CN109626541B - Mineral substance slow release device - Google Patents

Abstract

The invention discloses a mineral slow-release device; the device comprises three hollowed-out stainless steel shells which are detachably connected together, wherein a zinc supplementing slow release ball, a negative potential slow release ball and a far infrared mineral slow release ball are respectively arranged in the shells. According to the invention, the three mineral slow-release balls can release minerals basically and uniformly by combining the dosage proportion of the shell layer materials of the mineral slow-release balls and the preparation process, and the requirement of reasonably supplying minerals can be met.

Description

Mineral substance slow release device

Technical Field

The invention relates to a mineral substance slow release device.

Background

At present, due to environmental pollution, urban population increase, water quality deterioration, and safety and health problems of drinking water quality have become topics which are frequently discussed and concerned by people. How to improve the water quality and enable people to drink drinking water with a healthy and reassuring function is a major problem to be solved by many countries and enterprises. At present, scientific research finds that the water quality condition is changed by utilizing electromagnetic energy, far infrared energy and the like generated by some natural mineral substances such as marine organisms, tourmaline and the like, so that the water quality achieves the aim of contributing to the health function.

For example, CN 202193655U discloses a negative potential active drinking water generator, which comprises a barrel, wherein a first barrel cover and a second barrel cover are respectively arranged at two ends of the barrel, a water inlet and a water outlet are respectively arranged on the first barrel cover and the second barrel cover, mesh covers are respectively arranged on the water inlet and the water outlet, and natural ore is arranged in the barrel; the natural ore can generate strong negative potential, electromagnetic energy and far infrared energy, so that the water is in negative potential. Therefore, the generator can be used as water treatment equipment alone or placed in other water treatment equipment such as a direct drinking machine, a water production machine, a purifier, a water purification machine and the like, and is used for improving the ecological function of water quality. However, the natural ore in the cylinder body has a single function and cannot meet the requirement of reasonably supplying minerals; the mode of the function is uncontrollable, mineral substances can not be basically and uniformly released in the service life, and the water quality for drinking each time is not ecological and balanced; meanwhile, the defect that whether the natural ore material is completely consumed cannot be predicted exists, and the generator can be replaced in advance, so that waste is caused.

CN 203065185U discloses a detachable water guide device of multilayer, contains two or more series connection water guide monomer integrative, adopt releasable connection between the water guide monomer, each water guide monomer is equipped with different filter materials in, the consumption speed of various filter materials is different, makes things convenient for the change of consumable filter material to ensure that water guide is in its efficiency in the aspects such as zinc of carrying, heavy metal removal, weak base, activation quality of water better continuous performance. However, it also exists that the need for a reasonable supply of minerals cannot be met; the mode of the function of various filter materials is uncontrollable, and the mineral substances can not be basically and uniformly released within the service life, so that the defect of unbalanced water quality ecology for drinking each time is caused; meanwhile, the defect that whether the natural ore materials are completely consumed cannot be judged quickly and conveniently exists.

Disclosure of Invention

The invention aims to overcome the defects of the prior art that the mineral can not be basically and uniformly released within the service life, so that the water quality is not balanced ecologically every time the water is drunk, and provides a mineral slow-release device.

The purpose of the invention is realized by the following technical scheme:

in a first aspect, the invention relates to a mineral slow-release device, which is characterized by comprising three hollowed-out stainless steel shells which are detachably connected together; the shell is internally provided with a zinc supplementing slow release ball, a negative potential slow release ball and a far infrared mineral slow release ball respectively.

Preferably, a filter screen is arranged between the inner side of the shell and the zinc supplement slow release ball, the negative potential slow release ball or the far infrared mineral slow release ball.

Preferably, the stainless steel shell is spherical.

Preferably, the diameters of the zinc supplement slow release ball, the negative potential slow release ball and the far infrared mineral slow release ball are 1.8-3.3 cm respectively.

Preferably, the zinc supplement slow release ball comprises the following components in percentage by weight based on the total weight of the zinc supplement slow release ball:

food-grade KDF 5560% -70%,

20 to 25 percent of medical stone powder,

10 to 20 percent of kaolin.

Preferably, the negative potential slow release ball comprises the following components in percentage by weight based on the total weight of the negative potential slow release ball:

60 to 70 percent of magnesium powder,

15 to 25 percent of medical stone powder,

10 to 20 percent of kaolin.

Preferably, the far infrared mineral slow release ball comprises the following components in percentage by weight based on the total weight of the far infrared mineral slow release ball:

5 to 15 percent of far infrared powder,

80 to 90 percent of medical stone powder,

3 to 9 percent of kaolin.

Preferably, the zinc supplement sustained-release ball is prepared by a method comprising the following steps:

uniformly mixing the food-grade KDF55, medical stone powder and kaolin, and adding water to be plastic, thereby obtaining a zinc supplement material;

and (3) preparing the zinc supplement material into a spherical shape, and calcining at 400-500 ℃ for 3-5 h to obtain the zinc supplement slow release ball.

Preferably, the negative potential slow release ball is prepared by a method comprising the following steps:

uniformly mixing the magnesium powder, the medical stone powder and the kaolin, and adding water to be plastic, so as to obtain a negative potential material;

and (3) preparing the negative potential material into a spherical shape, and calcining the spherical shape at 400-480 ℃ for 3-5 hours to obtain the negative potential slow release ball.

Preferably, the far infrared mineral slow release ball is prepared by a method comprising the following steps:

mixing the far infrared powder, medical stone powder and kaolin uniformly, and adding water to obtain a plastic material;

and (3) preparing the far infrared mineral materials into spheres, and calcining the spheres at 550-650 ℃ for 3-5 hours to obtain the far infrared mineral slow release spheres.

Preferably, the zinc supplement slow release ball, the negative potential slow release ball and the far infrared mineral slow release ball are respectively provided with small balls containing color mineral powder.

Preferably, the ratio of the diameters of the zinc slow-release ball, the negative potential slow-release ball and the far infrared mineral slow-release ball to the built-in ball containing the color mineral powder is 1: 4.5-5.5 respectively.

Preferably, the pellets containing colored mineral powder comprise the following components in percentage by weight based on the total weight of the pellets containing colored mineral powder:

60 to 70 percent of colored mineral powder,

15 to 25 percent of medical stone powder,

10 to 20 percent of kaolin;

the colored mineral powder is a mixture of far infrared ceramic powder, negative ion powder and hematite powder in a mass ratio of 2-3: 1-2: 1.

At this time, in the corresponding zinc supplement slow release ball, the mineral slow release shell layer of the zinc supplement slow release ball comprises the following components in percentage by weight based on the total weight of the mineral slow release shell layer:

food-grade KDF 5560-70%,

20 to 25 percent of medical stone powder,

10 to 20 percent of kaolin.

During preparation, the colored mineral powder, the medical stone powder and the kaolin are mixed, stirred and molded to obtain a small sphere containing the colored mineral powder, the small sphere containing the colored mineral powder is taken as a core body, and the negative potential material is wrapped outside the small sphere; calcining for 3-5 hours at 400-480 ℃ to obtain the negative potential slow release ball.

In the corresponding negative potential slow release ball, the mineral slow release shell layer of the negative potential slow release ball comprises the following components in percentage by weight based on the total weight of the mineral slow release shell layer:

60 to 70 percent of magnesium powder,

15 to 25 percent of medical stone powder,

10 to 20 percent of kaolin.

During preparation, the colored mineral powder, the medical stone powder and the kaolin are mixed, stirred and molded to obtain a small sphere containing the colored mineral powder, the small sphere containing the colored mineral powder is taken as a core body, and the negative potential material is wrapped outside the small sphere; calcining for 3-5 hours at 400-480 ℃ to obtain the negative potential slow release ball.

In the corresponding far infrared mineral slow release ball, the mineral slow release shell layer of the far infrared mineral slow release ball comprises the following components in percentage by weight based on the total weight of the mineral slow release shell layer:

5 to 15 percent of far infrared powder,

80 to 90 percent of medical stone powder,

3 to 9 percent of kaolin.

During preparation, the colored mineral powder, the medical stone powder and the kaolin are mixed, stirred and molded to obtain a small sphere containing the colored mineral powder, and the infrared mineral material is coated outside the small sphere containing the colored mineral powder as a core body; calcining at 550-650 ℃ for 3-5 h to obtain the far infrared mineral slow release ball.

Compared with the prior art, the invention has the following beneficial effects:

1. the mineral matter slow release device integrates the zinc supplement slow release ball, the negative potential slow release ball and the far infrared mineral slow release ball, so that the simultaneous zinc supplement, negative potential and mineral matter supplement can be realized by using one set of device;

2. the mineral slow release device integrates the zinc supplement slow release ball, the negative potential slow release ball and the far infrared mineral slow release ball which have specific compositions and are prepared by a specific process, and each mineral ball can realize a slow release function, namely, the mineral can be basically and uniformly released in the service life, so that the water quality of the treated drinking water is ecologically balanced;

3. the mineral slow-release device comprises three hollowed-out stainless steel shells which are detachably connected together, and a certain mineral slow-release ball can be conveniently and independently replaced;

4. the mineral slow-release ball is embedded with colored mineral powder pellets, and after the material of the mineral slow-release shell is consumed, the colored powder is dissolved out to remind the corresponding mineral slow-release ball to be replaced.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic view of a mineral slow release device;

FIG. 2 is a diagram of the mineralization degree of the zinc supplement slow release ball, the negative potential slow release ball and the far infrared mineral slow release ball with respect to time;

FIG. 3 is a schematic view of a structure of a mineral slow-release ball containing therein colored mineral powder pellets;

wherein, 1 is the stainless steel casing, 2 is the filter screen, 3 is the mineral substance slow release shell, and 4 is the life-span warning bobble.

Detailed Description

The present invention will be described in detail below with reference to specific embodiments and the accompanying drawings. The following examples will assist those skilled in the art in further understanding the invention, but are not intended to limit the invention in any way. It should be noted that variations and modifications can be made by persons skilled in the art without departing from the spirit of the invention. All falling within the scope of the present invention.

Example 1

The present embodiments relate to a mineral slow release device; as shown in fig. 1, the mineral slow-release device is composed of three balls which are connected, the joints are detachable, and each ball is composed of a hollow stainless steel shell, a filter screen and a mineral slow-release ball and is not detachable; the mineral slow release balls are respectively zinc supplement slow release balls, negative potential slow release balls and far infrared mineral slow release balls.

The zinc supplement slow release ball, the negative potential slow release ball and the far infrared mineral slow release ball are prepared from the following formula:

zinc-supplementing slow-release ball (mass%)

Food grade KDF55	Medical stone powder	Kaolin clay
			70	20	10

Negative potential slow release ball (mass%)

Magnesium powder	Medical stone powder	Kaolin clay
			70	20	10

Far infrared mineral slow release ball (mass%)

Far infrared powder	Medical stone powder	Kaolin clay
				10	84	6

The zinc supplement slow release ball, the negative potential slow release ball and the far infrared mineral slow release ball are respectively prepared as follows:

1. respectively mixing the above materials, adding purified water to a proper extent to make the mixture into spherical shape with diameter of 2.5 cm;

2. calcining and forming:

calcination temperature and time: and (3) zinc ball supplement: 4h at 450 ℃; negative potential ball: at 440 ℃, 4 h; mineral ball: 600 ℃ and 4 h.

The zinc supplementing slow release ball, the negative potential slow release ball and the far infrared mineral slow release ball prepared in the embodiment are respectively soaked in 1000ml of purified water with the temperature of 25 ℃, soaked for 2 hours, 4 hours, 6 hours, 8 hours, 10 hours, 12 hours, 14 hours, 16 hours, 18 hours, 20 hours, 22 hours and 24 hours, then the soaking liquid is taken out, and the mineralization degree is measured according to the national standard GB8538.8-87 which is the method for measuring the mineralization degree in natural mineral water for drinking. The measured mineralization versus time is shown in FIG. 2; as can be seen from FIG. 2, the mineralization degree is basically improved along with the prolonging of the soaking time, the mineralization degree is improved faster before 4 hours, and the mineralization degree of the soaking solution of each mineral slow-release ball is improved more smoothly after 4 hours, namely, the slow-release state is achieved, so that the minerals are basically and uniformly released; and the mineralization degrees of the three slow release balls are very close after 4 hours, so that the requirement of reasonably and comprehensively supplying minerals can be met through proper mineral proportion. In fact, in the system of the invention, the three mineral slow-release balls can basically and uniformly release minerals by limiting the dosage and proportion of the shell layer materials of the mineral slow-release balls, and the requirement of reasonably supplying minerals can be met.

Example 2

The present embodiments relate to a mineral slow release device; the device and the preparation method are basically the same as the embodiment 1, but the difference is that:

1. the zinc supplement slow release ball, the negative potential slow release ball and the far infrared mineral slow release ball are prepared from the following formula:

zinc-supplementing slow-release ball (mass%)

Food grade KDF55	Medical stone powder	Kaolin clay
			60	20	20

Negative potential slow release ball (mass%)

Magnesium powder	Medical stone powder	Kaolin clay
			60	25	15

Far infrared mineral slow release ball (mass%)

Far infrared powder	Medical stone powder	Kaolin clay
			5	90	5

2. During the preparation process, the raw materials are mixed,

forming a sphere with a diameter of 1.8 cm;

calcination temperature and time: and (3) zinc ball supplement: 400 ℃ for 5 h; negative potential ball: 400 ℃ for 5 h; mineral ball: 550 ℃ and 5 h.

Example 3

The present embodiments relate to a mineral slow-release device; the device and the preparation method are basically the same as the embodiment 1, but the difference is that:

colored mineral powder-containing pellets, namely service life reminding pellets, are arranged in each mineral substance slow-release pellet; as shown in fig. 3, each ball in the mineral slow-release device of the present embodiment is composed of a hollow stainless steel casing 1, a filter screen 2 and a mineral slow-release ball, and is not detachable; each mineral slow-release ball consists of a mineral slow-release shell layer 3 and a life reminding pellet 4 embedded in the center of the ball body.

The formula of the life reminding pellet, the zinc supplement slow release pellet, the negative potential slow release pellet and the far infrared mineral slow release pellet is as follows:

life reminding small ball (quality%)

Colored mineral powder	Medical stone powder	Kaolin clay
			65	17	18

The colored mineral powder is a mixture of far infrared ceramic powder, anion powder and hematite powder in a mass ratio of 2:2: 1.

Zinc-supplementing slow-release ball (mass%)

Food grade KDF55	Medical stone powder	Kaolin clay
			63	25	12

Negative potential slow release ball (mass%)

Magnesium powder	Medical stone powder	Kaolin clay
			65	15	20

Far infrared mineral slow release ball (mass%)

Far infrared powder	Medical stone powder	Kaolin clay
			15	80	5

During the preparation process, the raw materials are mixed,

1. according to the formula, the colored mineral powder, the medical stone powder and the kaolin are uniformly mixed and molded to obtain a sphere with the diameter of 0.5cm, namely a service life reminding pellet;

2. respectively mixing uniformly according to the formula, adding a proper amount of purified water until the shape can be formed, taking the service life reminding pellet as a center, and wrapping with mineral ingredients: the diameter of the small ball is 1: 5.

3. Calcining and forming, wherein the calcining temperature and time are as follows: and (3) zinc ball supplement: 500 ℃ for 3 h; negative potential ball: 480 ℃ and 3 h; mineral ball: 650 ℃ and 3 h.

Previous attempts by the inventors to make life-warning pellets with pigments and binders (e.g., kaolin, etc.); however, since the mineral slow-release ball is obtained by calcining under a high-temperature condition, the prior pigment has the highest temperature resistance of only about 180 ℃, and the properties of the pigment are changed later, the life-span reminding ball prepared by the mineral slow-release ball has no effect actually. Through a large number of long-term experiments, the inventor unexpectedly discovers that a mixture of far infrared ceramic powder, anion powder and hematite powder in a certain proportion (the mass ratio is 2-3: 1-2: 1) is adopted to replace pigments, and small spheres containing colored mineral powder are manufactured to serve as life reminding small spheres; when the material of the outer mineral slow-release shell layer is consumed, the water body contacts the small spheres containing the colored mineral powder, and the toner is melted out, so that a user can judge that the mineral slow-release spheres have reached the service life and should be replaced in time.

The foregoing description of specific embodiments of the present invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes and modifications may be made by one skilled in the art within the scope of the appended claims without departing from the spirit of the invention.

Claims (4)

1. A mineral substance slow release device is characterized by comprising three hollowed-out stainless steel shells which are detachably connected together; the shell is internally provided with a zinc supplementing slow release ball, a negative potential slow release ball and a far infrared mineral slow release ball respectively;

small spheres containing colored mineral powder are respectively arranged in the zinc supplement slow release spheres, the negative potential slow release spheres and the far infrared mineral slow release spheres;

the small sphere containing the colored mineral powder comprises the following components in percentage by weight based on the total weight of the small sphere containing the colored mineral powder:

65 percent of colored mineral powder,

17 percent of medical stone powder,

18% of kaolin;

the colored mineral powder is a mixture of far infrared ceramic powder, anion powder and hematite powder in a mass ratio of 2-3: 1-2: 1;

the zinc supplement slow release ball comprises the following components in percentage by weight based on the total weight of the zinc supplement slow release ball:

food-grade KDF 5563 percent,

25 percent of medical stone powder,

12% of kaolin;

the negative potential slow release ball comprises the following components in percentage by weight of the total weight of the negative potential slow release ball:

65 percent of magnesium powder,

15 percent of medical stone powder,

20% of kaolin;

the far infrared mineral slow release ball comprises the following components in percentage by weight based on the total weight of the far infrared mineral slow release ball:

15 percent of far infrared powder,

80 percent of medical stone powder,

5% of kaolin;

the service life reminding small ball is a ball body with the diameter of 0.5cm, and the ratio of the diameter of the service life reminding small ball to the total diameter of the mineral balls is 1: 5.

2. The mineral matter slow-release device according to claim 1, wherein a filter screen is arranged between the inner side of the shell and the zinc supplement slow-release ball, the negative potential slow-release ball or the far infrared mineral slow-release ball.

3. The mineral release device of claim 1, wherein the stainless steel shell is spherical.

4. The mineral matter slow release device of claim 1, wherein the zinc supplement slow release ball is prepared by a method comprising the following steps:

uniformly mixing the food-grade KDF55, medical stone powder and kaolin, and adding water to be plastic, thereby obtaining a zinc supplement material;

preparing the zinc supplement material into a spherical shape, and calcining at 400-500 ℃ for 3-5 h to obtain the zinc supplement slow release ball;

the negative potential sustained release ball is prepared by a method comprising the following steps:

uniformly mixing the magnesium powder, the medical stone powder and the kaolin, and adding water to the mixture until the mixture is plastic, thereby obtaining a negative potential material;

preparing the negative potential material into a spherical shape, and calcining the spherical shape at 400-480 ℃ for 3-5 hours to obtain the negative potential slow release ball;

the far infrared mineral slow release ball is prepared by the method comprising the following steps:

mixing the far infrared powder, medical stone powder and kaolin uniformly, and adding water to be plastic so as to obtain a far infrared mineral material;

and (3) preparing the far infrared mineral materials into spheres, and calcining the spheres at 550-650 ℃ for 3-5 hours to obtain the far infrared mineral slow release spheres.

Images