JPH0271811A - Filter medium containing animal's bone and production thereof - Google Patents

Abstract

PURPOSE:To effectively remove impurities such as bacteria, fine particles and mud in water by sintering a mixture of a silicon-based mineral with Y, Ba, Ce, powder of a plant-eating animal's bone and a keolinic material and by using the resulting ceramic filter medium. CONSTITUTION:At least a silicon-based mineral, Y, Ba and Ce among the mineral, Y, Ba, Ce, Sc, Er and La are powdered, sintered at a high temp. for a prescribed time and cooled to a sub-zero temp. to obtain a first sintered body. This sintered body is kneaded with a powdery mixture of powder of a plant- eating animal's bone with a kaolinic material as a binder and the kneaded material is molded, died and sintered to produce a filter medium having an atomic physical wave effect. This filter medium has superior filtering ability and can increase the concns. of favorable ions of various substances.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) The present invention provides an lt
This invention relates to overfill material and its manufacturing method.

(Prior Art) Activated carbon has been widely used as a filter material for water and air. However, although activated carbon has the ability to adsorb and remove impurities such as bacteria and turbidity, it does not have a specific catalytic action that activates water by increasing water ions.

Other filtration materials such as metal particles have the problem that they do not function quickly, and although they have good adsorption ability, they quickly become saturated.

In addition to activated carbon, an exhaust gas filter for treating particulates in automobile exhaust gas was disclosed in Japanese Patent Application Laid-Open No. 58-55020.
Is this listed in the issue? Cerium, lanthanum,
Alternatively, it is a filter in which silver is supported in an = into form with a three-dimensional cross-grain structure. This filter functions as a catalyst that captures and burns fine particles in exhaust gas, and therefore has little or no ability to adsorb impurities in water or activate water. It is.

As mentioned in Section 2, conventional filter media have the original functions of filtration and removal, but they are not effective for substances such as water (substances) whose impurities are to be removed by passing through the filter media. In some cases, it may have a slight influence, but the reality is that it does not have any properties that positively exert a favorable effect.

(Problems to be Solved by the Invention) The present invention has been made to further add desirable properties to conventional filter media, and its purpose is to have the ability to activate fluids such as water and air, especially water; In other words, it has the ability to act as a type of catalyst that increases the concentration of ions in water, while also quickly and effectively adsorbing and removing impurities such as microparticles such as bacteria and turbidity in water, as well as removing dirt through backwashing. The purpose of the present invention is to provide a filtration material that exhibits tremendous effectiveness in filtration, and a method for producing the same.

In particular, it is an object of the present invention to provide a filter material and a process for its preparation which can impart desirable slightly alkaline properties to the countermaterial.

(Means for Solving the Problems) The filter material of the present invention contains at least silicon-based minerals, yttrium, barium, cerium, scandium, eurobium, and lanthanum, and herbivorous animals. Bone powder and clay T
This is a filtration material containing animal bone, characterized in that it is sintered into a ceramic shape so as to have a atomic physical wave effect.

The manufacturing method of the present invention includes at least silicon-based minerals, yttrium, barium, cerium, scandium, eurobium, and lanthanum, and indium, barium, and cerium in powder form (approximately 200%
~400 mensier) and heat these to high temperature (1800 ~
A first sintered body is obtained by sintering at 2,000°C for a predetermined time (8 to 12 hours) and then cooling to sub-zero temperature (150 to 200°C), and then the herbivore bones are powdered. A powder mixture is prepared by mixing bone powder (10 to 3 o mesh) and a china clay material as an adhesive to the powdered first sintered body, and then kneading this powder mixture,
A method for manufacturing a filter medium containing animal bone, characterized by performing molding, drying, and sintering (1200"C) to obtain a filter medium having a atomic-physical wave effect. The filter material according to the present invention can effectively purify fluids, that is, filter water and sewage water, filter treated sewage water, and purify air, and can also achieve a preferable concentration of ions in water and air. In particular, in the filter material of the present invention, the calcium and mineral ions possessed by the bones of herbivores are extracted to improve the filtration ability, and the filter material containing impurities to be filtered is Substances (water,
oil, air, etc.) to give them desirable slightly alkaline properties.

(Example) The present invention will be described below based on embodiments shown in the drawings.

FIG. 1 shows a filtering material 1 according to an embodiment of the present invention, and the filtering material 1 has a cylindrical shape, for example. The filter material 1 contains silicon-based minerals, yttrium, barium, cerium,
Of scandium, eurobium, and lanthanum,
At least silicon-based minerals, indium, barium, and cerium, bone meal of herbivorous animals such as cows, horses, sheep, and goats, and clay minerals such as porcelain and clay as adhesives to integrate these minerals. It is made by being incinerated into a ceramic shape to produce a atomic physical wave effect.

When in use, the filter material is installed in purification equipment for water and sewage systems, sewage tanks, rivers, lakes, ponds, etc., or installed in water or air purifiers in rooms. .

It immediately absorbs bacteria and turbid particles in the water and air, and at the same time increases the concentration of ions favorable to the human body in the water and air, thereby activating the water and air. The reason why the filter material 1 has the above adsorption effect is that the filter material 1 is porous and the above components of the filter material 1 cooperate with each other to produce a kind of atomic physical wave action. it is conceivable that. Furthermore, it has been confirmed that the filter material 1 activates water and air as described above, and this is thought to be due to the wave phenomenon described above.

Then, the bone powder in the filter medium 1 elutes its calcium, minerals, and ions, improving the filtration ability, activating the filter substances (water, oil, air, etc.), and adding to the filter medium 1. It can have the effect of imparting the desirable properties of weak alkalinity to the substance it comes into contact with (objective it).

In particular, bone meal from herbivorous animals is rich in adsorption properties and is not dissolved in water, hot water, oil, etc., and when sintered, calcium ions are eluted and have excellent properties that prevent oxidation of the filter material 1. exerts its effect.

Further, the filter medium 1 is used by being placed in a kelp or a container for storing drinks or food. In this case, filter material 1
has the effect of increasing the preferable slightly alkaline ion concentration in drinks or foods, improving their taste, and extending their freshness period. In addition, it has been confirmed that it has antibacterial effects on water, adjusts the hardness of water, adjusts pH, etc.

As another 6 usage examples, when the filter material l of the present invention is used as a filter for an air purifier, the air filtered by the purifier will have an increase in negative ions desirable for the human body in the room air, and at the same time, the same Air purification is promoted, contributing to human comfort and health.

In particular, when the filter material l has granular and fine dimensions, it can be used as a material for physical and chemical equipment and medical equipment to improve its performance, and it can be used as a water filter for livestock and fish farming to improve its performance. It has been confirmed that it can improve the growth of fruits, vegetables, gardening, etc. by mixing them with fertilizers, soil, etc. to enhance their cultivation effects.

It has been confirmed that the effective life of the filter medium 1's ability to adsorb the fine particles is about 3 to 8 times that of conventional activated carbon, depending on the target object. These reasons are because the particles can be easily pushed out and washed away from the filter material that has adsorbed them, and there is no need to recover them and bake them at high temperatures like with conventional activated carbon, making them easy to reuse. This is because it is extremely easy.

FIG. 2 shows a filter material 2 according to another embodiment of the present invention,
The filtration material 2 has a throat (such as a columnar body with an elliptical cross section), has a granular form of an arbitrary shape, is more effective at trapping particulates, and has a cleaning ability by pushing it out. It is a ceramic II-layer material having the same structure and function as .

Next, the manufacturing method of the present invention will be explained with reference to FIG.

The manufacturing method of the present invention consists of approximately 200 to 400 meshes of naturally occurring (+1) silicon-based minerals and similarly sized powders (2) yttrium, (3) barium, (4) seriura, (5) ) scandium, (6) eurobium, and (7) lanthanum, at least (1) to (4)
The powder 10 is then mixed at 1800 to 2000°C for 8 to 12 hours, and then rapidly cooled to -150 to 200°C. A first sintered body 11 is obtained.The first sintered body 11 is powder-like and has a property n that exhibits the above-described atomic physical wave/Eh property effect.

Next, collect 10 to 30 bones of herbivorous animals such as cows, horses, sheep, and goats.
A powder mixture 14 is prepared by mixing bone powder 12 made of mensier powder and a china clay material 13 made of porcelain or clay as a clay material into the powdered first sintered body 11. Finally, this powder (19 combined 14 kneaded,
After molding, drying, and sintering at 1200℃,
Filtering material 1 of desired form with atomic physical wave/υ1 effect
Get 5.

(Effects of the Invention) As explained above, according to the present invention, it exhibits excellent filtration ability and at the same time exhibits the atomic physical wave effect that functions as a kind of catalyst, thereby reducing the number of preferable ions in the proboscis. Ill suitable materials that can increase the concentration and generate weak alkaline ions using the calcium contained in the bones of herbivorous animals, thereby avoiding negative ion effects that are favorable for the human body, animals and plants, and even precision instruments.
The manufacturing method can be obtained.

[Brief explanation of the drawing]

FIG. 1 is an enlarged perspective view of a filter +4 according to an embodiment of the present invention, the second is an enlarged perspective view of a filter medium according to another embodiment of the present invention, and FIG. It is a process explanatory diagram showing the manufacturing method of the material. 1... Cylindrical filter material, 2... Granular filter material, 10...
・Powder body, 11... First sintered body, 12... Bone powder, 1
3... Ceramic clay material, 14... Powder mixture, 15...
・Filtering material.

Claims (3)

[Claims] (1) Contains at least the silicon-based minerals yttrium, barium, cerium, scandium, eurobium, and lanthanum, herbivore bone meal, and china clay material; A filtration material containing animal bone characterized by being sintered into a ceramic shape so as to have a wave-like effect. (2) After powdering at least silicon-based minerals, yttrium, barium, and cerium among silicon-based minerals, yttrium, barium, cerium, scandium, eurobium, and lanthanum, and sintering them at high temperature for a predetermined period of time; , a first sintered body is obtained by cooling to a sub-zero temperature, and then bone powder made from powdered bones of a herbivorous animal and a china clay material as an adhesive are mixed into the powdered first sintered body. to produce a powder mixture, which is then subjected to kneading, molding, drying, and sintering to obtain a filtration medium with atomic physical wave effect. A method for producing a filter medium containing. (3) At least the silicon-based minerals yttrium, barium, cerium, scandium, eurobium, and lanthanum are made into powders of approximately 200 to 400 mesh each, and the 8~ at 2000℃
After sintering for 12 hours, a first sintered body was obtained by cooling to -150 to 200°C, and then bone powder made from 10 to 30 mesh powder of herbivore bones and an adhesive material were added. Mixing a china clay material such as porcelain or clay with the powdered first sintered body to create a powder mixture;
This powder mixture is then kneaded, molded, dried, and sintered at about 1200°C to obtain a filter material containing animal bone that has a atomic physical wave effect. manufacturing method.