流側突部126bの上面に下流側固定板14Bの被係止部14bを載置(解除可能に係止)させることで、下流側固定板14Bが、下方(下流側)への移動が規制された状態で、容器本体部12に着脱自在に設けられるようにしている。
Then, by placing (releasably locking) the locked portion 14b of the downstream side fixing plate 14B on the upper surface of the downstream side protrusion 126b, the downstream side fixing plate 14B moves downward (downstream side). Is detachably provided on the container body 12 in a regulated state.
一方、上流側突部126aの下面に上流側固定板14Aの被係止部14bを当接(解除可能に係止)させることで、上流側固定板14Aが、上方(上流側)への移動が規制された状態で、容器本体部12に着脱自在に設けられるようにしている。
On the other hand, the upstream side fixing plate 14A moves upward (upstream side) by abutting (releasably locking) the locked portion 14b of the upstream side fixing plate 14A on the lower surface of the upstream side protrusion 126a. Is detachably provided on the container body 12 in a regulated state.
なお、上流側固定板14Aの被係止部14bの上流側突部126aの下面への当接は、上流側固定板14Aによる押圧で圧縮された水処理用濾材1等の復元力により行われる。すなわち、本実施形態では、水処理用濾材1等を、上流側固定板14Aと下流側固定板14Bとの間に圧縮された状態で介在させている。
The contact of the locked portion 14b of the upstream fixing plate 14A with the lower surface of the upstream protruding portion 126a is performed by the restoring force of the water treatment filter medium 1 or the like compressed by the pressing by the upstream fixing plate 14A. .. That is, in the present embodiment, the water treatment filter medium 1 and the like are interposed between the upstream fixing plate 14A and the downstream fixing plate 14B in a compressed state.
このように、本実施形態では、2枚の押さえ部材14を水処理用濾過装置10の通水方向に離間するように配置しており、互いに離間する2枚の押さえ部材14の間に、水処理用濾材1等を介在させている。すなわち、容器本体部12の上側(上流側)に固定される上流側固定板14Aと、容器本体部12の下側(下流側)に固定される下流側固定板14Bとの間に、水処理用濾材1等を含む濾材が配置される濾過部15が形成されるようにしている。
As described above, in the present embodiment, the two pressing members 14 are arranged so as to be separated from each other in the water flow direction of the water treatment filtration device 10, and water is separated between the two pressing members 14 which are separated from each other. A processing filter medium 1 or the like is interposed. That is, water treatment is performed between the upstream fixing plate 14A fixed to the upper side (upstream side) of the container main body 12 and the downstream fixing plate 14B fixed to the lower side (downstream side) of the container main body 12. The filtration unit 15 on which the filter medium including the filter medium 1 and the like is arranged is formed.
そして、濾過部15における水処理用濾材1等が配置される部位が繊維濾過部151となっている。そして、この繊維濾過部151には、1つ又は複数の水処理用濾材1等が充填されている。本実施形態では、濾過部15の全体を繊維濾過部151としたものを例示している。
Then, the portion of the filtration unit 15 where the water treatment filter medium 1 and the like are arranged is the fiber filtration unit 151. The fiber filtration unit 151 is filled with one or more water treatment filter media 1 and the like. In this embodiment, the entire filtration unit 15 is illustrated as the fiber filtration unit 151.
なお、濾過部15の一部が繊維濾過部151となるようにすることも可能である。このような構成は、例えば、濾過部15の下流側に活性炭が配置された活性炭層を形成し、活性炭層の上流側に、水処理用濾材1等が配置される繊維濾過部151を形成することで得ることができる。また、3種類以上の濾材を用いることも可能であるし、2種類の濾材を用いて3層以上の層が形成されるようにすることも可能である。
It is also possible that a part of the filtration unit 15 becomes the fiber filtration unit 151. With such a configuration, for example, an activated carbon layer in which activated carbon is arranged is formed on the downstream side of the filtration unit 15, and a fiber filtration unit 151 in which a water treatment filter medium 1 or the like is arranged is formed on the upstream side of the activated carbon layer. Can be obtained by It is also possible to use three or more types of filter media, and it is also possible to use two types of filter media to form three or more layers.
蓋部13は、容器本体部12の上端の開口部124aを塞ぐように、容器本体部12に取り外し可能な状態で取り付けられている。蓋部13は、略円板状の上壁部131と、上壁部131の外周端から垂れ下がり、容器本体部12の小径部124よりも一回り大きな周壁部132とを有している。ただ、濾過容器部11は、内部に空間を形成することができるものであれば、如何なる形状であってもよい。
The lid portion 13 is detachably attached to the container main body portion 12 so as to close the opening 124a at the upper end of the container main body portion 12. The lid portion 13 has a substantially disk-shaped upper wall portion 131 and a peripheral wall portion 132 that hangs down from the outer peripheral end of the upper wall portion 131 and is one size larger than the small diameter portion 124 of the container main body portion 12. However, the filtration container portion 11 may have any shape as long as it can form a space inside.
この蓋部13の上壁部131には、被処理水を濾過容器部11の内部に導入するための導入孔131aが設けられている。また、容器本体部12の底壁部121には、濾過部15を通過した被処理水(処理水:濾過水)を濾過容器部11の外部に導出するための導出孔121aが設けられている。
The upper wall portion 131 of the lid portion 13 is provided with an introduction hole 131a for introducing the water to be treated into the inside of the filtration container portion 11. Further, the bottom wall portion 121 of the container main body portion 12 is provided with a lead-out hole 121a for leading out the water to be treated (treated water: filtered water) that has passed through the filtration portion 15 to the outside of the filtration container portion 11. ..
このように、本実施形態では、濾過容器部11における上流側突部(上流側係止部)126aよりも上流側に、被処理水を導入する導入孔131aが形成されている。
As described above, in the present embodiment, the introduction hole 131a for introducing the water to be treated is formed on the upstream side of the upstream side protrusion (upstream side locking portion) 126a in the filtration container portion 11.
押さえ部材14としては、図6に示すように、面全体に略均一に孔部14aを設けた板部材を用いることができる。このような板部材としては、例えば、パンチング板を用いることができる。また、押さえ部材14は、強度が高い不織布も用いることができる。押さえ部材14をこのような構成にすることで、被処理水が通水する際に、被処理水を濾過容器部11の軸方向へ均等に流すことができる。そのため、濾過容器部11の中心部分に被処理水が集中する状態を防ぎ、水処理用濾材1等の全体で長期間に亘って高い浄化性能を維持することができる。
As the pressing member 14, as shown in FIG. 6, a plate member having holes 14a provided substantially uniformly on the entire surface can be used. As such a plate member, for example, a punching plate can be used. Further, as the pressing member 14, a non-woven fabric having high strength can also be used. By forming the pressing member 14 in such a configuration, when the water to be treated passes, the water to be treated can be evenly flowed in the axial direction of the filtration container portion 11. Therefore, it is possible to prevent the water to be treated from concentrating on the central portion of the filter container portion 11, and to maintain high purification performance for a long period of time as a whole of the water treatment filter medium 1 and the like.
ここで、本実施形態では、濾過部15の上面や下面を覆うように配置される押さえ部材14が、濾過部15よりも面積が小さい開口部124aから出し入れできるようにしている。
Here, in the present embodiment, the pressing member 14 arranged so as to cover the upper surface and the lower surface of the filtration unit 15 can be taken in and out through the opening 124a having a smaller area than the filtration unit 15.
具体的には、濾過部15の上面や下面を覆うことができる状態から、開口部124aからの出し入れが可能となる状態へと押さえ部材14を可逆的に変位させることができるようにしている。そして、押さえ部材14を、開口部124aからの出し入れが可能となる状態へと変位させることで、開口部124aから出し入れできるようにしている。
Specifically, the pressing member 14 can be reversibly displaced from a state in which the upper surface and the lower surface of the filtration unit 15 can be covered to a state in which the pressing member 14 can be taken in and out from the opening 124a. Then, the pressing member 14 is displaced to a state where it can be taken in and out of the opening 124a so that it can be taken in and out of the opening 124a.
本実施形態では、押さえ部材14は、複数に分割された分割体141を備えている。そして、押さえ部材14は、複数の分割体141を相対移動させることで展開したり、折り畳んだりすることができるようにしている。
In the present embodiment, the pressing member 14 includes a divided body 141 divided into a plurality of parts. The pressing member 14 can be unfolded or folded by relatively moving the plurality of divided bodies 141.
具体的には、押さえ部材14は、図6に示すように、2つの半円状の分割体141を備えている。そして、ヒンジ142により、2つの分割体141を直線部分で連結させている。このとき、2つの分割体141は、一方の分割体141を他方の分割体14に対して0°~180°の間で相対移動させることができるようにヒンジ142によって連結されている。こうすることで、平面視で略円板状となる展開状態と、平面視で略半円状となる折り畳み状態との間で可逆的に変位させられるようにしている。
Specifically, as shown in FIG. 6, the pressing member 14 includes two semicircular divided bodies 141. Then, the two divided bodies 141 are connected by a hinge 142 at a straight line portion. At this time, the two divided bodies 141 are connected by a hinge 142 so that one divided body 141 can be relatively moved between 0 ° and 180 ° with respect to the other divided body 14. By doing so, it is possible to reversibly displace between the unfolded state which is substantially a disk shape in a plan view and the folded state which is a substantially semicircular shape in a plan view.
なお、本実施形態では、上流側固定板14Aと下流側固定板14Bとが略同一の形状をしている。すなわち、共通の構造を有する押さえ部材14を用い、下流側に配置した押さえ部材14を下流側固定板14Bとし、上流側に配置した押さえ部材14を上流側固定板14Aとしている。
In the present embodiment, the upstream side fixing plate 14A and the downstream side fixing plate 14B have substantially the same shape. That is, using the pressing member 14 having a common structure, the pressing member 14 arranged on the downstream side is the downstream fixing plate 14B, and the pressing member 14 arranged on the upstream side is the upstream fixing plate 14A.
そして、押さえ部材14(上流側固定板14A及び下流側固定板14B)の外周側が被係止部14bとなっている。
Then, the outer peripheral side of the pressing member 14 (upstream side fixing plate 14A and downstream side fixing plate 14B) is the locked portion 14b.
押さえ部材14の形状をこのような形状とすることで、濾過部15よりも面積が小さい開口部124aから挿入された押さえ部材14によって、濾過部15に配置された水処理用濾材1等の上面や下面のほぼ全面が押圧されるようにしている。
By making the shape of the pressing member 14 such a shape, the upper surface of the water treatment filter medium 1 or the like arranged in the filtering portion 15 by the pressing member 14 inserted from the opening 124a having an area smaller than that of the filtering portion 15. And almost the entire surface of the lower surface is pressed.
したがって、本実施形態では、押さえ部材14および水処理用濾材1等は、下記のようにして容器本体部12の内部に導入される。なお、下記の方法は一例に過ぎず、他の方法を用いることも可能である。
Therefore, in the present embodiment, the pressing member 14 and the water treatment filter medium 1 and the like are introduced into the container main body 12 as follows. The following method is only an example, and other methods can be used.
まず、1つ(1枚)の押さえ部材14を、半円状に折り畳んだ状態で容器本体部12の内部に導入する。そして、容器本体部12の内部に導入された押さえ部材14を、上流側突部126aよりも下流側かつ下流側突部126bよりも上流側で、略円板状となるように展開する。そして、略円板状となるように展開した状態で、外周側の被係止部14bを下流側突部126bの上面に載置(解除可能に係止)させることで、下流側固定板14Bが、容器本体部12に着脱自在に設けられるようにする。
First, one (one) pressing member 14 is introduced into the container main body 12 in a state of being folded into a semicircle. Then, the pressing member 14 introduced into the container main body portion 12 is developed so as to have a substantially disk shape on the downstream side of the upstream side protrusion 126a and on the upstream side of the downstream side protrusion 126b. Then, in a state of being deployed so as to have a substantially disk shape, the locked portion 14b on the outer peripheral side is placed on the upper surface of the downstream protruding portion 126b (locked so that it can be released), so that the downstream fixing plate 14B However, the container body 12 is detachably provided.
次に、水処理用濾材1等を容器本体部12の内部に導入して、下流側突部126bの上面に載置された押さえ部材14(下流側固定板14B)の上に配置する。このとき、押さえ部材14の上に配置される水処理用濾材1等としては、図1~図4に示したものを用いることができる。
Next, the water treatment filter medium 1 and the like are introduced into the container main body portion 12 and placed on the pressing member 14 (downstream side fixing plate 14B) placed on the upper surface of the downstream side protrusion 126b. At this time, as the water treatment filter medium 1 or the like arranged on the pressing member 14, the ones shown in FIGS. 1 to 4 can be used.
例えば、複数枚のシート状の水処理用濾材1等を、容器本体部12の内部に直接導入する場合、複数枚のシート状の水処理用濾材1等を、容器本体部12の内部にランダムに投入することができる。こうすれば、水処理用濾材1等を、折り畳まれて積層された状態や、いわゆるくしゃくしゃの状態で、押さえ部材14(下流側固定板14B)の上に配置させることができるようになる。
For example, when a plurality of sheet-shaped water treatment filter media 1 and the like are directly introduced into the container body 12, a plurality of sheet-shaped water treatment filter media 1 and the like are randomly placed inside the container body 12. Can be thrown into. In this way, the water treatment filter medium 1 and the like can be arranged on the pressing member 14 (downstream side fixing plate 14B) in a folded and laminated state or in a so-called crumpled state.
そして、下流側固定板14Bの上に水処理用濾材1等を配置した状態で、他の押さえ部材14を半円状に折り畳んだ状態で容器本体部12の内部に導入する。その後、容器本体部12の内部に導入された押さえ部材14を、下流側が離れるように半開き状態とし、この状態で押さえ部材14を下方に移動させるようにする。
Then, with the water treatment filter medium 1 and the like placed on the downstream fixing plate 14B, the other pressing member 14 is folded into a semicircle and introduced into the container body 12. After that, the pressing member 14 introduced into the container main body 12 is opened in a half-open state so that the downstream side is separated, and the pressing member 14 is moved downward in this state.
このとき、半開き状態の押さえ部材14は、下流側固定板14Bの上に配置された水処理用濾材1等を押圧しながら、略円板状となるように展開することになる。そして、略円板状となるように展開した状態で、外周側の被係止部14bが上流側突部126aの下面と対向することになる。そして、押さえ部材14の下流側への押圧を緩めると、圧縮された水処理用濾材1等の復元力により押さえ部材14が上方(上流側)に移動し、被係止部14bが上流側突部126aの下面に当接(解除可能に係止)する。こうして、上流側固定板14Aが、容器本体部12に着脱自在に設けられる。
At this time, the holding member 14 in the half-opened state is developed so as to have a substantially disk shape while pressing the water treatment filter medium 1 or the like arranged on the downstream fixing plate 14B. Then, the locked portion 14b on the outer peripheral side faces the lower surface of the upstream protruding portion 126a in a state of being unfolded so as to have a substantially disk shape. Then, when the pressing of the pressing member 14 toward the downstream side is released, the pressing member 14 moves upward (upstream side) due to the restoring force of the compressed water treatment filter medium 1 or the like, and the locked portion 14b collides with the upstream side. It abuts (locks releasably) on the lower surface of the portion 126a. In this way, the upstream fixing plate 14A is detachably provided on the container main body 12.
このとき、濾過部15に配置された水処理用濾材1等が、折り畳まれて積層された状態やくしゃくしゃの状態で圧縮されるようにするのが好ましい。
At this time, it is preferable that the water treatment filter medium 1 and the like arranged in the filtration unit 15 are compressed in a folded and laminated state or in a crumpled state.
こうすれば、水処理用濾材1等の押しつぶされた細孔4が濾過部15(繊維濾過部151)の全体に形成されて、水処理用濾材1等を立体的に使用することができるようになる。
By doing so, the crushed pores 4 of the water treatment filter medium 1 and the like are formed in the entire filtration section 15 (fiber filtration section 151) so that the water treatment filter medium 1 and the like can be used three-dimensionally. become.
また、濾過部15の少なくとも一部が、ネット5に包まれた水処理用濾材1等により形成されるようにしてもよい。
Further, at least a part of the filtration unit 15 may be formed by a water treatment filter medium 1 or the like wrapped in a net 5.
ここで、水処理用濾材1等は、圧縮するほど密になり、被処理水中の微小な不溶解成分、例えば、ミクロンオーダーの不溶解成分を除去することができる。ミクロンオーダーの不溶解成分を除去できるレベルまで水処理用濾材1等を圧縮するためには、例えば、下記のようにすればよい。すなわち、より多量の水処理用濾材1等を、上流側固定板14Aと下流側固定板14Bとの間に配置し、上流側固定板14Aと下流側固定板14Bとで圧縮することで、所定の濾過性能を有する濾過部15(繊維濾過部151)となるようにすればよい。
Here, the water treatment filter medium 1 and the like become denser as they are compressed, and minute insoluble components in the water to be treated, for example, micron-order insoluble components can be removed. In order to compress the water treatment filter medium 1 and the like to a level at which insoluble components on the order of microns can be removed, for example, the following may be performed. That is, a larger amount of the filter medium 1 for water treatment is arranged between the upstream side fixing plate 14A and the downstream side fixing plate 14B, and is compressed by the upstream side fixing plate 14A and the downstream side fixing plate 14B. The filtration unit 15 (fiber filtration unit 151) having the filtration performance of the above may be used.
これによって、水処理用濾材1等が立体的に使用されるため、砂濾材よりも高性能な濾過を行うことが可能となる。
As a result, the water treatment filter medium 1 and the like are used three-dimensionally, so that it is possible to perform filtration with higher performance than the sand filter medium.
このように、上流側固定板14Aと下流側固定板14Bとの間に配置する水処理用濾材1等の量を適宜設定することで、所望の濾過性能を有する濾過部15(繊維濾過部151)とすることができる。
In this way, by appropriately setting the amount of the water treatment filter medium 1 or the like arranged between the upstream side fixing plate 14A and the downstream side fixing plate 14B, the filtration unit 15 having the desired filtration performance (fiber filtration unit 151). ) Can be.
なお、上流側固定板14Aを係止する上流側突部126aを、上下方向(水処理用濾過装置10の通水方向)に沿って離間した状態で複数個所に設けるようにしてもよい。こうすれば、同量の水処理用濾材1等を用いた場合であっても、上流側固定板14Aを係止する上流側突部126aの位置に応じて、水処理用濾材1等の圧縮量を段階的に変化させることができるようになる。
Note that the upstream side protrusions 126a for locking the upstream side fixing plate 14A may be provided at a plurality of locations in a state of being separated along the vertical direction (water flow direction of the water treatment filtration device 10). By doing so, even when the same amount of the water treatment filter medium 1 or the like is used, the water treatment filter medium 1 or the like is compressed according to the position of the upstream side protrusion 126a that locks the upstream side fixing plate 14A. The amount can be changed step by step.
なお、図7に示す押さえ部材14とすることも可能である。図7に示す押さえ部材14は、3枚以上(図7では8枚)の平面視で略扇型をした分割体141を用いて形成されている。具体的には、8枚の扇形の分割体141の先端部を軸部143にそれぞれ連結し、各分割体141を他の分割体に対して周方向にスライドさせることで、展開したり、折り畳んだりすることができるようにしている。
It is also possible to use the pressing member 14 shown in FIG. 7. The pressing member 14 shown in FIG. 7 is formed by using three or more (8 members in FIG. 7) divided bodies 141 having a substantially fan shape in a plan view. Specifically, the tips of the eight fan-shaped split bodies 141 are connected to the shaft portion 143, and each split body 141 is slid in the circumferential direction with respect to the other split bodies to be unfolded or folded. I am trying to be able to hang out.
このように、図7に示す押さえ部材14は、複数に分割された分割体141を備えている。そして、図7に示す押さえ部材14は、複数の分割体141を相対移動させることで展開したり、折り畳んだりすることができるようにしている。
As described above, the pressing member 14 shown in FIG. 7 includes a divided body 141 divided into a plurality of parts. The pressing member 14 shown in FIG. 7 can be unfolded or folded by relatively moving the plurality of divided bodies 141.
そして、このような押さえ部材14を用いても、濾過部15よりも面積が小さい開口部124aから挿入さして、濾過部15に配置された水処理用濾材1等の上面や下面のほぼ全面を押圧することができる。
Even if such a pressing member 14 is used, it is inserted through the opening 124a having an area smaller than that of the filtration unit 15 and presses almost the entire upper surface or lower surface of the water treatment filter medium 1 or the like arranged in the filtration unit 15. can do.
また、図8に示す水処理用濾過装置10とすることも可能である。図8に示す水処理用濾過装置10も、基本的には、図5に示した水処理用濾過装置10とほぼ同様の構成をしている。
It is also possible to use the water treatment filtration device 10 shown in FIG. The water treatment filtration device 10 shown in FIG. 8 basically has substantially the same configuration as the water treatment filtration device 10 shown in FIG.
ここで、図8に示す水処理用濾過装置10では、被処理水を濾過容器部11の内部に導入するための導入孔124bが、蓋部13の上壁部131ではなく、周壁部122の上部(小径部124)に設けられている。この導入孔124bも、濾過容器部11における上流側突部(上流側係止部)126aよりも上流側に形成されている。
Here, in the water treatment filtration device 10 shown in FIG. 8, the introduction hole 124b for introducing the water to be treated into the inside of the filtration container portion 11 is not the upper wall portion 131 of the lid portion 13, but the peripheral wall portion 122. It is provided on the upper part (small diameter portion 124). The introduction hole 124b is also formed on the upstream side of the upstream side protrusion (upstream side locking portion) 126a in the filtration container portion 11.
また、図8に示す水処理用濾過装置10においても、容器本体部12の大径部123の内面に、上流側固定板(繊維濾材3よりも上流側に配置される押さえ部材)14Aを係止する上流側係止部としての上流側突部126aが設けられている。また、容器本体部12の大径部123の内面における上流側突部126aよりも下流側には、下流側固定板(繊維濾材3よりも下流側に配置される押さえ部材)14Bを係止する下流側係止部としての下流側突部126bが設けられている。
Further, also in the water treatment filtration device 10 shown in FIG. 8, an upstream side fixing plate (holding member arranged on the upstream side of the fiber filter medium 3) 14A is engaged with the inner surface of the large diameter portion 123 of the container main body portion 12. An upstream side protrusion 126a is provided as an upstream side locking part to stop. Further, a downstream side fixing plate (holding member arranged on the downstream side of the fiber filter medium 3) 14B is locked on the downstream side of the upstream side protrusion 126a on the inner surface of the large diameter portion 123 of the container main body portion 12. A downstream side protrusion 126b is provided as a downstream side locking part.
ここで、図8に示す水処理用濾過装置10では、上流側突部126aは、大径部123の内面から内側(中心軸側)に向けて突出するように形成されており、略水平方向に延在するように全周に亘って形成されている。同様に、下流側突部126bも、大径部123の内面から内側(中心軸側)に向けて突出するように形成されており、略水平方向に延在するように全周に亘って形成されている。
Here, in the water treatment filtration device 10 shown in FIG. 8, the upstream side protrusion 126a is formed so as to project from the inner surface of the large diameter portion 123 toward the inside (central axis side), and is formed in a substantially horizontal direction. It is formed over the entire circumference so as to extend to. Similarly, the downstream side protrusion 126b is also formed so as to project from the inner surface of the large diameter portion 123 toward the inside (central axis side), and is formed over the entire circumference so as to extend substantially in the horizontal direction. Has been done.
そして、上流側固定板14Aおよび下流側固定板14Bとして、図9に示すような押さえ部材14を用いている。
Then, as the upstream side fixing plate 14A and the downstream side fixing plate 14B, the pressing member 14 as shown in FIG. 9 is used.
図9に示す押さえ部材14(上流側固定板14A及び下流側固定板14B)は、ゴムなどの弾性を有する材料で形成されており、全体を弾性変形させながら撓ませることができるようになっている。
The pressing member 14 (upstream side fixing plate 14A and downstream side fixing plate 14B) shown in FIG. 9 is made of an elastic material such as rubber, and can be flexed while elastically deforming the whole. There is.
そして、押さえ部材14および水処理用濾材1等は、下記のようにして容器本体部12の内部に導入される。なお、下記の方法は一例に過ぎず、他の方法を用いることも可能である。
Then, the pressing member 14 and the water treatment filter medium 1 and the like are introduced into the container main body 12 as follows. The following method is only an example, and other methods can be used.
まず、1つ(1枚)の押さえ部材14を図9(b)に示すように湾曲させて、容器本体部12の内部に導入する。
First, one (one) pressing member 14 is curved as shown in FIG. 9 (b) and introduced into the container main body 12.
そして、容器本体部12の内部で押さえ部材14を展開し、外周側の被係止部14bを下流側突部126bの上面に載置(解除可能に係止)させることで、下流側固定板14Bが、容器本体部12に着脱自在に設けられるようにする。
Then, the pressing member 14 is deployed inside the container body 12, and the locked portion 14b on the outer peripheral side is placed (locked releasably) on the upper surface of the downstream protruding portion 126b, whereby the downstream fixing plate is fixed. 14B is detachably provided on the container main body 12.
具体的には、展開させた押さえ部材14の外周縁を上流側突部126aの上面に当接させた状態で、押さえ部材14を下方に向けて強く押し込んで、押さえ部材14を撓ませる。こうすることで、押さえ部材14の外周縁が上流側突部126aを乗り越えて、押さえ部材14が上流側突部126aの下流側に移動することになる。そして、そのままの状態でさらに下流側に移動させれば、被係止部14bが下流側突部126bの上面に載置される。
Specifically, with the outer peripheral edge of the deployed pressing member 14 in contact with the upper surface of the upstream side protrusion 126a, the pressing member 14 is strongly pushed downward to bend the pressing member 14. By doing so, the outer peripheral edge of the pressing member 14 gets over the upstream protruding portion 126a, and the pressing member 14 moves to the downstream side of the upstream protruding portion 126a. Then, if the locked portion 14b is further moved to the downstream side in the same state, the locked portion 14b is placed on the upper surface of the downstream side protrusion 126b.
なお、最初に導入する押さえ部材14については、容器本体部12の内部への導入後に、下記のようにすることも可能である。まず、容器本体部12の内部に導入された押さえ部材14を、上流側突部126aよりも下流側かつ下流側突部126bよりも上流側で、略円板状となるように展開する。そして、略円板状となるように展開した状態で、外周側の被係止部14bを下流側突部126bの上面に載置(解除可能に係止)させることで、下流側固定板14Bが、容器本体部12に着脱自在に設けられるようにする。
It should be noted that the pressing member 14 to be introduced first can be as follows after being introduced into the container main body 12. First, the pressing member 14 introduced into the container body 12 is developed so as to have a substantially disk shape on the downstream side of the upstream side protrusion 126a and on the upstream side of the downstream side protrusion 126b. Then, in a state of being deployed so as to have a substantially disk shape, the locked portion 14b on the outer peripheral side is placed on the upper surface of the downstream protruding portion 126b (locked so that it can be released), so that the downstream fixing plate 14B However, the container body 12 is detachably provided.
次に、水処理用濾材1等を容器本体部12の内部に導入して、下流側突部126bの上面に載置された押さえ部材14(下流側固定板14B)の上に配置する。このとき、押さえ部材14の上に配置される水処理用濾材1等としては、図1~図4に示したものを用いることができる。
Next, the water treatment filter medium 1 and the like are introduced into the container main body portion 12 and placed on the pressing member 14 (downstream side fixing plate 14B) placed on the upper surface of the downstream side protrusion 126b. At this time, as the water treatment filter medium 1 or the like arranged on the pressing member 14, the ones shown in FIGS. 1 to 4 can be used.
そして、下流側固定板14Bの上に水処理用濾材1等を配置した状態で、他の押さえ部材14を、図9(b)に示すように湾曲させた状態で容器本体部12の内部に導入して、下方に向けて強く押し込む。こうすることで、他の押さえ部材14を上流側突部126aの下流側に移動させて、上流側固定板14Aが、容器本体部12に着脱自在に設けられるようにする。
Then, with the water treatment filter medium 1 and the like placed on the downstream fixing plate 14B, the other pressing member 14 is curved as shown in FIG. 9B inside the container main body 12. Introduce and push strongly downward. By doing so, the other pressing member 14 is moved to the downstream side of the upstream side protrusion 126a so that the upstream side fixing plate 14A is detachably provided on the container main body portion 12.
なお、図5、図8に開示の水処理用濾過装置10において、押さえ部材14の被係止部14bを係止する係止部としての凹部127を大径部123の内面に形成してもよい(図10参照)。そして、押さえ部材14の被係止部14bを凹部127に挿入することで、押さえ部材14が、容器本体部12に着脱自在に設けられるようにしてもよい。
In the water treatment filtration device 10 disclosed in FIGS. 5 and 8, even if a recess 127 as a locking portion for locking the locked portion 14b of the pressing member 14 is formed on the inner surface of the large diameter portion 123. Good (see Figure 10). Then, by inserting the locked portion 14b of the pressing member 14 into the recess 127, the pressing member 14 may be detachably provided in the container main body portion 12.
次に、このような水処理用濾過装置10の作用について説明する。蓋部13の導入孔131aや小径部124の導入孔124bを通じて濾過容器部11の内部に導入された被処理水は、上流側固定板14Aの孔部14aを通過して、水処理用濾材1に到達する。水処理用濾材1は、繊維濾材3の各繊維2の表面にカチオン系凝集剤を担持しているため、被処理水中の不溶解成分の微粒子を静電気的に吸着しつつ、当該微粒子を互いに凝集させる。そして、不溶解成分の微粒子を繊維濾材3の各繊維2の表面に保持し、被処理水から不溶解成分を分離して除去する。水処理用濾材1を通過した被処理水は、下流側固定板14Bの孔部14aを通過して、容器本体部12の導出孔121aを通じて濾過容器部11の外部に導出される。
Next, the operation of such a water treatment filtration device 10 will be described. The water to be treated introduced into the inside of the filtration container portion 11 through the introduction hole 131a of the lid portion 13 and the introduction hole 124b of the small diameter portion 124 passes through the hole portion 14a of the upstream fixing plate 14A and is used as a water treatment filter medium 1. To reach. Since the water treatment filter medium 1 carries a cationic flocculant on the surface of each fiber 2 of the fiber filter medium 3, the fine particles of the insoluble component in the water to be treated are electrostatically adsorbed and the fine particles are aggregated with each other. Let me. Then, the fine particles of the insoluble component are held on the surface of each fiber 2 of the fiber filter medium 3, and the insoluble component is separated and removed from the water to be treated. The water to be treated that has passed through the water treatment filter medium 1 passes through the hole 14a of the downstream fixing plate 14B and is led out to the outside of the filtration container 11 through the lead-out hole 121a of the container body 12.
このように、本実施形態の水処理用濾過装置10は、水処理用濾材1と、水処理用濾材1を内部に保持する濾過容器部11とを備える。そして、濾過容器部11の内部では、押さえ部材14を用いることにより、水処理用濾材1を立体的(三次元的)に配置している。そのため、砂濾材よりも高性能な濾過を行いつつも、水処理用濾材1の目詰まりを抑制して、濾過性能を長期間に亘って高い状態に維持することができる。
As described above, the water treatment filtration device 10 of the present embodiment includes the water treatment filter medium 1 and the filtration container portion 11 that holds the water treatment filter medium 1 inside. Then, inside the filter container portion 11, the water treatment filter medium 1 is three-dimensionally (three-dimensionally) arranged by using the pressing member 14. Therefore, it is possible to suppress clogging of the water treatment filter medium 1 and maintain the filtration performance in a high state for a long period of time while performing filtration having higher performance than the sand filter medium.
水処理用濾過装置10では、水処理用濾材1を、上流側固定板14Aと下流側固定板14Bとの間で圧縮した状態で保持することにより、水処理用濾材1の繊維2の間の距離を接近させることができる。その結果、水処理用濾材1の捕集性能を向上させることが可能となる。
In the water treatment filtration device 10, the water treatment filter medium 1 is held between the upstream side fixing plate 14A and the downstream side fixing plate 14B in a compressed state, so that the water treatment filter medium 1 is between the fibers 2 of the water treatment filter medium 1. The distance can be reduced. As a result, it is possible to improve the collection performance of the water treatment filter medium 1.
また、水処理用濾過装置10において、濾過容器部11は、容器本体部12と蓋部13とを備えている。そのため、蓋部13を容器本体部12から取り外した後、上流側固定板14Aを取り外すことで、水処理用濾材1を容易に取り出すことができる。そして、必要に応じて、水処理用濾材1を洗浄したり取り替えたりすることができるため、水処理用濾過装置10の保守管理を容易に行うことができる。
Further, in the water treatment filtration device 10, the filtration container portion 11 includes a container main body portion 12 and a lid portion 13. Therefore, the water treatment filter medium 1 can be easily taken out by removing the upstream side fixing plate 14A after removing the lid portion 13 from the container main body portion 12. Then, since the water treatment filter medium 1 can be washed or replaced as needed, the maintenance and management of the water treatment filtration device 10 can be easily performed.
[水処理システム]
次に、上述した水処理用濾過装置10を用いた水処理システムについて説明する。図11に示すように、本実施形態の水処理用濾過装置10は、水処理システム100に組み込まれている。水処理システム100は、主流路20を備えている。主流路20の一端は、地中に存在する井水又は水道水である被処理水Wに到達している。そして、主流路20の他端は、蛇口50に接続されている。 [Water treatment system]
Next, a water treatment system using the above-mentioned watertreatment filtration device 10 will be described. As shown in FIG. 11, the water treatment filtration device 10 of the present embodiment is incorporated in the water treatment system 100. The water treatment system 100 includes a main flow path 20. One end of the main flow path 20 reaches the treated water W, which is well water or tap water existing in the ground. The other end of the main flow path 20 is connected to the faucet 50.
次に、上述した水処理用濾過装置10を用いた水処理システムについて説明する。図11に示すように、本実施形態の水処理用濾過装置10は、水処理システム100に組み込まれている。水処理システム100は、主流路20を備えている。主流路20の一端は、地中に存在する井水又は水道水である被処理水Wに到達している。そして、主流路20の他端は、蛇口50に接続されている。 [Water treatment system]
Next, a water treatment system using the above-mentioned water
主流路20における薬剤溶解装置30の上流には、ポンプPが接続されている。ポンプPは、主流路20に沿って被処理水Wを汲み上げる。このようなポンプPとしては、例えば、アキュムレータと圧力スイッチとを備えた電動ポンプを使用することができる。ポンプPによって汲み上げられた被処理水Wは、薬剤溶解装置30に導入され、薬剤溶解装置30によって、例えば、塩素系薬剤が一定量溶解される。
A pump P is connected upstream of the drug dissolving device 30 in the main flow path 20. The pump P pumps the water to be treated W along the main flow path 20. As such a pump P, for example, an electric pump provided with an accumulator and a pressure switch can be used. The water W to be treated pumped up by the pump P is introduced into the drug dissolving device 30, and the drug dissolving device 30, for example, dissolves a certain amount of chlorine-based chemicals.
主流路20における薬剤溶解装置30の下流には、水処理用濾過装置10及び塩素除去槽40が接続されている。塩素除去槽40は、被処理水Wに含まれる過剰な塩素を除去する。塩素除去槽40としては、容器の内部に活性炭の粒子を充填したものを使用する。
A water treatment filtration device 10 and a chlorine removal tank 40 are connected downstream of the drug dissolving device 30 in the main flow path 20. The chlorine removing tank 40 removes excess chlorine contained in the water to be treated W. As the chlorine removal tank 40, a container filled with activated carbon particles is used.
なお、活性炭の粒子を充填した塩素除去槽40を、水処理用濾過装置10の内部における繊維濾過部151が形成された部位よりも下流側に設けるようにしてもよい。
The chlorine removing tank 40 filled with activated carbon particles may be provided on the downstream side of the portion where the fiber filtration portion 151 is formed inside the water treatment filtration device 10.
また、図示しないが、水処理システム100において、薬剤溶解装置30と水処理用濾過装置10との間には、被処理水Wに含まれる不溶解成分の微粒子の凝集を促進する凝集促進部を介在させてもよい。凝集促進部は、主流路20に直接接続することができ、例えば、特許第6519934号公報に記載のものを使用することができる。
Further, although not shown, in the water treatment system 100, an aggregation promoting portion for promoting aggregation of fine particles of insoluble components contained in the water to be treated W is provided between the drug dissolving device 30 and the water treatment filtering device 10. It may be intervened. The aggregation promoting portion can be directly connected to the main flow path 20, and for example, the one described in Japanese Patent No. 6519934 can be used.
なお、水処理用濾過装置10の繊維濾過部151が形成された部位よりも上流側には、導入孔131aや導入孔124bから導入された被処理水を一時的に滞留させることが可能な空間が形成されている。具体的には、蓋部13の上壁部131と上流側突部126aとの間に、被処理水を一時的に滞留させることが可能な空間が形成されている。そのため、この空間部を被処理水Wに含まれる不溶解成分の微粒子の凝集を促進する凝集促進部として機能させるようにしてもよい。この空間は、所定流量(例えば、約6.3L/min)の被処理水を導入した際に、被処理水が所定時間(例えば、約75秒)この空間内に滞留するように形成することができる。
A space in which the water to be treated introduced from the introduction hole 131a or the introduction hole 124b can be temporarily retained on the upstream side of the portion where the fiber filtration portion 151 of the water treatment filtration device 10 is formed. Is formed. Specifically, a space is formed between the upper wall portion 131 of the lid portion 13 and the upstream projecting portion 126a so that the water to be treated can be temporarily retained. Therefore, this space portion may function as an aggregation promoting portion that promotes aggregation of fine particles of insoluble components contained in the water to be treated W. This space is formed so that when the water to be treated has a predetermined flow rate (for example, about 6.3 L / min), the water to be treated stays in this space for a predetermined time (for example, about 75 seconds). Can be done.
このような水処理システム100では、まずポンプPが稼働して、地中に存在する井水又は水道水である被処理水Wを汲み上げる。汲み上げられた被処理水Wは、薬剤溶解装置30を通過することで、次亜塩素酸ナトリウム水溶液などの塩素系薬剤が投入される。被処理水Wに塩素系薬剤が投入されることで、例えば、被処理水W中の鉄イオンがコロイド状のケイ酸鉄になる前に、不溶性の水酸化鉄(Fe(OH)3)となる。
In such a water treatment system 100, the pump P first operates to pump up the well water or tap water to be treated W existing in the ground. The pumped water W to be treated passes through the chemical dissolution device 30, and a chlorine-based chemical such as an aqueous solution of sodium hypochlorite is introduced. By adding a chlorine-based chemical to the water W to be treated, for example, insoluble iron hydroxide (Fe (OH) 3) is formed before the iron ions in the water W to be treated become colloidal iron silicate. Become.
薬剤溶解装置30を通過することによって塩素系薬剤が溶解した被処理水Wは、水処理用濾過装置10を通過することで、不溶解成分が除去される。具体的には、主流路20は、水処理用濾過装置10における蓋部13の導入孔13c及び容器本体部12の導出孔12cに接続されている。そして、上述のように、被処理水Wが水処理用濾材1を通過することで、被処理水W中の不溶解成分が捕捉されて除去される。
The insoluble component of the water W to be treated, in which the chlorine-based chemical is dissolved by passing through the chemical dissolving device 30, is removed by passing through the water treatment filtration device 10. Specifically, the main flow path 20 is connected to the introduction hole 13c of the lid portion 13 and the outlet hole 12c of the container body portion 12 in the water treatment filtration device 10. Then, as described above, when the water to be treated W passes through the water treatment filter medium 1, the insoluble components in the water to be treated W are captured and removed.
水処理用濾過装置10を通過した被処理水Wは、塩素除去槽40を通過することで、過剰な塩素が除去される。そして、水処理用濾過装置10及び塩素除去槽40を通過して異物及び過剰な塩素が除去された水は、蛇口50から使用者に供給される。
Excess chlorine is removed from the water W to be treated that has passed through the water treatment filtration device 10 by passing through the chlorine removal tank 40. Then, the water from which the foreign matter and the excess chlorine have been removed through the water treatment filtration device 10 and the chlorine removal tank 40 is supplied to the user from the faucet 50.
このように、汲み上げられた被処理水Wは、薬剤溶解装置30、水処理用濾過装置10及び塩素除去槽40を通過することにより、不溶解成分及び過剰な塩素が除去される。そして、水処理用濾過装置10は、被処理水W中の不溶解成分の微粒子を高効率で分離することができるため、清潔な水を安定的に使用者に提供することができる。
In this way, the pumped water W to be treated passes through the chemical dissolution device 30, the water treatment filtration device 10, and the chlorine removal tank 40, so that insoluble components and excess chlorine are removed. Then, the water treatment filtration device 10 can separate the fine particles of the insoluble component in the water to be treated W with high efficiency, so that clean water can be stably provided to the user.
[作用・効果]
以下では、上記実施形態およびその変形例で示した水処理用濾過装置10の特徴的構成およびそれにより得られる効果を説明する。 [Action / Effect]
Hereinafter, the characteristic configuration of the watertreatment filtration device 10 shown in the above embodiment and its modified example and the effect obtained by the characteristic configuration will be described.
以下では、上記実施形態およびその変形例で示した水処理用濾過装置10の特徴的構成およびそれにより得られる効果を説明する。 [Action / Effect]
Hereinafter, the characteristic configuration of the water
本開示に係る水処理用濾過装置10は、被処理水が通水可能な濾過容器部11と、濾過容器部11の内部に設けられ、被処理水を濾過する濾過部15と、を備えている。
The water treatment filtration device 10 according to the present disclosure includes a filtration container portion 11 through which the water to be treated can pass, and a filtration unit 15 provided inside the filtration container portion 11 for filtering the water to be treated. There is.
さらに、水処理用濾過装置10は、濾過部15に配置され、濾過容器部11の内部への出し入れが可能な繊維濾材3と、濾過部15に配置された繊維濾材3を圧縮させた状態で押さえる押さえ部材14と、を備えている。
Further, the water treatment filtration device 10 is arranged in the filtration unit 15, and the fiber filter medium 3 that can be taken in and out of the filtration container unit 11 and the fiber filter medium 3 arranged in the filtration unit 15 are compressed. A pressing member 14 for pressing is provided.
そして、濾過容器部11は、押さえ部材14の出し入れが可能な開口部124aが形成された容器本体部12と、開口部124aを開閉する蓋部13と、を有している。
Then, the filtration container portion 11 has a container main body portion 12 in which an opening 124a through which the pressing member 14 can be taken in and out is formed, and a lid portion 13 for opening and closing the opening 124a.
また、開口部124aの面積が、濾過部15の面積よりも小さくなっており、押さえ部材14が、開口部124aからの出し入れが可能となるように変位する。
Further, the area of the opening 124a is smaller than the area of the filtration portion 15, and the pressing member 14 is displaced so that it can be taken in and out of the opening 124a.
このように、本開示に係る水処理用濾過装置10では、押さえ部材14および繊維濾材3が容器本体部12の開口部124aから出し入れできるように構成されている。そのため、繊維濾材3を簡単に取り出すことができ、より容易に繊維濾材3の洗浄を行うことができる。
As described above, the water treatment filtration device 10 according to the present disclosure is configured so that the pressing member 14 and the fiber filter medium 3 can be taken in and out from the opening 124a of the container main body 12. Therefore, the fiber filter medium 3 can be easily taken out, and the fiber filter medium 3 can be washed more easily.
また、繊維濾材3を容器本体部12から取り出して洗浄することができるため、水処理用濾過装置10に逆洗等の機構を設ける必要がなくなり、構成の簡素化を図ることができる。
Further, since the fiber filter medium 3 can be taken out from the container main body 12 and washed, it is not necessary to provide a mechanism such as backwashing in the water treatment filtration device 10, and the configuration can be simplified.
また、繊維濾材3を濾過フィルターとして用いることで、繊維濾材3を立体的(3次元的)に使うことが可能となる。その結果、砂濾材よりも高性能な濾過を行いつつも、繊維濾材3の目詰まりを抑制して、濾過性能を長期間に亘って高い状態に維持することができる。
Further, by using the fiber filter medium 3 as a filtration filter, the fiber filter medium 3 can be used three-dimensionally (three-dimensionally). As a result, it is possible to suppress clogging of the fiber filter medium 3 and maintain the filtration performance in a high state for a long period of time while performing filtration having higher performance than that of the sand filter medium.
また、繊維濾材3を濾過フィルターとして用いているので、使用後に手洗い又は洗濯機で洗浄して、付着した汚れを容易に除去することが可能となる。その結果、繊維濾材3を何度も再利用することができるようになる。
Further, since the fiber filter medium 3 is used as a filtration filter, it is possible to easily remove the adhering stains by hand washing or washing with a washing machine after use. As a result, the fiber filter medium 3 can be reused many times.
さらに、繊維濾材3は、圧縮させた状態で使用されている。そのため、繊維濾材3は、繰返しの洗浄により繊維濾材3の一部が破損した場合であっても、問題なく使用し続けることができ、耐久性に優れている。
Further, the fiber filter medium 3 is used in a compressed state. Therefore, the fiber filter medium 3 can continue to be used without any problem even if a part of the fiber filter medium 3 is damaged by repeated cleaning, and is excellent in durability.
また、圧縮させた繊維濾材3を濾過フィルターとして用いることで、比較的安価な繊維濾材3を用いて、処理能力の高いフィルターを得ることができる。
Further, by using the compressed fiber filter medium 3 as a filtration filter, it is possible to obtain a filter having a high processing capacity by using the relatively inexpensive fiber filter medium 3.
また、圧縮された状態(細孔4が小さい状態)の繊維濾材3で濾過を行い、圧縮されていない状態(細孔4が大きい状態)の繊維濾材3で洗浄を行うことになるため、線状時に、捕捉された不溶解成分をより容易に繊維濾材3から取り除くことができるようになる。
Further, since the fiber filter medium 3 in the compressed state (the state in which the pores 4 are small) is used for filtration and the fiber filter medium 3 in the uncompressed state (the state in which the pores 4 are large) is used for cleaning. At the time of the state, the captured insoluble component can be more easily removed from the fiber filter medium 3.
また、開口部124aの面積を、濾過部15の面積よりも小さくすることで、開口部124aを開閉する蓋部13にかかる圧力を小さくすることができ、濾過容器部11が破損してしまうことを抑制することができる。
Further, by making the area of the opening 124a smaller than the area of the filtration portion 15, the pressure applied to the lid portion 13 that opens and closes the opening 124a can be reduced, and the filtration container portion 11 is damaged. Can be suppressed.
また、押さえ部材14を開口部124aからの出し入れが可能となるように変位させるようにすれば、蓋部13にかかる圧力を小さくした水処理用濾過装置10においても、繊維濾材3を簡単に取り出すことができるようになる。
Further, if the pressing member 14 is displaced so that it can be taken in and out of the opening 124a, the fiber filter medium 3 can be easily taken out even in the water treatment filtration device 10 in which the pressure applied to the lid portion 13 is reduced. You will be able to do it.
このように、本開示によれば、構成の簡素化を図りつつランニングコストの増加を抑制することが可能な水処理用濾過装置10を得ることができる。
As described above, according to the present disclosure, it is possible to obtain the water treatment filtration device 10 capable of suppressing an increase in running cost while simplifying the configuration.
また、押さえ部材14は、複数に分割された分割体141を備え、複数の分割体141を相対移動させることで展開・折り畳み可能に構成されていてもよい。
Further, the pressing member 14 may include a plurality of divided bodies 141, and may be configured to be unfoldable and foldable by relatively moving the plurality of divided bodies 141.
こうすれば、より簡素な構成で、面積が小さい開口部124aから押さえ部材14を出し入れすることができるようになる。
By doing so, the pressing member 14 can be taken in and out from the opening 124a having a small area with a simpler configuration.
また、押さえ部材14は、2つの分割体141を備えており、一方の分割体141を他方の分割体141に0°~180°の間で相対移動できるように連結することで、展開・折り畳み可能に構成されていてもよい。
Further, the pressing member 14 includes two divided bodies 141, and by connecting one divided body 141 to the other divided body 141 so as to be relatively movable between 0 ° and 180 °, it can be unfolded and folded. It may be configured to be possible.
こうすれば、一方の分割体141を相対移動させるだけで、押さえ部材14を半分に折り畳んだり、円板状に展開させたりすることができる。そのため、押さえ部材14の展開・折り畳み作業をより容易に行うことができる。
In this way, the pressing member 14 can be folded in half or expanded into a disk shape by simply moving one of the divided bodies 141 relative to each other. Therefore, the pressing member 14 can be unfolded and folded more easily.
また、押さえ部材14が、容器本体部12に着脱自在に設けられるようにしてもよい。
Further, the pressing member 14 may be detachably provided on the container main body portion 12.
こうすれば、繊維濾材3をより容易かつ確実に容器本体部12から取り出すことができるようになる。
By doing so, the fiber filter medium 3 can be more easily and surely taken out from the container body 12.
また、濾過部15に配置された繊維濾材3が、くしゃくしゃの状態で圧縮されるようにしてもよい。
Further, the fiber filter medium 3 arranged in the filtration unit 15 may be compressed in a crumpled state.
こうすれば、繊維濾材3の押しつぶされた細孔4が濾過部15の全体に形成されて、繊維濾材3をより確実に立体的に使用することができるようになる。
By doing so, the crushed pores 4 of the fiber filter medium 3 are formed in the entire filtration section 15, and the fiber filter medium 3 can be used more reliably and three-dimensionally.
また、繊維濾材3が、シート状の繊維濾材3及び塊状の繊維濾材3のうち少なくともいずれか一方の濾材を含むようにしてもよい。
Further, the fiber filter medium 3 may include at least one of the sheet-shaped fiber filter medium 3 and the massive fiber filter medium 3.
こうすれば、濾過部15の形状等に合わせて、より最適な繊維濾材3を用いることができるようになる。
By doing so, it becomes possible to use the more optimal fiber filter medium 3 according to the shape of the filtration unit 15 and the like.
また、濾過部15は、繊維濾材3により形成される繊維濾過部151を有していてもよい。そして、1つ又は複数の繊維濾材3によって繊維濾過部151が充填されていてもよい。
Further, the filtration unit 15 may have a fiber filtration unit 151 formed by the fiber filter medium 3. Then, the fiber filtration unit 151 may be filled with one or more fiber filter media 3.
こうすれば、比較的安価な繊維濾材3を用いて、より処理能力の高い濾過フィルターを得ることができる。
By doing so, it is possible to obtain a filtration filter having a higher processing capacity by using the relatively inexpensive fiber filter medium 3.
また、濾過部15の少なくとも一部が、ネット5に包まれた繊維濾材3により形成されていてもよい。
Further, at least a part of the filtration unit 15 may be formed by the fiber filter medium 3 wrapped in the net 5.
こうすれば、繊維濾材3の容器本体部12への出し入れをより容易に行うことが可能となる。また、破れた繊維濾材3をネット5に充填させるようにすれば、1つの繊維濾材3とほぼ同様の機能を有する濾材とすることができる。
By doing so, the fiber filter medium 3 can be taken in and out of the container body 12 more easily. Further, if the net 5 is filled with the torn fiber filter medium 3, the filter medium having substantially the same function as one fiber filter medium 3 can be obtained.
また、繊維濾材3が、オレフィン系の繊維及びポリエステル系の繊維のうち少なくともいずれか一方の繊維で形成されていてもよい。
Further, the fiber filter medium 3 may be formed of at least one of an olefin-based fiber and a polyester-based fiber.
こうすれば、比較的安価な材料を用いて、繊維濾材3を形成することが可能となる。
In this way, the fiber filter medium 3 can be formed using a relatively inexpensive material.
また、繊維濾材3の繊維径の平均値が0.1~10μm、目付量が10g/m2以上となるようにしてもよい。
Further, the average value of the fiber diameter of the fiber filter medium 3 may be 0.1 to 10 μm, and the basis weight may be 10 g / m 2 or more.
このように、繊維濾材3を構成する繊維2の繊維径及び繊維濾材3の目付量を上記範囲内とすることにより、繊維濾材内部の比表面積が高まり、被処理水と凝集剤との接触性が向上するため、被処理水中の不溶解成分を効率的に捕捉することが可能となる。
By setting the fiber diameter of the fiber 2 constituting the fiber filter medium 3 and the basis weight of the fiber filter medium 3 within the above ranges, the specific surface area inside the fiber filter medium is increased, and the contact property between the water to be treated and the flocculant is increased. Therefore, it becomes possible to efficiently capture the insoluble components in the water to be treated.
また、押さえ部材14に手掛かり部144が形成されていてもよい。
Further, the clue portion 144 may be formed on the pressing member 14.
こうすれば、押さえ部材14を、より容易に容器本体部12に着脱させることができるようになる。
In this way, the pressing member 14 can be more easily attached to and detached from the container body 12.
また、容器本体部12には、繊維濾材3よりも上流側に配置される押さえ部材14Aを係止する上流側係止部126aが設けられていてもよい。
Further, the container main body portion 12 may be provided with an upstream side locking portion 126a for locking the pressing member 14A arranged on the upstream side of the fiber filter medium 3.
そして、濾過容器部11における上流側係止部126aよりも上流側に、被処理水を導入する導入孔131a,124bが形成されていてもよい。
Then, introduction holes 131a and 124b for introducing water to be treated may be formed on the upstream side of the filtration container portion 11 with respect to the upstream locking portion 126a.
こうすれば、導入孔131a,124bから導入された被処理水を一時的に濾過部15の上流側に滞留させることが可能となる。そのため、濾過部15よりも上流側を、例えば、被処理水Wに含まれる不溶解成分の微粒子の凝集を促進する凝集促進部として利用することが可能となる。
By doing so, the water to be treated introduced from the introduction holes 131a and 124b can be temporarily retained on the upstream side of the filtration unit 15. Therefore, the upstream side of the filtration unit 15 can be used, for example, as an aggregation promoting unit that promotes aggregation of fine particles of insoluble components contained in the water to be treated W.
また、容器本体部12が、被処理水の通水方向に延在する略円筒状の壁部122を有するようにしてもよい。
Further, the container main body portion 12 may have a substantially cylindrical wall portion 122 extending in the water flow direction of the water to be treated.
こうすれば、容器本体部12の内面を滑らかな湾曲面とすることができ、容器本体部12の内部にかかる応力が一部に集中してしまうことを抑制することができ、容器本体部12が破損してしまうことを抑制することができる。
By doing so, the inner surface of the container main body 12 can be made a smooth curved surface, and it is possible to prevent the stress applied to the inside of the container main body 12 from being concentrated on a part of the container main body 12. Can be prevented from being damaged.
また、押さえ部材14が、略円板状の上流側固定板14Aと、略円板状の下流側固定板14Bと、を有していてもよい。
Further, the pressing member 14 may have a substantially disk-shaped upstream fixing plate 14A and a substantially disk-shaped downstream fixing plate 14B.
また、容器本体部12には、上流側固定板14Aの上流側への移動を規制する上流側係止部126aと、下流側固定板14Bの下流側への移動を規制する下流側係止部126bと、が設けられていてもよい。
Further, the container body 12 has an upstream locking portion 126a that regulates the upstream movement of the upstream fixing plate 14A and a downstream locking portion that regulates the downstream locking of the downstream fixing plate 14B. 126b and may be provided.
そして、繊維濾材3が、上流側固定板14Aと下流側固定板14Bとの間で圧縮されるようにしてもよい。
Then, the fiber filter medium 3 may be compressed between the upstream side fixing plate 14A and the downstream side fixing plate 14B.
こうすれば、濾過部15の上流側と下流側を仕切る上流側固定板14Aと下流側固定板14Bの両方を取り出すことができるため、水処理用濾過装置10の清掃やメンテナンスをより容易に行うことができるようになる。
By doing so, both the upstream side fixing plate 14A and the downstream side fixing plate 14B that partition the upstream side and the downstream side of the filtration unit 15 can be taken out, so that the cleaning and maintenance of the water treatment filtration device 10 can be performed more easily. You will be able to do it.
また、上流側係止部126aが、容器本体部12の内側に向けて突出する上流側突部126aであり、下流側係止部126bが、容器本体部12の内側に向けて突出する下流側突部126bであってもよい。
Further, the upstream locking portion 126a is an upstream projecting portion 126a projecting inward of the container body 12, and the downstream locking portion 126b projects downstream toward the inside of the container body 12. It may be a protrusion 126b.
こうすれば、より確実に、上流側固定板14A及び下流側固定板14Bを係止することができるようになる。
By doing so, the upstream side fixing plate 14A and the downstream side fixing plate 14B can be locked more reliably.
以上、本実施形態に係る水処理用濾過装置を説明したが、本実施形態はこれらに限定されるものではなく、本実施形態の要旨の範囲内で種々の変形が可能である。
The water treatment filtration device according to the present embodiment has been described above, but the present embodiment is not limited to these, and various modifications can be made within the scope of the gist of the present embodiment.
本出願は、2019年6月26日に出願された日本国特許出願第2019-118779号に基づく優先権を主張しており、これらの出願の全内容が参照により本願明細書に組み込まれる。
This application claims priority based on Japanese Patent Application No. 2019-118779 filed on June 26, 2019, and the entire contents of these applications are incorporated herein by reference.
本開示によれば、構成の簡素化を図りつつランニングコストの増加を抑制することが可能な水処理用濾過装置を提供することができる。
According to the present disclosure, it is possible to provide a filtration device for water treatment capable of suppressing an increase in running cost while simplifying the configuration.
Claims (15)
- 被処理水が通水可能な濾過容器部と、
前記濾過容器部の内部に設けられ、前記被処理水を濾過する濾過部と、
前記濾過部に配置され、前記濾過容器部の内部への出し入れが可能な繊維濾材と、
前記濾過部に配置された前記繊維濾材を圧縮させた状態で押さえる押さえ部材と、
を備え、
前記濾過容器部は、前記押さえ部材の出し入れが可能な開口部が形成された容器本体部と、前記開口部を開閉する蓋部と、を有し、
前記開口部の面積が、前記濾過部の面積よりも小さくなっており、
前記押さえ部材が、前記開口部からの出し入れが可能となるように変位する、水処理用濾過装置。 A filtration container that allows water to be treated to pass through,
A filtration unit provided inside the filtration container unit for filtering the water to be treated, and a filtration unit.
A fiber filter medium that is placed in the filtration section and can be taken in and out of the filtration container section.
A pressing member that presses the fiber filter medium arranged in the filtration unit in a compressed state, and
With
The filtration container portion has a container main body portion having an opening through which the holding member can be taken in and out, and a lid portion that opens and closes the opening.
The area of the opening is smaller than the area of the filtration.
A water treatment filtration device in which the holding member is displaced so as to be able to be taken in and out of the opening. - 前記押さえ部材は、複数に分割された分割体を備え、前記複数の分割体を相対移動させることで展開・折り畳み可能に構成されている、請求項1に記載の水処理用濾過装置。 The water treatment filtration device according to claim 1, wherein the holding member includes a plurality of divided bodies, and is configured to be unfoldable and foldable by relatively moving the plurality of divided bodies.
- 前記押さえ部材は、2つの前記分割体を備えており、一方の分割体を他方の分割体に0°~180°の間で相対移動できるように連結することで、展開・折り畳み可能に構成されている、請求項2に記載の水処理用濾過装置。 The pressing member includes the two divided bodies, and is configured to be unfoldable and foldable by connecting one divided body to the other divided body so as to be relatively movable between 0 ° and 180 °. The water treatment filtration device according to claim 2.
- 前記押さえ部材が、前記容器本体部に着脱自在に設けられる、請求項1~3のうちいずれか1項に記載の水処理用濾過装置。 The water treatment filtration device according to any one of claims 1 to 3, wherein the holding member is detachably provided on the container body.
- 前記濾過部に配置された前記繊維濾材が、くしゃくしゃの状態で圧縮されている、請求項1~4のうちいずれか1項に記載の水処理用濾過装置。 The water treatment filtration device according to any one of claims 1 to 4, wherein the fiber filter medium arranged in the filtration unit is compressed in a crumpled state.
- 前記繊維濾材が、シート状の繊維濾材および塊状の繊維濾材のうち少なくともいずれか一方の濾材を含む、請求項1~5のうちいずれか1項に記載の水処理用濾過装置。 The water treatment filtration device according to any one of claims 1 to 5, wherein the fiber filter medium includes at least one of a sheet-shaped fiber filter medium and a massive fiber filter medium.
- 前記濾過部は、前記繊維濾材により形成される繊維濾過部を有し、
1つまたは複数の前記繊維濾材によって前記繊維濾過部が充填されている、請求項1~6のうちいずれか1項に記載の水処理用濾過装置。 The filter unit has a fiber filter unit formed by the fiber filter medium, and has a fiber filter unit.
The water treatment filtration device according to any one of claims 1 to 6, wherein the fiber filtration unit is filled with one or more of the fiber filter media. - 前記濾過部の少なくとも一部が、ネットに包まれた前記繊維濾材により形成されている、請求項1~7のうちいずれか1項に記載の水処理用濾過装置。 The water treatment filtration device according to any one of claims 1 to 7, wherein at least a part of the filtration unit is formed of the fiber filter medium wrapped in a net.
- 前記繊維濾材が、オレフィン系の繊維およびポリエステル系の繊維のうち少なくともいずれか一方の繊維で形成されている、請求項1~8のうちいずれか1項に記載の水処理用濾過装置。 The water treatment filtration device according to any one of claims 1 to 8, wherein the fiber filter medium is formed of at least one of an olefin-based fiber and a polyester-based fiber.
- 前記繊維濾材は、繊維径の平均値が0.1~10μm、目付量が10g/m2以上である、請求項1~9のうちいずれか1項に記載の水処理用濾過装置。 The water treatment filtration device according to any one of claims 1 to 9, wherein the fiber filter medium has an average fiber diameter of 0.1 to 10 μm and a basis weight of 10 g / m 2 or more.
- 前記押さえ部材に手掛かり部が形成されている、請求項1~10のうちいずれか1項に記載の水処理用濾過装置。 The water treatment filtration device according to any one of claims 1 to 10, wherein a clue portion is formed on the holding member.
- 前記容器本体部には、前記繊維濾材よりも上流側に配置される前記押さえ部材を係止する上流側係止部が設けられており、
前記濾過容器部における前記上流側係止部よりも上流側に、前記被処理水を導入する導入孔が形成されている、請求項1~11のうちいずれか1項に記載の水処理用濾過装置。 The container main body is provided with an upstream locking portion for locking the holding member arranged on the upstream side of the fiber filter medium.
The water treatment filtration according to any one of claims 1 to 11, wherein an introduction hole for introducing the water to be treated is formed on the upstream side of the filtration container portion on the upstream side of the locking portion on the upstream side. apparatus. - 前記容器本体部が、前記被処理水の通水方向に延在する略円筒状の壁部を有する、請求項1~12のうちいずれか1項に記載の水処理用濾過装置。 The water treatment filtration device according to any one of claims 1 to 12, wherein the container main body has a substantially cylindrical wall portion extending in the water flow direction of the water to be treated.
- 前記押さえ部材が、略円板状の上流側固定板と、略円板状の下流側固定板と、を有しており、
前記容器本体部には、前記上流側固定板の上流側への移動を規制する上流側係止部と、前記下流側固定板の下流側への移動を規制する下流側係止部と、が設けられており、
前記繊維濾材が、前記上流側固定板と前記下流側固定板との間で圧縮されている、請求項13に記載の水処理用濾過装置。 The holding member has a substantially disk-shaped upstream fixing plate and a substantially disk-shaped downstream fixing plate.
The container main body includes an upstream locking portion that regulates the movement of the upstream fixing plate to the upstream side and a downstream locking portion that regulates the downstream movement of the downstream fixing plate. It is provided,
The water treatment filtration device according to claim 13, wherein the fiber filter medium is compressed between the upstream side fixing plate and the downstream side fixing plate. - 前記上流側係止部が、前記容器本体部の内側に向けて突出する上流側突部であり、前記下流側係止部が、前記容器本体部の内側に向けて突出する下流側突部である、請求項14に記載の水処理用濾過装置。 The upstream locking portion is an upstream protrusion protruding inward of the container body, and the downstream locking portion is a downstream protrusion protruding inward of the container body. The water treatment filtration device according to claim 14.
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JP7498888B2 (en) | 2021-08-25 | 2024-06-13 | 株式会社石垣 | Filtration method |
JP7498887B2 (en) | 2021-08-25 | 2024-06-13 | 株式会社石垣 | Filtration method |
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JP7498888B2 (en) | 2021-08-25 | 2024-06-13 | 株式会社石垣 | Filtration method |
JP7498887B2 (en) | 2021-08-25 | 2024-06-13 | 株式会社石垣 | Filtration method |
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