CN114133045A

CN114133045A - Multifunctional water purifier

Info

Publication number: CN114133045A
Application number: CN202111110217.4A
Authority: CN
Inventors: 赵印桐; 蔡志勇; 赵东澎
Original assignee: Beijing Fang Da Da Da Technology Co ltd
Current assignee: Beijing Fang Da Da Da Technology Co ltd
Priority date: 2021-09-22
Filing date: 2021-09-22
Publication date: 2022-03-04

Abstract

The invention discloses a multifunctional water purifier, which comprises a sintered body and an alumina porcelain body arranged in the sintered body, and is characterized in that raw materials for preparing the sintered body are alkaline earth metal titanate, rare earth element oxide, alumina, silicon dioxide, magnesium oxide and kaolin; the multifunctional water purifier provided by the invention has the advantages of good water purification effect, rich raw material sources, simple preparation process and low price, and can be applied to various drinking water treatment devices and aquaculture devices.

Description

Multifunctional water purifier

Technical Field

The invention relates to a water purifier in the field of water purification, in particular to a safe, nutritional, healthy and environment-friendly multifunctional water purifier.

Background

The purification of drinking water is now a subject of common attention worldwide. The quality of drinking water is concerned with thousands of households, heavy metals such as chromium content exceeding, chlorine content exceeding and water scale serious influence the health of the masses, for example, organic compounds of residual chlorine in water and chlorine generated by the action of organic substances in water are confirmed to be carcinogenic substances through medical research, and when people take a bath in a closed bathroom, the residual chlorine in water vapor is continuously increased along with the rising concentration of water temperature and is rapidly absorbed by human bodies through the expansion of sweat pores, the absorption amount of the residual chlorine is often dozens of times higher than that of drinking water, and the heavy metals also cause great threat to the health of residents in China. The water purifier becomes a hot point for research because the nutrition and health of injected water are more and more concerned by big families, and how to improve the water quality becomes a problem of general attention.

The existing market water purifier has the advantages of various qualities, poor low-price effect and high treatment effect, cannot be popularized due to too high market price, and is necessary to develop a drinking water purifier which has the advantages of good purification effect, low cost and environmental friendliness and can really enter thousands of households in order to protect the life health of people.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide the multifunctional water purifier with good water purification effect, rich raw material sources, simple preparation process and low price. In order to realize the purpose, the technical scheme is as follows:

the multifunctional water purifier comprises a sintered body and an alumina porcelain body arranged in the sintered body, and is characterized in that raw materials for preparing the sintered body comprise alkaline earth metal titanate, rare earth element oxide, alumina, silicon dioxide, magnesium oxide and kaolin, and the dosage of each raw material is calculated according to the total mass of the raw materials for preparing the sintered body

The rare earth element oxide is one or more of samarium oxide, lanthanum oxide, cerium oxide and ytterbium oxide.

The alkaline earth metal titanate is barium titanate, preferably barium titanate and calcium titanate, wherein the dosage ratio of the barium titanate is 60-70% of the alkaline earth metal titanate, and the dosage ratio of the calcium titanate is 30-40% of the alkaline earth metal titanate.

The preparation method of the multifunctional water purifier comprises the following steps:

(1) uniformly mixing raw materials for preparing a sintered body, and performing compression molding to obtain a sintered precursor;

(2) inserting an alumina ceramic ball into the sintering precursor to be used as an electrode to obtain a spherical blank;

(3) sintering and forming to obtain the spherical multifunctional water purifier, wherein the sintering temperature is 1200-1300 ℃.

The application method of the multifunctional water purifier in water treatment comprises the following steps:

the multifunctional water purifier is impacted by water flow, or is arranged in a water body, and is vibrated for not less than 5S, so that the physical principle is applied under the action of the geomagnetic field and the water flow force, micro-electronics are generated, substances in the water are activated, hydrogen bond reaction is generated, and a series of chemical reactions are further generated, and the aims of removing harmful substances such as heavy metal, chlorine, organic matters and the like in the water, enriching oxygen, improving the content of beneficial trace elements and mineral matters and the like are fulfilled.

The multifunctional water purifier of the invention can be applied to various drinking water treatment devices and aquaculture devices.

Has the advantages that:

1. oxygen enrichment: comparing tap water with water purified by the water purifier of the invention, it can be seen from EPR diagram (figure 1, figure 2) that the peak of purified water is shifted to low field direction, which shows that paramagnetic resonance is generated, and O₂Is a paramagnetic substance, which indicates that the dissolved oxygen of tap water is increased after the treatment;

2. quality improvement: as can be seen from fig. 3-6, the tap water scale has larger particles (fig. 3) and smaller percentage (fig. 4) compared with the purified tap water scale, and the EDS spectrum of the tap water scale (table 1) and the percentage content of the tap water scale elements (table 2) are reduced in relative percentage of C, S, CL elements compared with the EDS spectrum of the purified tap water scale (fig. 5) and the percentage content of the tap water scale elements (fig. 6). Showing that the harmful impurities in the purified tap water are reduced and the water quality is improved. As can be seen from Table 3, the amount of scale in the water purified by the water purifier of the present invention was reduced by about 10% as compared with that in the tap water.

3. Dechlorination: sodium hypochlorite was added to 10 liters of tap water to make a 0.07mg/L solution, and as can be seen from Table 1, the chlorine content of the water purified by the water purifier of the present invention was reduced by more than 85% compared to that of tap water.

4. Reducing chromium: when the water purifier is used for sewage treatment, the hexavalent chromium in the water can be reduced into trivalent chromium, in order to confirm that the treated tap water has reducibility, potassium dichromate is added into 10 liters of tap water to prepare 310.709 mu g/L solution, and after the water purifier is treated, the detection is carried out until the solution is reduced to 264.619 mu g/L, thereby proving that the hexavalent chromium is reduced into trivalent chromium. As can be seen from Table 1, the hexavalent chromium content of the tap water is reduced by about 15% in the water purified by the water purifier of the present invention.

5. And (3) blowdown: as can be seen from Table 3, the water purified by the water purifier of the present invention has COD_MnThe content of the water is reduced by about 23 percent compared with tap water, which shows that the organic pollutants in the water are obviously reduced.

TABLE 1 Scale after boiling tap Water

TABLE 2 Scale after boiling purified tap water

TABLE 3 Effect of Water purifiers of the invention

Detailed Description

Example 1

The raw materials used in this example were 56Kg of barium titanate, 24Kg of calcium titanate, 7Kg of alumina, 1.5Kg of silica, 0.5Kg of magnesia, 0.2Kg of ytterbium oxide, and 1.5Kg of kaolin.

Example 2

The raw materials used in this example were 84.5Kg of barium titanate, 0.5Kg of samarium oxide, 9Kg of alumina, 2Kg of silica, 1Kg of magnesium oxide, and 3Kg of kaolin.

Example 3

The raw materials used in this example were 81.5Kg of barium titanate, 0.3Kg of cerium oxide, 10Kg of alumina, 1Kg of silica, 0.8Kg of magnesium oxide, and 1.4Kg of kaolin.

Example 4

The raw materials used in this example were 48.6kg of barium titanate, 32.4kg of calcium titanate, 0.4kg of lanthanum oxide, 13kg of alumina, 2kg of silica, 1kg of magnesium oxide, and 2.6kg of kaolin.

Example 5

The raw materials used in this example were 58.5kg of barium titanate, 31.5kg of calcium titanate, 0.2kg of ytterbium oxide, 5kg of alumina, 2kg of silica, 1kg of magnesium oxide, and 1.8kg of kaolin.

Drawings

FIG. 1 shows a tap water EPR diagram;

FIG. 2 processing a sample EPR map;

FIG. 3 is a scanning electron microscope image of scale after boiling tap water;

FIG. 4 scanning electron microscope pictures of scale after boiling of the treated samples;

FIG. 5 is an X-ray diffraction pattern of scale after boiling tap water;

figure 6 deals with the X-ray diffraction pattern of scale after boiling of the sample.

Claims

1. The multifunctional water purifier comprises a sintered body and an alumina porcelain body arranged in the sintered body, and is characterized in that raw materials for preparing the sintered body comprise alkaline earth metal titanate, rare earth element oxide, alumina, silica, magnesia and kaolin, and the dosage of each raw material is calculated according to the total mass of the raw materials for preparing the sintered body

81-90 wt% of alkaline earth metal titanate

0.2-0.5 wt% of rare earth element oxide

5-13 wt% of alumina

1-2% by weight of silica

0.5-1 wt% of magnesium oxide

1-3 wt% of kaolin.

2. The multi-functional water purifier of claim 1, wherein the alkaline earth metal titanate is barium titanate.

3. The multi-functional water purifier as claimed in claim 1, wherein the alkaline earth metal titanate is a combination of barium titanate and calcium titanate, wherein the amount ratio of barium titanate is 60-70% and the amount ratio of calcium titanate is 30-40% of the alkaline earth metal titanate.

4. The multifunctional water purifier of claims 1-3, wherein the rare earth oxide is one or more of samarium oxide, lanthanum oxide, cerium oxide, and ytterbium oxide.