JP2001347274A - Water quality improving agent, and apparatus and method for improving water quality - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a water quality improving technique for eluting silver having sterilizing effect into water to obtain a sufficient sterilizing effect. SOLUTION: A water quality improving agent is obtained by baking a molded object 6 comprising a compound consisting of 1-95 wt.% of a silver powder and a 5-99 wt.% of a glass powder being a binder. This water quality improving agent is housed in a container 10 and bacteria, (e.g. colon bacilli, staphylococci or the like) contained in water are sterilized by the sterilizing action of water itself due to silver eluted into water from the molded object being the water quality improving agent during the passage of water through the container.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a water quality improving agent, a water quality improving device, and a method of using the same.

[0002]

2. Description of the Related Art Conventionally, as a water quality improving agent for sterilization, a ceramic material obtained by firing silver powder is known.
Further, the silver powder ceramics is stored in a container, and water flowing in the container is brought into contact with the silver powder ceramics,
There has been known one that can obtain a bactericidal effect by silver.

[0003] Also, in the present applicant, rough tourmaline,
A tourmaline molded body obtained by dispersing tourmaline ore in a binder such as glass powder or the like, or a single or combination of far-infrared ceramics or the like is used as a water quality improving material, and the water quality improving material is stored in a container, and the inside of the container is filled with water. A water quality improvement device that allows flowing water to pass while contacting this water quality improvement material and a method of using the device have been proposed prior to the present application (Japanese Patent Application Laid-Open No. H11-192479).

[0004] The preceding water quality improving material is made of rough tourmaline, tourmaline formed body, and far infrared ceramics.
Weak current flowing from tourmaline, far-infrared radiated from far-infrared ceramics, or the synergistic effect of weak current and far-infrared light activates the molecular motion of water, reducing clusters of water molecules and improving water permeability. It is possible to purify water by promoting ionization, and furthermore, it is possible to prevent the far-infrared ceramics from being contaminated by the characteristics of tourmaline and to maintain the effect.

[0005] Conventionally, there are sterilizers and cleaners using ozone or strongly acidic water.

[0006]

However, the conventional water quality improving material made of silver powder ceramics has no disinfecting effect on the water itself because silver in the ceramics does not elute into the water. Is sterilized only when it comes into direct contact with the silver powder ceramics, and this does not provide a sufficient sterilizing effect. Further, this silver powder ceramic is a porous ceramic, and the contact area with water is increased by that amount, but on the contrary, dirt contained in water is adsorbed and the sterilizing effect is lost in 3 to 6 months. There was also a problem.

[0007] In addition, in the case of using original tourmaline ore, tourmaline molded product, far-infrared ceramics and the like, water clusters can be reduced to increase water permeability, and ionization is promoted to purify water. However, there remains a problem that a bactericidal action cannot be obtained.

In the case of using ozone or strongly acidic water, there is a problem in its effect, and there is a problem of corrosion and a bad influence on a human body.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and has a sufficient bactericidal or algicidal effect by eluting silver having a bactericidal effect or copper having an algicidal effect into water. And a water quality improver, in which, in addition to the bactericidal effect and the like, a cluster is reduced to increase water permeability and purify water by promoting ionization. It is an object to provide a device and a method of using the device.

[0010]

Means for Solving the Problems In order to solve the above problems, the water quality improver of the present invention (Claim 1) comprises silver powder
A configuration in which 5-95% by weight of glass powder as a binder is blended with 95% by weight and fired into a molded body.

This water quality improver is a molded product obtained by firing silver powder using glass powder as a binder. As described above, when the glass powder is used as the binder, the silver powder is dispersed in the binder, so that the silver elutes into the water, and the water itself has a bactericidal action. In addition, since the molded body as a water quality improver is not porous, dirt hardly adheres, and the sterilizing effect can be maintained, and even if dirt adheres and the sterilizing effect is reduced, it is washed. If the dirt is removed, the sterilizing effect can be returned to the original state.
The water from which silver has been eluted has the effect of killing algae, and can be used as an algicide. 1% by weight silver powder
If there is enough bactericidal action. When the amount of silver powder is less than that, the effect is small, and it is not economical because a large amount of the improver must be used. When the silver powder is 95% by weight, the bactericidal activity is very strong and effective. When the glass powder is less than 5% by weight, the fired silver molded body is brittle,
It is not preferable because it easily collapses. As the glass powder, it is preferable to use a low-temperature melting glass having a melting temperature of 450 to 650 ° C. The reason is that when low-temperature melting glass is used, boron contained in the low-temperature glass is combined with silver and easily melted in water. As the water quality improver of the present invention, the silver powder is preferably 2 to 50% by weight and the glass powder is preferably 50 to 98% by weight. Further, the silver powder is 75% by weight and the glass powder is 25% by weight. It is most suitable in terms of strength and sterilizing power. When the glass powder exceeds 25% by weight, boron in the glass component is easily eluted in a large amount, so that 25% by weight to 10% by weight seems to be optimal. The water quality improver of the present invention can be used for sterilizing bacteria generated in water, such as a pool sterilizer or a circulation bath sterilizer.

Next, the water quality improver of the present invention (claim 2)
Is 1 to 85% by weight of silver powder and powder of rough tourmaline powder 1
0 to 94% by weight and glass powder 5 to 8 as a binder
9% by weight is mixed and fired into a molded body.
This water quality improver contains 10% by weight of rough tourmaline powder.
Because of the above-mentioned content, in addition to the bactericidal action of silver, detergency is obtained. If the tourmaline powder is less than 10% by weight, the detergency is weak. The water quality improver of the present invention comprises silver powder 2
-30% by weight, 50-88% by weight of tourmaline powder and 10-20% by weight of glass powder as a binder are effective in strength, sterilizing power and detergency. It is optimal to mix 15% by weight of a glass powder as a binder with 80% by weight of raw tourmaline powder and 80% by weight of raw tourmaline powder. Also, raw tourmaline powder 94
What was added and baked at the ratio of 5% by weight, 5% by weight of glass powder and 1% by weight of silver powder is also preferable because it has a very strong detergency and an effective bactericidal effect. When the water quality improving agent of the present invention is used in a dishwasher, the stains on the dishes are well removed, bacteria that adhere to the dishes are killed, and the dishes are sanitary.
Further, even if the amount of the detergent used is reduced to one third or less, there is a cleaning effect more than before, and in particular, the oil stain is well removed and the glass becomes glossy. In addition, if the treated water passed through this water quality improver is used as washing water for food factories and kitchens, it will have the effect of killing germs that often adhere to soil on floors and cooking utensils, as well as suppressing the growth of germs. is there. In addition, when used as drinking water, clusters of water become small, and smooth and delicious water can be obtained. Therefore, when used for a water supply pipe of an apartment or the like, scale removal of the pipe, prevention of contamination of the water storage tank, prevention of propagation of bacteria, and sterilization can be performed, and the water is optimal as domestic water. In this case, incorporating barley stone or the like results in delicious water containing minerals. Thus, a better product is completed when combined according to the intended use.

Next, the water quality improver of the present invention (claim 3)
Has a configuration in which 1 to 95% by weight of copper powder is mixed with 5 to 99% by weight of glass powder as a binder, and the mixture is fired into a molded body. Since this water quality improver contains 1% by weight or more of copper powder, it has a sufficient algicidal action. When the copper powder is less than 1% by weight, the algicidal action is weak, and it is not economical because a large amount of the improver must be used. When the copper powder is 95% by weight, the algicidal power is very strong and effective. or,
If the glass powder content is less than 5% by weight, the fired molded body is fragile and easily breaks, which is not preferable. As the water quality improver of the present invention, 5 to 50% by weight of copper powder and 5
The content is preferably 0 to 95% by weight, and more preferably 75% by weight of copper powder and 25% by weight of glass powder from the viewpoint of strength and algicidal power. If the glass powder exceeds 25% by weight, a large amount of boron in the glass component is easily eluted, so that 25% by weight to 10% by weight seems to be optimal. The water quality improver of the present invention is effective when installed in a water circulation path for removing or suppressing the generation of algae in a cooling tower, or installed inside a cooling tower. In addition, when installed in the water tank of the car washer, the algae that grew on the floor of the car washer disappeared, and propagation could be suppressed.

Next, the water quality improver of the present invention (claim 4)
Is 1 to 85% by weight of copper powder and powder of rough tourmaline 1
0 to 94% by weight and glass powder 5 to 8 as a binder
9% by weight is mixed and fired into a molded body.
This water quality improver contains 10% by weight of rough tourmaline powder.
Because of the above content, detergency is exhibited in addition to the algicidal action of copper. If the tourmaline powder is less than 10% by weight, the detergency is weak. The water quality improver of the present invention comprises copper powder 2
30 to 30% by weight, raw tourmaline powder 50 to 88% by weight and glass powder 10 to 48% by weight as a binder are effective in strength, algicidal power and detergency. 10% by weight and raw tourmaline powder 75
It is most preferable that 15% by weight of glass powder as a binder is blended with the weight%. Also, rough tourmaline powder 9
A mixture obtained by adding 4% by weight, 5% by weight of glass powder, and 1% by weight of copper powder and calcining is also preferable because it has a very strong detergency and has an algicidal effect. When used in a car washer, the water quality improver of the present invention has an algicidal effect as well as a detergency and a gloss effect. In this case, when ceramics that emit far-infrared rays are used together, the detergency and gloss effect are further improved. When combined with an adsorbent such as activated carbon or zeolite, the effect is improved when the water quality is poor such as well water.

Next, the water quality improver of the present invention (claim 5)
Is 1 to 84% by weight of copper powder and powder of rough tourmaline 1
The composition is such that 0 to 93% by weight, 1 to 84% by weight of silver powder, and 5 to 88% by weight of glass powder as a binder are blended and fired into a molded body. This water quality improver has a bactericidal action, an algicidal action, and a washing action, because the raw tourmaline, copper powder, and silver powder are mixed. As the water quality improver of the present invention, copper powder 2 to 30% by weight and silver powder 2 to 30% by weight
A mixture of 50 to 86% by weight of rough tourmaline powder and 10 to 48% by weight of glass powder as a binder is effective in strength, algicidal power and detergency, but 5% by weight of copper powder. 5% by weight of silver powder, 75% by weight of rough tourmaline powder, 15% by weight of glass powder as a binder
Is optimal. Further, when the descaling is further enhanced by the water quality, ceramics coated with titanium oxide can be combined. The water quality improver of the present invention is effective for removing scales from a cooling tower, etc., for killing alga and disinfecting Regineola, and for suppressing the growth of bacteria. It is also ideal for facilities where algae tend to grow, such as pools and baths.

Next, the water quality improver of the present invention (claim 6)
Are 1 to 94% by weight of silver powder and 1 to 94% by weight of copper powder
And 5 to 98% by weight of a glass powder as a binder, and baked into a molded body. In the water quality improver of the present invention, a mixture of 2 to 30% by weight of silver powder, 2 to 30% by weight of copper powder, and 40 to 96% by weight of glass powder as a binder is preferable. %
The most suitable is a mixture of 45% by weight of copper powder and 15% by weight of glass powder as a binder. The water quality improver of the present invention is preferably used in places where algae and bacteria are likely to be generated, such as water tanks, ponds, and fire water.

Further, in this water quality improving agent, there is an embodiment in which the calcination temperature is 450 to 850 ° C. (Claim 7).

The reason why the firing temperature is set to a low temperature of 450 to 850 ° C. is that if the firing temperature is 450 ° C. or less, the firing is insufficient.
If the temperature is higher than ℃, the silver component and the glass component are deteriorated, and the bactericidal effect is reduced.

Next, the water quality improvement device of the present invention (claim 8)
Is a water quality improving device containing the water quality improving agent in a container, wherein an inlet and an outlet for water are formed in the container, and a water quality improving layer by the water quality improving agent is formed in the container.
The structure was such that water flowing into the container from the inflow port passed through the water quality improvement layer formed by the water quality improvement agent and flowed out of the outflow port.

In this water quality improving device, the water flowing into the container from the inlet formed in the container passes through the water quality improving layer made of the water quality improving agent and flows out from the outlet. In this way, while water passes through the container, silver or / and copper is eluted into the water from the molded body as a water quality improving agent, and the water itself has a bactericidal action and / or algicidal action. Even if bacteria and algae do not come into direct contact with the molded body that is a water quality improving agent, bacteria contained in the water (eg, Escherichia coli, staphylococci, etc.) are killed or killed by the bactericidal action and / or algicidal action of the water itself. Algae can be killed.

In the water quality improving device of the present invention, the water quality improving agent may be any one of far infrared ceramics, raw tourmaline, tourmaline molded product, barley stone, zeolite ceramics, activated carbon, and titanium oxide coated ceramics, or a mixture thereof. There is an embodiment in which a water quality improving layer is formed in a container by adding a combination of a plurality of selected from the above (claim 9).

In this case, in the rough tourmaline and the tourmaline molded body, the molecular motion of water is activated by a weak current flowing from tourmaline (an tourmaline) to reduce clusters, which are a group of water molecules, to increase the permeability of water, and Has the effect of promoting ionization and purifying water. It should be noted that tourmaline has the property of eluting trace amounts of boron and zinc, and boron can be used as car wash water, in particular, because boron has the property of imparting gloss to the metal surface. Further, far-infrared ceramics have the effect of reducing clusters and increasing water permeability by radiated far-infrared rays.
Since activated carbon and titanium oxide-coated ceramics are porous, they have an effect of adsorbing dirt and purifying water. By combining these, a synergistic effect can be obtained. In particular, it is preferable to combine the tourmaline molded body with far-infrared ceramics.

Therefore, in this water quality improvement device, the water disinfecting action and / or algicidal action of the water quality improving agent by the molded article and the improvement of water permeability and detergency by the tourmaline molded article and the far-infrared ceramics are added. It can also have the function of purifying water by zeolite ceramics or the like.

Next, a method of using the water quality improvement device of the present invention (claim 10) is to dispose the water quality improvement device in a water circulation piping system of a filtration circulation device provided in a pool, a bathtub, a cooling tower, a water recycling device, or the like. It is configured to be installed.

Further, in the method of using the water quality improvement device of the present invention (claim 11), the water quality improvement device is provided in a water supply piping system of a food washing device, a dish washing device, a washing machine, a high pressure washing device, and the like. It has a configuration.

[0026] The method of using the water quality improvement device of the present invention (claim 12) has a configuration in which the water quality improvement device is provided in a horticultural, agricultural or livestock piping system.

Thus, in the water quality improvement device of the present invention,
Effectively used for equipment and facilities that need to ensure hygiene due to bacteria, and equipment and facilities that need to ensure hygiene due to water absorption and absorption into the body by dirt can do. Also, for gardening and agriculture, for example,
In strawberry cultivation, spraying is effective in preventing and killing powdery mildew and other pathogenic bacteria, and reduces or substitutes for the use of pesticides. It is also effective in preventing root rot due to pathogenic bacteria in hydroponics. In addition, it is possible to prevent clogging of the hole of the spray pipe in house cultivation. By using it for cleaning livestock breeding grounds, it is possible to reduce or substitute the use of chemicals in order to maintain good hygiene and suppress the occurrence of disease.

[0028]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a schematic diagram showing a water supply facility provided with a water quality improvement device according to one embodiment of the present invention, and FIG. 2 is a sectional view of the water quality improvement device.

In this embodiment, as shown in FIG.
The water quality improvement device 1 is applied to a washing machine 2 and a dishwasher 3, and is connected to a working water snake 4 so that the improved water can be used for various purposes.

That is, a water quality improvement device 1 is provided in a water supply piping system 5 extending from a main cock 50 to a washing machine 2, a dishwasher 3, and a working water tap 4 and treated water of high quality by the water quality improvement device 1 is provided. It is supplied to the washing machine 2, the dishwasher 3, and the working water tap 5 so that it can be used as washing water, dishwashing water, and working water. In the figure, reference numeral 51 denotes a raw water supply pipe.

The structure of the water quality improvement device 1 will be described with reference to FIG. In the water quality improvement device 1, an inflow roller 11 is provided on a lower surface of a cylindrical container 10 that is vertically extended and both ends are closed, and an outflow roller 12 is provided on an upper surface. The three perforated partition plates 13, 13, 13 are attached while being held. Then, the accommodation chambers 14, 14, 1 partitioned by the respective porous partition plates 13
In 4, a water quality improving agent of the molded body 6, a tourmaline molded body 7, and a far-infrared ceramics 8 are accommodated to form a water quality improving layer 9. That is, each water quality improvement layer 9
In each of the accommodation chambers 14, a space 14a is formed in an upper part and separated into three layers, and a space 10a is formed below the lowermost porous partition plate 13.

With this configuration, the water flowing from the inlet 11 flows out of the space 10a, passes through the perforated partition plates 13, passes through the water quality improving layer 9 in each storage chamber 14, and flows out of the outlet 12.

In this case, the molded article 6 as a water quality improving agent
Is obtained by blending 1 to 95% by weight of silver powder with 5 to 99% by weight of glass powder as a binder and firing at 450 to 850 ° C. In this embodiment, a material obtained by blending 75% by weight of silver powder with 25% by weight of glass powder as a binder and firing at a low temperature of 600 ° C. is used. As the glass powder, a low-temperature melting glass having a melting temperature of 450 ° C to 650 ° C is used. Further, when laminated as the water quality improving layer 9, a gap serving as a water passage between the molded bodies 6 and 6 is formed evenly, and is formed into a spherical shape having a diameter of 6 to 8 mm so that the water can be favorably contacted. Molding.

The molded body 6 molded in this manner is obtained by firing silver powder using glass powder as a binder. When glass powder is used as a binder, the silver powder is dispersed in the binder. , Silver elutes into the water, and the water itself has a bactericidal action.
That is, while the water passes through the inside of the container 10, silver elutes from the molded body 6 as a water quality improving agent into the water, and the water itself has a bactericidal action. Therefore, even if the bacteria do not directly contact the molded body 6, the bacteria (eg, Escherichia coli, staphylococcus, etc.) contained in the water can be sterilized by the sterilizing action of the water itself.
In addition, since the molded body 6 is not porous, dirt does not easily adhere thereto, and the sterilizing effect can be maintained. Even if dirt adheres and the sterilizing effect is reduced, if the dirt is washed and the dirt is removed, The bactericidal effect can be returned to the original state.

As the tourmaline molded body 7, 75 to 90% by weight of rough tourmaline and 10 to 25% by weight of a binder containing at least boron and zinc are blended.
The one fired at a low temperature of 450 to 800 ° C is used.
The far-infrared ceramic 8 is made of alumina, zirconium oxide, mullite, xenotime, porcelain clay, etc.
It is fired at a high temperature of 000 ° C and has the property of emitting high-quality far infrared rays of 6 to 20 microns. The tourmaline molded body 7 and the far-infrared ceramics 8 are also formed into a spherical shape having a diameter of 6 to 8 mm.

As described above, the water quality improving layer 9 in the container 10
Then, when the tourmaline molded body 7 and the far-infrared ceramics 8 are added, water comes into contact with the tourmaline molded body 7 and the far-infrared ceramics 8, and the weak current flowing through the tourmaline molded body 7 and the far-infrared radiation by the far-infrared ceramics 8 As a result, a more intense resonance motion occurs, and the molecular motion of water is activated, so that clusters, which are a group of water molecules, are reduced, and water permeability is improved. Further, the ionization of water is promoted by the generation of positive ions and negative ions, and the purification of water can be achieved by releasing sulfuric acid gas and the like contained in the water. In addition, it is possible to prevent the far-infrared ceramics 8 from being contaminated by the characteristics of tourmaline and to maintain the effect.

When the water quality improving device 1 constructed as described above is washed by the washing machine 2 provided in the water supply piping system 5 or the dishes are washed by the dishwasher 3, the sterilizing action of the molded body 6 as a water quality improving agent is obtained. It is possible to kill germs attached to clothes and dishes, and to suppress the occurrence of mold in the washing machine 2 and the dishwasher 3. In addition, due to the permeation of water by the tourmaline molded body 7 and the far-infrared ceramics 8, dirt removal is improved, and the amount of detergent can be reduced (one third of the usual amount).

Further, when food such as vegetables is washed with water from the working water snake 4 provided with the water quality improving device 1 in the water supply piping system 5, it is possible to kill germs attached to the tableware, The proliferation of bacteria can be suppressed. In addition, the dirt of the food is improved, and the taste of the washed food is not changed.

In the following table, a sample obtained by attaching an end cloth stained with lipstick, laur oil, and crayons to a shirt was used as a sample, and this sample was washed with treated water from a water quality improvement device (Table 1). The results of measurement comparing the whiteness when washing with ordinary tap water (Table 2) are shown.

[0040]

[Table 1]

[Table 2]

As shown in Tables 1 and 2, when washed with the treated water from the water quality improvement device, the whiteness was remarkably improved as compared with when washed with ordinary tap water.

In Table 3 below, samples treated with E. coli and Staphylococcus aureus were treated with treated water from a water quality improvement device,
The measurement result which compared the viable cell count when purified water was added is shown.

[0043]

[Table 3]

As shown in Table 3, it can be seen that the bactericidal effect was significantly higher when treated water from the water quality improvement device was added than when purified water was added.

Table 4 compares the number of viable bacteria when treated water from a water quality improvement device and distilled water were added to a sample to which a bacterial solution of Vibrio parahaemolyticus, Cereus, Salmonella, and O-157 was added. The measurement results are shown.

[Table 4]

As shown in Table 4, it can be seen that the germicidal effect is much higher when the treated water from the water quality improvement device is added than when distilled water is added.

Next, a second embodiment will be described.
The water quality improving device of the present embodiment is configured by mixing a water quality improving agent with 5% by weight of silver powder, 80% by weight of raw tourmaline powder, 15% by weight of glass powder as a binder, and then firing. Since the configuration is the same as that of the water quality improvement device of the first embodiment, the description of the same components will be omitted. In this water quality improvement device, since the water quality improvement agent contains 80% by weight of raw tourmaline powder, detergency is exhibited in addition to the sterilizing effect of silver. When the tableware is washed by the dishwasher 3 provided in the water supply piping system 5 with the water quality improvement device 1 configured as described above, the germs attached to the tableware are killed by the sterilizing action of the molded body 6 as a water quality improvement agent. And the occurrence of mold in the dishwasher 3 can be suppressed. In addition, due to the permeation of water by the tourmaline molded body 7 and the far-infrared ceramics 8, dirt removal is improved, and the amount of detergent can be reduced (one third of the usual amount). In particular, the oil stains are well removed, and the glass becomes glossy.

When the water quality improvement device 1 is used to wash food such as vegetables with water from the working water snake 4 provided in the water supply piping system 5, germs attached to the food can be killed, The proliferation of bacteria can be suppressed. In addition, the food can be easily removed, and the taste of the washed food is not changed, and the food is safe. In addition, when used as washing water in food factories, kitchens, etc., the floor, cooking utensils, and the like are easily stained, which has the effect of killing attached bacteria and suppressing propagation. In addition, when used as drinking water, clusters of water become small, and smooth and delicious water can be obtained. Therefore, when used for a water supply pipe of an apartment or the like, scale removal of the pipe, prevention of contamination of the water storage tank, prevention of propagation of bacteria, sterilization, and water suitable for domestic use can be achieved. In this case, incorporating barley stone or the like results in delicious water containing minerals. Thus, a better product is completed when combined according to the intended use. In addition, the water quality improvement device 1 is installed in a pipe for horticulture, agriculture or livestock, for example, in strawberry cultivation, by spraying, it is effective in preventing and sterilizing powdery mildew and other pathogenic bacteria,
Reduces or substitutes for pesticide use. It is also effective in preventing root rot due to pathogenic bacteria in hydroponics. In addition, it is possible to prevent clogging of the hole of the spray pipe in house cultivation. By using it for cleaning livestock breeding grounds, it is possible to reduce or substitute the use of chemicals in order to maintain good hygiene and suppress the occurrence of disease.

Tables 5 and 6 show ¹⁷ O to compare the clusters of the treated water from the water quality improvement device and the raw water.
The result of having performed the nuclear magnetic resonance spectroscopy analysis is shown. Table 5 shows the half widths of the peaks in the ¹⁷ O nuclear magnetic resonance spectroscopy spectrum of the treated water and the raw water at room temperature from the water quality improvement device, and Table 6 shows the half widths of the peaks at the room temperature and at 70 ° C. of the raw water. Show.

[0050]

[Table 5]

As shown in Table 5, the half width of the treated water from the water quality improvement device was half that of the raw water. From this, it is presumed that the treated water from the water quality improvement device has a smaller cluster size than the raw water or that there are many smaller cluster sizes.

[0052]

[Table 6]

As shown in Table 6, the raw water was 7
The half width at 0 ° C. was smaller. The reason that the half-width at room temperature of the raw water differs from the numerical value shown in Table 6 is that the state of water molecules in the tap water varies from day to day.

Although the embodiment of the present invention has been described above, the specific configuration is not limited to this. For example, the molded body to be a water quality improver is not only a mixture of glass powder and silver powder or copper powder, etc., but also a mixture of glass powder with silver powder or copper powder, etc. Powder, porcelain clay, barley stone, zeolite, and the like may be added and blended and fired, and those added and blended are also included in the molded article of the present invention. The effect of using the glass powder as the binder is the same as that of the first embodiment.

Further, an N pole,
An S-pole magnet is placed in opposition, and water is passed across the magnetic field formed between the two poles. Electric energy is generated in the container, and the water molecules undergo a violent rotational motion.
As a result, H ^{30 +} positive ions and OH ⁻ negative ions are generated in the water, and high quality treated water can be obtained.

[0056]

As described above, the water quality improver of the present invention (claim 1) is a silver compact obtained by firing silver powder using glass powder as a binder. When used, the silver powder is dispersed in the binder, so that the silver elutes into the water and the water itself can have a bactericidal action. In addition, since the molded article as a water quality improver is not porous, dirt hardly adheres,
The germicidal effect can be maintained, and even if the germicidal effect is reduced due to adhesion of dirt, the germicidal effect can be returned to the original state by cleaning and removing the dirt.

The water quality improver of the present invention (claim 2)
Since tourmaline is contained in addition to silver powder and glass powder, detergency is exhibited in addition to the sterilizing effect of silver.

The water quality improver of the present invention (claim 3)
It is a molded body obtained by firing copper powder with glass powder as a binder, and contains copper powder, so it has algicidal action

The water quality improver of the present invention (claim 4)
It is a molded body obtained by firing copper powder, raw tourmaline powder, and glass powder as a binder. Since it contains raw tourmaline, it has a cleaning action in addition to an algicidal action.

Next, the water quality improver of the present invention (Claim 5)
Is a molded body obtained by firing copper powder, raw tourmaline powder, silver powder, and glass powder as a binder, and is made of a mixture of rough tourmaline, copper powder, and silver powder. There is action.

Next, the water quality improver of the present invention (claim 6)
Has a structure in which silver powder, copper powder and glass powder as a binder are blended and baked into a molded body, so that it has a bactericidal action and an algicidal action.

In this water quality improving agent, the firing temperature was set to 45
When the temperature is set to a low temperature of 0 to 850 ° C. (claim 7), a sufficient bactericidal effect, algicidal effect and cleaning effect can be obtained without altering the silver component, the copper component and the glass component.

The water quality improvement device of the present invention (claim 8)
Because water itself has a bactericidal or algicidal action with silver or copper eluted from the molded body as a water quality improving agent while water passes through the container, bacteria and algae are used as water quality improving agents. Even without direct contact, germs and algae contained in the water can be sterilized or killed by the bactericidal or algicidal action of the water itself.

In this water quality improving device, when a water quality improving layer is formed in a container by adding far infrared ceramics, a tourmaline molded body, zeolite ceramics, or the like to the water quality improving agent (claim 9), Can improve the water permeability of tourmaline molded articles and far-infrared ceramics, and purify water with zeolite ceramics.

In the method of using the water quality improvement device of the present invention (claims 10 and 11), since the water quality improvement device is provided in the water circulation piping system or the water supply piping system, it is necessary to ensure hygiene caused by bacteria. There are certain equipment and facilities, as well as equipment and facilities that need to ensure hygiene due to water absorption and absorption into the body (pools, bathtubs, cooling towers, water recycling equipment, food washing equipment, dishwashing) Device, washing machine, high-pressure washing device, etc.).

In the method of using the water quality improvement device of the present invention (claim 12), the water quality improvement device is provided in a water circulation piping system or a water supply piping system for horticulture, agriculture, or livestock. In cultivation, spraying is effective in preventing and sterilizing powdery mildew and other pathogenic bacteria, and reduces or substitutes for the use of pesticides. It is also effective in preventing root rot due to pathogenic bacteria in hydroponics. In addition, it is possible to prevent clogging of the hole of the spray pipe in house cultivation.
By using it for cleaning livestock breeding grounds, it is possible to reduce or substitute the use of chemicals in order to maintain good hygiene and suppress the occurrence of disease.

[Brief description of the drawings]

FIG. 1 is a schematic diagram showing a water supply facility provided with a water quality improvement device according to one embodiment of the present invention.

FIG. 2 is a sectional view of a water quality improvement device.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Water quality improvement apparatus 10 Container 10a Space 11 Inflow roller 12 Outflow roller 13 Perforated partition plate 14 Storage room 14a Space 2 Washing machine 3 Dishwasher 4 Working water snake 5 Water supply piping system 50 Main plug 51 Raw water supply pipe 6 Silver molded body 7 Tourmaline molding Body 8 Far-infrared ceramics 9 Water quality improvement layer

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) C02F 1/50 520 C02F 1/50 520J 520K 520L 540 540D 1/30 1/30 1/68 510 1/68 510H 510Z 510G 520 520S 520V 520P 520Z 520N 540 540B 540G

Claims (12)

[Claims] 1. A water quality improver characterized in that 1 to 95% by weight of silver powder is mixed with 5 to 99% by weight of glass powder as a binder, and the mixture is fired into a molded product. 2. Water quality characterized by blending 1 to 85% by weight of silver powder, 10 to 94% by weight of raw tourmaline powder, and 5 to 89% by weight of glass powder as a binder and calcining a molded body. Improver. 3. A water quality improver characterized in that 1 to 95% by weight of copper powder is mixed with 5 to 99% by weight of glass powder as a binder, and the mixture is fired into a molded product. 4. A water quality characterized by blending 1 to 85% by weight of copper powder, 10 to 94% by weight of raw tourmaline powder and 5 to 89% by weight of glass powder as a binder, and firing the formed body. Improver. 5. 1 to 84% by weight of copper powder, 10 to 93% by weight of raw tourmaline powder, and 1 to 84% by weight of silver powder.
And 5 to 88% by weight of a glass powder as a binder, and calcined into a molded product. 6. A silver powder of 1 to 94% by weight and a copper powder of 1 to 9%.
A water quality improver characterized in that 4% by weight and 5 to 98% by weight of a glass powder as a binder are blended and fired into a molded product. 7. The water quality improver according to claim 1, wherein the firing temperature is 450 to 850 ° C. 8. A water quality improving device containing the water quality improving agent according to claim 1 in a container, wherein the water inlet and the water outlet are formed in the container, and the water quality improving device is provided in the container. A water quality improvement device, wherein a water quality improvement layer made of a water quality improvement agent is formed, and water flowing into the container from the inflow port passes through the water quality improvement layer made of the water quality improvement agent and flows out of the outflow port. 9. The water quality improvement device according to claim 8,
The water quality improver according to any one of claims 1 to 7, further comprising: a raw tourmaline, a tourmaline molded body, a far-infrared ceramic, a maltstone, a zeolite ceramic, an activated carbon, a titanium oxide-coated ceramic, or a mixture thereof. A water quality improvement device characterized in that a water quality improvement layer is formed in a container by adding a combination of selected ones. 10. The water quality improvement device according to claim 8, wherein the water quality improvement device according to claim 8 or 9 is disposed in a water circulation piping system of a filtration circulation device provided in a pool, a bathtub, a cooling tower, a water recycling device, or the like. How to Use. 11. Use of a water quality improvement device according to claim 8, wherein the water quality improvement device according to claim 8 or 9 is provided in a water supply piping system of a food washing device, a dishwashing device, a washing machine, a high-pressure washing device, or the like. Method. 12. A method of using a water quality improvement device, wherein the water quality improvement device according to claim 8 or 9 is provided in a horticultural, agricultural or livestock piping system.