CN104628075A - Strontium mineralization kettle based on strontium mineralization filter element - Google Patents

Abstract

The invention provides a strontium mineralization water bottle based on a strontium mineralization filter element, which at least includes a cup body and a handle, and a water treatment device is arranged above the water storage chamber, the water treatment device is a hollow structure, and the water treatment device is provided with A horizontal partition plate, which divides the interior of the water treatment device into upper and lower chambers, wherein the upper chamber is a water supply chamber, and the lower chamber is a water pump chamber; the water supply chamber is provided with a pressurized device, the bottom of the pressurizing device is fixedly connected with the partition plate; the bottom of the water pump chamber is provided with a strontium mineralization filter element, and the bottom of the strontium mineralization filter element is provided with a water outlet, and the water in the water pump chamber is Under the action of high pressure, after being treated by the strontium mineralization filter element, it enters the water storage chamber from the water outlet. The kettle can retain trace elements needed by the human body while removing pollutants in the water body, use natural strontium-rich minerals to mineralize the water body, and obtain strontium-rich mineralized water, which has the advantages of low cost and good effect.

Description

A strontium mineralization kettle based on a strontium mineralization filter element

technical field

The invention provides a novel water bottle, in particular to a strontium mineralized water bottle based on a strontium mineralized filter core.

Background technique

In recent years, my country's water pollution has become more and more serious. In 2003, the State Environmental Protection Agency issued a notice that the seven major water systems in my country have been generally polluted; monitoring data from relevant state departments show that about 64% of urban groundwater has been severely polluted, and 33% The urban groundwater in China is slightly polluted, and only 3% of the urban groundwater is basically clean. Drinking polluted water has seriously threatened the health of residents. In order to achieve the purpose of "water purification", all kinds of water purification sold on the market today use methods such as reverse osmosis, and the water produced is actually pure water. After this process has taken away all the mineral elements in the water, it will also lose the scaffolds on which the small molecular clusters rely to support the structure and "degenerate", and lose its physiological functions due to the lack of any mineral elements. Drinking pure water for a long time will reduce the immune function of the human body and cause the loss of some beneficial nutrients in the body. Therefore, real healthy water should be small molecular cluster water rich in minerals and trace elements needed by the human body. Among them, the most beneficial type of mineral water to the human body is strontium mineralized water.

The function of strontium on the human body is mainly closely related to the formation of bones, and it is a normal component of human bones and teeth. Strontium can reduce the body's absorption of sodium and prevent diseases. Strontium is also related to the excitement of nerves and muscles. Mineral water containing strontium below 5mg/L is beneficial to human health without causing adverse effects. However, at present, natural strontium mineralized water resources are in short supply, and the price of some bottled strontium mineral water has reached more than 100 yuan.

Contents of the invention

The invention provides a strontium mineralization water bottle based on a strontium mineralization filter element, which solves the deficiencies in the background technology. The water bottle can retain trace elements needed by the human body while removing pollutants in the water body, and at the same time utilize natural rich strontium Minerals mineralize the water body to obtain strontium-rich mineralized water, which has the advantages of low cost and good effect.

The technical scheme adopted to realize the above-mentioned purpose of the present invention is:

A strontium mineralization water bottle based on a strontium mineralization filter element at least includes a cup body and a handle, the interior of the cup body is a water storage cavity, and a water treatment device is arranged above the water storage cavity, and the water treatment device is a hollow structure, which Installed at the top opening of the cup body, and there is a pouring port for water outlet between it and the top edge of the cup body, a water inlet is provided on the top of the water treatment device, and a horizontal partition board is provided in the water treatment device. The partition plate divides the inside of the water treatment device into upper and lower chambers, wherein the upper chamber is a water supply chamber, and the lower chamber is a water pump chamber; a check valve A is arranged on the partition board, and the check valve A and The water adding chamber is connected with the water pump chamber, and the water in the water adding chamber flows to the water pump chamber through the one-way valve A; the described water adding chamber is provided with a pressurizing device, and the bottom of the described pressurizing device is fixedly connected with the partition plate, A one-way valve B is arranged on the partition plate, and the one-way valve B is connected with the water pump chamber and the pressurizing device. The high-pressure gas in the pressurizing device enters the water pump chamber through the one-way valve B, and the water in the water pump chamber Apply pressure; the center of the bottom of the pump cavity is provided with a strontium mineralization filter element, the upper part of the strontium mineralization filter element is located in the water pump cavity, and the lower part is located in the water storage cavity, and the bottom of the strontium mineralization filter element is provided with At the water outlet, the strontium mineralization filter element is composed of porous ceramics based on rectorite, composite sintered mineral filter material and strontium functional mineralization filter material from top to bottom. The water in the water pump chamber is under the pressure of high-pressure gas. After being purified by the strontium mineralization filter element and strontium mineralization treatment, it enters the water storage chamber from the water outlet.

The pressurizing device includes a pressurizing cylinder, a push rod, an upper valve plate, a lower valve plate and a silicone ring, wherein the upper valve plate and the lower valve plate are fixed on the bottom end of the push rod, and the upper valve plate and the pressure cylinder The inner wall is fitted, the diameter of the upper valve plate is larger than that of the lower valve plate, there is a gap between the lower valve plate and the inner wall of the pressure cylinder, the silicone ring is located between the two valve plates, and the silicone ring is in close contact with the inner wall of the pressure cylinder; when manually pushing down When the push rod is pressurized, the silicone ring is attached to the upper valve plate, the pressurized cylinder is sealed, and the gas is pressed into the water pump chamber through the one-way valve B to achieve the purpose of boosting; when the push rod is pulled back, the silicone ring Fitted with the lower valve plate, due to the existence of the gap, the pressurized cylinder cannot be sealed, and the outside air can flow into the pressurized cylinder.

The rectorite _- based porous ceramics are formed by mixing main materials and auxiliary materials and then _sintering and grinding. solvents and thinners.

The composite sintered mineral filter material is a composite sintered mineral filter material obtained by applying ultrasonic wave, inorganic acid modification, inorganic salt modification and high-temperature heating modification to medical stone, zeolite and volcanic stone, and then high-temperature sintering.

The strontium functional mineralized filter material is natural mineral celestite.

Compared with the prior art, the strontium mineralization water bottle based on the strontium mineralization filter element provided by the present invention has the following advantages: 1. The strontium mineralization filter element used in this application is porous based on rectorite from top to bottom. Ceramics, composite sintered mineral filter materials and strontium functional mineralized filter materials, among which the rectorite-based porous ceramics obtained through independent research and firing are a type of ceramic material with pores as the main phase, which has good purification effect and Large amount of pollution, reusable and other advantages. Putting it on the front of the filter element can remove all solids, colloidal particles and some heavy metals above the micron level in tap water. The composite sintered mineral filter material obtained by high temperature sintering after the modification process of medical stone, zeolite and volcanic stone by ultrasonic, inorganic acid modification, inorganic salt modification and high temperature heating has excellent exchange adsorption function. Placing it in the middle of the filter element can adjust the pH value of the water to weak alkaline, remove total nitrogen, total phosphorus and heavy metal pollutants in the water, and exchange some beneficial mineral elements. Utilizing the natural mineral celestite with high strontium content, a mineralized filter material with strontium mineralization function is designed and developed, and it is filled in the tail of the filter element to realize the mineralization of the water body to obtain strontium-rich mineralized water. 2. The device provided by this application is equipped with a pressurizing device, which can continuously pressurize the water pump cavity by pushing the push rod back and forth in order to improve the filtration and mineralization efficiency. To sum up, the new strontium mineralized water bottle can be widely used in ordinary families to provide residents with strontium mineralized water and protect human health.

Description of drawings

Fig. 1 is the overall structure schematic diagram of the strontium mineralization kettle based on the strontium mineralization filter element provided by the present invention;

In the figure: 1-water inlet, 2-push rod, 3-water outlet, 4-one-way valve A, 5-upper valve plate, 6-silicone ring, 7-lower valve plate, 8-one-way valve B, 9-rectorite-based porous ceramics, 10-cup body, 11-composite sintered mineral filter material, 12-separation plate, 13-pressurized cylinder, 14-strontium functional mineralized filter material.

Detailed ways

The present invention will be described in detail below in conjunction with the accompanying drawings, but the protection scope of the present invention is not limited to the following embodiments.

The overall structure of the strontium mineralization water bottle based on the strontium mineralization filter element provided by the present invention is shown in Figure 1, including a cup body 10 and a handle. device.

The water treatment device is a hollow structure, which is installed at the top opening of the cup body 10, and there is a pouring port for water outlet between it and the top edge of the cup body, and a water filling port 1 is arranged on the top of the water treatment device. A transverse partition 12 is arranged in the device, and the partition 12 divides the inside of the water treatment device into upper and lower chambers, wherein the upper chamber is a water adding chamber and the lower chamber is a water pump chamber.

A one-way valve A4 is arranged on the partition plate, and the one-way valve A4 is connected with the water filling chamber and the water pump chamber, and the water in the water filling chamber flows to the water pump chamber through the one-way valve A4. A pressurizing device is provided in the water adding chamber, the bottom of the pressurizing device is fixedly connected with the partition plate 12, and a one-way valve B8 is arranged on the partition plate, and the one-way valve B8 is connected with the water pump chamber and the partition plate 12. The pressurizing device is connected, and the high-pressure gas in the pressurizing device enters the water pump chamber through the one-way valve B8, and pressurizes the water in the water pump chamber.

The pressurizing device includes a pressurizing cylinder 13, a push rod 2, an upper valve plate 5, a lower valve plate 7 and a silicone ring 6, wherein the upper valve plate 5 and the lower valve plate 7 are fixed on the bottom end of the push rod 2 , the upper valve plate 5 is attached to the inner wall of the pressure cylinder 13, the diameter of the upper valve plate 5 is larger than that of the lower valve plate 7, the lower valve plate 7 is spaced from the inner wall of the pressure cylinder 13, and the silicone ring 6 is located between the two valve plates, and The silicone ring 6 is in close contact with the inner wall of the pressurizing cylinder 13; when the push rod 2 is manually pushed down to pressurize, the silicone ring is attached to the upper valve plate, the pressurizing cylinder is sealed, and the gas is pressed into the water pump chamber through the one-way valve B , in order to achieve the purpose of pressurization; when the push rod is pulled back, the silicone ring is attached to the lower valve plate. Due to the existence of the gap, the pressurized cylinder cannot be sealed, and the outside air can flow into the pressurized cylinder.

The center of the bottom of the water pump cavity is provided with a strontium mineralization filter element, the upper part of the strontium mineralization filter element is located in the water pump cavity, and the lower part is located in the water storage cavity, and the bottom of the strontium mineralization filter element is provided with a water outlet 3 , the strontium mineralization filter element from top to bottom is the rectorite-based porous ceramic 9, the composite sintered mineral filter material 11 and the strontium functional mineralization filter material 14, and the water in the water pump chamber is under the pressure of the high-pressure gas , after being purified by the strontium mineralization filter element and strontium mineralization treatment, it enters the water storage chamber from the water outlet 3.

The rectorite _- based porous ceramics are formed by mixing main materials and auxiliary materials and then _sintering and grinding. solvents and thinners. The material is a type of ceramic material with pores as the main phase, and has the advantages of good purification effect, large amount of decontamination, and reusability. Putting it on the front end of the filter element can remove all solids, colloidal particles and some heavy metals above the micron level in tap water.

The composite sintered mineral filter material is a composite sintered mineral filter material obtained by high-temperature sintering after medical stone, zeolite and volcanic stone are modified by ultrasonic waves, inorganic acid modification, inorganic salt modification and high-temperature heating modification. Excellent exchange adsorption function. Placing it in the middle of the filter element can adjust the pH value of the water to weak alkaline, remove total nitrogen, total phosphorus and heavy metal pollutants in the water, and exchange some beneficial mineral elements.

The strontium functional mineralized filter material is the natural mineral celestite, and the mineralized filter material with strontium mineralization function is developed by using the natural mineral celestite with high strontium content, which is filled in the tail of the filter element to realize the Mineralization of water bodies to obtain strontium-rich mineralized water.

Claims (5)

1. the strontium mineralising kettle based on strontium mineralising filter core, at least comprise cup and handle, the inside of cup is water storage cavity, it is characterized in that: the top of water storage cavity is provided with water treatment device, described water treatment device is hollow structure, it is installed on the top open part of cup, and the pouring mouth left between itself and the top sides edge of cup for water outlet, water treatment device top is provided with filler, the division plate of a transverse direction is provided with in water treatment device, the interior separation of water treatment device is become upper and lower two chambers by described division plate, wherein upper chamber is for adding water cavity, lower chambers is water pump chamber, division plate is provided with check valve A, described check valve A with add water cavity and be connected with water pump chamber, the water added in water cavity flows to water pump chamber by check valve A, described adding in water cavity is provided with pressurizing device, bottom and the division plate of described pressurizing device are fixedly connected, division plate is provided with check valve B, described check valve B is connected with pressurizing device with water pump chamber, high pressure gas in pressurizing device enter water pump chamber by check valve B, and exert pressure to the water in water pump chamber, the place of bottom centre in described water pump chamber is provided with strontium mineralising filter core, the upper part of described strontium mineralising filter core is positioned at water pump chamber, its underpart is positioned at water storage cavity, and the bottom of strontium mineralising filter core is provided with water outlet, described strontium mineralising filter core is followed successively by based on the porous ceramics of rectorite leng, complex sintered mineral filtrate and strontium functional type mineralising filtrate from top to bottom, water in water pump chamber is under the pressure effect of high pressure gas, after the purification and the process of strontium mineralising of strontium mineralising filter core, enter water storage cavity by water outlet.

2. the strontium mineralising kettle based on strontium mineralising filter core according to claim 1, it is characterized in that: described pressurizing device comprises and adds pressure cylinder, push strut, upper valve block, lower disc and silica gel ring, wherein go up the bottom that valve block and lower disc are fixed on push strut, upper valve block with add pressure cylinder inwall and fit, the diameter of upper valve block is greater than lower disc, lower disc and add pressure cylinder inwall and have interval, silica gel ring between two valve blocks, and silica gel ring with add pressure cylinder inwall close contact; When manually promoting push strut pressurization downwards, silica gel ring and upper valve block are fitted, and add pressure cylinder airtight, and gas is pressed into water pump chamber by check valve B, to reach the object of supercharging; Toward pull back push strut time, silica gel ring and lower disc are fitted, and due to the existence in space, adding pressure cylinder cannot be airtight, and ambient atmos can flow into and add pressure cylinder.

3. the strontium mineralising kettle based on strontium mineralising filter core according to claim 1, it is characterized in that: the described porous ceramics based on rectorite leng forms by sintering and grind after major ingredient and auxiliary material mixing, major ingredient is rectorite leng, zeolite and kaolin, and auxiliary material is talcum, Al ₂o ₃, potter's clay, lazurite, pore-forming material and thinner.

4. the strontium mineralising kettle based on strontium mineralising filter core according to claim 1, is characterized in that: described complex sintered mineral filtrate is by the complex sintered mineral filtrate that obtains of high temperature sintering again after adopting ultrasonic wave, mineral acid modification, inorganic salt modification and heat modified technique to medical stone, zeolite and volcanized rock.

5. the strontium mineralising kettle based on strontium mineralising filter core according to claim 1, is characterized in that: described strontium functional type mineralising filtrate is natural mineral lazurite.