JPH0672687U - Water filter equipment - Google Patents

Abstract

(57) [Summary] [Purpose] When activated carbon and calcium sulfite are used as filter media, the chlorine removal ability is maintained high while self-cleaning the surface of calcium sulfite. [Composition] Activated carbon and calcium sulfite are used as a filtering agent for drinking water. The inside of the container 28 is divided by a separator 30 into an activated carbon chamber 32 on the upstream side of the water passage and a calcium sulfite chamber 34 on the downstream side. The separator 30 is provided so as to be inclined with respect to the water passage of the plurality of water passages 48, and a vortex is generated when the water passing through the water passages 48 flows into the calcium sulfite chamber 34, so that the calcium sulfite itself is generated. Stir.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 This invention is a water purification filter device used for pretreatment of an electrolytic ion water generator that electrolyzes tap water or the like to generate alkaline ionized water and acidic ionized water, or is directly attached to a tap such as a water pipe. Regarding

[0002]

[Prior art]

As shown in FIG. 7, the conventional water purification filter device 10 'divides the inside of the container 28 into the activated carbon chamber 32 and the calcium sulfite chamber 34 by filters 42, 44, 46 and the like, and a pipe 36 for extracting purified water at the center. By providing the tap water, the tap water and the like were filtered in the activated carbon chamber 32 and the calcium sulfite chamber 34 to remove mainly chlorine in the tap water. Activated carbon in water of hypochlorous acid (HCl O) and hypochlorite ions (Cl O ^-) will be divided by adsorbing and removing capacity thereof adsorbed amount increases comes decreased sharply. On the other hand, calcium sulfite continuously reduces the ion of hypochlorite (Cl O ⁻ ) by repeating the redox reaction and elution, and removes the chlorine odor.

The causative substance of the chlorine odor is hypochlorous acid (HCl O), which is generated by the reaction of chlorine gas and water added as a bactericide as shown in the following formula, and is in the form of ions in water. Exists in. _{Cl 2 + H 2 O → HCl} O + HCl → 2H + + Cl O - + Cl - Calcium sulfite is hypochlorous acid ion (Cl O ^-) was reduced, themselves are oxidized and thus become calcium sulfate (gypsum). The solubility of Cl O ⁻ + CaSO ₃ → Cl ⁻ + CaSO ₄ calcium sulfite itself in water is extremely low (0.0043 g / 100 ml at 18.C), but the calcium sulfate formed by oxidation has an increased solubility in water (about 0. (3 g / 100 ml), and elutes with treated water to newly expose calcium sulfite on the surface. Regarding the safety of calcium sulfite, according to experiments, when tap water was passed through it at various flow rates, the elution amount of sulfite ions was far below the legal standard for food additives.

By the way, the life of the water purification filter device is based on 0.4 ppm at which a person starts to feel a odor of chlorine, but recently, as a determination method, the presence or absence of a chlorine reaction was detected by an orthotolidine reagent, and the coloring reaction is how to place started out with a lifetime use, as a result, residual chlorine (HCl O, Cl O ^-) in water react with the colored and is as it is determined that the lifetime of the position Jimaru concentration 0.05ppm However, the requirements for chlorine removal capacity have become stricter.

FIG. 8 shows an example in which such a water purification filter device is attached for pretreatment of an electrolytic ion water generator. In the figure, a water inlet pipe 26 for introducing drinking water from a water pipe or the like is connected to the electrolytic cell 12, and a water purification filter device 10 ′ is installed on the upstream side of the electrolytic cell 12. The electrolytic cell 12 is divided into two chambers 12a and 12b by a partition wall 14 on the outlet side thereof, and a chamber 12a provided with a cathode 16 is connected to a discharge tube 20 of alkaline ionized water to a chamber 12b provided with an anode 18. The discharge pipe 22 of the acidic ionized water is connected. The controller 24 supplies the DC voltage to the cathode 16 and the anode 18.

In such electrolysis, even if there is no residual chlorine content (HCl Cl, Cl O ⁻ ) in the water on the water inlet side of the electrolytic cell 12, if there is chlorine ion Cl ⁻ , it will be on the anode side as in the following equation. This is oxidized and chlorine gas is generated. 2Cl ⁻ → 2e ⁻ + Cl ₂ Especially in the electrolytic ion water generator whose main purpose is cathode water (alkaline ion water) for drinking, the anode water (acid ion water) is discarded as waste water, so the cathode water and anode water Measures have been taken to change the water flow rate to reduce the amount of waste water, for example 7/3. As a result, a pressure difference is generated between the two electrode chambers 12a and 12b, and the anode water (acid ion water) easily leaks to the cathode water (alkali ion water) side.

On the other hand, since chlorine theoretically does not generate on the side of cathode water (alkaline ionized water) for beverages, a chlorine reaction (orthotrizine reaction) should not occur, but in reality, chlorine gas generated at the anode 18 is reacts with water hypochlorite (HCl O) and hypochlorous San'i on (Cl O ^-) is generated, which is leak into the cathode 16 side by the structural problems, negative Gokumizu (alkali ion water ) Side, a chlorine reaction (orthotolidine reaction) occurs. This is judged to be a decrease in the chlorine removal capacity of the water purification filter device 10 ', although it is a slight amount. For this reason, calcium sulfite is used in the water purification filter device 10 'of the electrolytic ionized water generator, and this calcium sulfite is used to suppress the chlorine reaction on the cathode water (alkali ionized water) side.

[0008]

[Problems to be solved by the device]

 However, calcium sulphite creates a film of calcium sulphate on its surface when water is passed in a stationary state, and this film has a problem that the chlorine removal capacity is reduced although the particles of calcium sulphite are hardly consumed. there were. That is, calcium sulfite is a supplement to the lack of chlorine removal rate of activated carbon and is effective for maintaining the chlorine removal capability for a long time, but in the past, its performance was not sufficiently exhibited.

The present invention has been made to solve such a problem, and when activated carbon and calcium sulfite are used as a filtering material, it is possible to maintain a high chlorine removal ability while self-cleaning the surface of calcium sulfite. The purpose is to provide a water purification filter device.

[0010]

[Means for Solving the Problems]

 In order to achieve this object, the present invention provides a water purification filter device in which at least activated carbon and calcium sulfite are contained in a container as a filtering agent for drinking water. It is characterized in that a calcium sulfite chamber is provided on the side and a plurality of water passage holes are formed in the separator at an inclination with respect to the water passage.

[0011]

[Action]

In the present invention, activated carbon hypochlorite (HCl O) and hypochlorous San'i on the tap water (Cl O ^-) will be adsorbed and removed, the adsorption amount is large and the removal capacity that decreases. On the other hand, calcium sulfite continuously reduces the hypochlorite ion (Cl 2 O ⁻ ) by removing the chlorine odor by repeating redox reaction and elution. Thus, calcium sulfite is effective for compensating for the lack of chlorine removal rate of activated carbon and maintaining the chlorine removal capability for a long time. However, calcium sulphite (granular) forms a film of calcium sulphate on the surface when it is in a stationary state, and its chlorine removal capacity decreases. Therefore, by providing a plurality of water holes in the separator in the container at an angle to the water passage, a swirl is generated when tap water, etc. flows from the activated carbon chamber to the calcium sulfite chamber, and calcium sulfite is generated. Stir yourself. By this stirring, formation of a film of calcium sulfate or the like on the surface of calcium sulfite (granular) can be prevented, and residual chlorine in tap water can be removed for a long period of time.

[0012]

【Example】

 Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings. FIG. 1 shows a vertical sectional view of a water purification filter device according to the present invention. In the figure, the water purification filter device 10 has an activated carbon chamber 32 and a calcium sulfite chamber 34 in which the inside of a container 28 is partitioned by a separator 30, and an activated carbon chamber 32 is provided on the upstream side of the water passage and a sulfite is provided on the downstream side. A calcium chamber 34 is provided, and the calcium sulfite chamber 34 is filled with granular calcium sulfite. The calcium sulfite chamber 34 is located downstream of the activated carbon chamber 32 so that the effect of calcium sulfite can be maintained over a long period of time, and the calcium sulfite is contained at a filling rate of about 95% or less by volume. There is.

Further, a pipe 36 made of a synthetic resin is connected to the center of the container 28. The pipe 36 is formed by connecting two parts, a straight shape (36a) on the upstream side and a conical shape (36b, 36c) on the downstream side with a collar in the middle. ing. The connecting portion of the pipe 36 is supported by the separator 30 and the vicinity of the inlet on the upstream side is supported by the holding plate 38. The separator 30 and the holding plate 38 are made of a synthetic resin such as ABS resin, and the collar portion 36c and the holding plate 38 have the same grid-shaped openings (not shown) as the separator 30.

Filters 42, 44, and 46 made of fibrous activated carbon are attached to the separator 30, the holding plate 38, and the collar portion 36c, and in particular, the filters 42 and 46 have granular calcium sulfite to the other. It is responsible for preventing spills. A cylindrical body 50 is housed inside the flanged conical portions 36b and 36c, and the cylindrical body 50 has a large number of mesh-like holes on its outer periphery so that dust and the like will not be mixed into the purified water. There is.

As shown in FIGS. 2 to 4, the separator 30 has lattice-shaped openings 56 on the upstream side (the side facing the activated carbon chamber 32) (see FIG. 3) and the downstream side (calcium sulfite). On the side facing the chamber 34), two parts having a plurality of water passage holes 48 are integrally formed (see FIG. 4). The openings 56 serve to rectify the tap water that has passed through the filter 42 along the water passage. Further, the water passage hole 48 is inclined in the same direction with respect to the water passage so that the opening portion 48b on the back surface exists in the tangential direction of the circle formed by the opening portion 48a on the front surface. When the tap water or the like flows into the calcium sulfite chamber 34 from the activated carbon chamber 32, the water passage hole 48 causes a swirl in the calcium sulfite chamber 34 to stir the chamber.

That is, when calcium sulfite is allowed to pass water in a stationary state, a film of calcium sulfate or the like is formed on the surface of the calcium sulfite, and the chlorine removing ability is reduced although the calcium sulfite particles are hardly consumed. However, this vortex allows the residual chlorine to be removed for a long period of time while self-cleaning the surface of calcium sulfite. According to the experiment, the inclination angle Θ of the water passage hole 48 in FIG. 2 is about 45 with respect to the water passage. Showed the best results.

Next, the route of water flowing through the apparatus will be described. Tap water taken in from the inlet 52 enters the activated carbon chamber 32 through the filter 44, where hypochlorous acid (HCl O) and Chlorite ion (Cl 2 O ⁻ ) is adsorbed and removed, and then enters the calcium sulfite chamber 34 through the filter 42 and the separator 30. At this time, the water that has passed through the water passage holes 48 provided in the separator 30 forms a spiral flow in the calcium sulfite chamber 34. Due to this vortex, calcium sulfite is agitated in flowing water, and residual chlorine is removed while self-cleaning the surface of the calcium sulfite chamber 34. The purified water from which chlorine has been removed in this way passes through the filter 46 and the collar portion 36c, and further flows out of the tubular body 50, the pipe 36 and the outlet 54.

FIG. 5 and FIG. 6 show data comparing residual chlorine concentrations of the water purification filter device according to this example and the conventional product. When this was compared with cathode water, the conventional product had a water flow rate of 4 liters (× 1000) and a residual chlorine concentration of 0, whereas the product of the present example had a residual chlorine content of 9 liters (× 1000). Since the concentration is 0, it can be seen that the chlorine removal capacity is about double.

In this embodiment, the case where the water purification filter device is used for pretreatment of the electrolytic ion water generator has been described, but the present invention is not limited to this, and the water purification device is directly attached to a tap such as a water pipe to filter drinking water. You may use it as a thing.

[0020]

[Effect of device]

 As described above, according to the present invention, by using activated carbon and calcium sulfite as a filter medium, the lack of chlorine removal ability of activated carbon is compensated by calcium sulfite, and the surface of calcium sulfite is self-cleaned compared to the conventional method. Can maintain chlorine removal capacity over a long period of time.

[Brief description of drawings]

FIG. 1 is a sectional front view of a water purification filter device according to the present invention.

FIG. 2 is a sectional front view of a separator.

3 is a cross-sectional view taken along the line AA of FIG.

FIG. 4 is a plan view of a separator.

FIG. 5 is a diagram showing the relationship between the water flow rate and the residual chlorine concentration by the apparatus of this embodiment.

FIG. 6 is a diagram showing a relationship between a water flow rate and a residual chlorine concentration by a conventional device.

FIG. 7 is a sectional front view of a conventional water purification filter device.

FIG. 8 is a diagram showing an example in which the water purification filter device is used for pretreatment of an electrolytic ion water generator.

[Explanation of symbols]

 10, 10 'Water purification filter device 12 Electrolyzer 14 Septum 16 Cathode 18 Anode 26 Water pipe 28 Container 30 Separator 32 Activated carbon chamber 34 Calcium sulfite chamber 36 Pipe 36c Collar part 38 Presser plate 42, 44, 46 Filter 48 Water hole 50 Cylinder Body 56 open hole

Claims (2)

[Scope of utility model registration request] 1. A water purification filter device in which at least activated carbon and calcium sulfite are contained in a container as a filtering material for drinking water, the inside of the container is provided with a separator to provide an activated carbon chamber upstream of a water passage and a downstream calcium sulfite chamber. And a plurality of water passage holes formed in the separator at an angle with respect to the water passage, the water purification filter device. 2. The water passage is formed so as to be inclined in the same direction with respect to the water passage so that the openings on the front surface and the back surface of the separator exist in the tangential direction of the circle. Water filter equipment.