JPH0787929A - Production of healthy salt and its production equipment - Google Patents

Abstract

PURPOSE:To obtain a healthy salt with excellent anti-oxidation property, by washing a raw salt, drying at a pre-determined low temperature, pulverizing, and mixing with a suitable amount of fossil shell calcium, etc., to prevent development of an electromagnetism by keeping as cationic, and to neutralize an oxygenic poison caused by a strongly alkaline hydrogen peroxide. CONSTITUTION:To obtain the objective healthy salt by washing a raw salt, but not washing a pulverized salt, drying at a low temperature lower than 40 deg.C, pulverizing it to approximately 100 mesh, and mixing a fossil shell calcium of 0.5-18% and magnesium chloride of 0.5-1% to keep as cationic and to prevent development of electromagnetism. It is preferable to produce the healthy salt by using an ionization preventing low temperature drying equipment 2, which is constructed with a drying room 2A, a heater 2B which is connected to the drying room 2A, a dehumidifier 2C which is set in the drying room 2A, an exhaust pipe 2D which is set as connecting the drying room 2A and connects to outside air, and a stand for the raw salt 2E which is set in the drying room 2A.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for producing healthy sodium chloride, and an apparatus for producing the method.

[0002]

2. Description of the Related Art Heretofore, in this type, the following has been done. The company designated by the Government of Japan based on the Salt Monopoly Act, namely the salt industry center of Japan Tobacco Inc., imports and stores, supplies and stores raw salt related to salt, and produces, sells, wholesales and retails the seawater near Japan as the main raw material. Performs operations such as designation of persons and receipt of notification of manufacturing and sales of special salt according to Article 17 of the same law. During this period, clearing the Fair Trade Commission Law and Pharmaceutical Affairs Law, acting as a de facto permit for management and administration of salt Is going.

The salt production method in Japan has been mainly the production method of sun salt according to the salt field method since ancient times, but since Japan was industrialized, spraying out of agricultural chemicals, detergent, arsenic, mercury, lead in industrial wastewater,
For the purpose of preventing pollution by heavy metals such as cadmium and reducing the cost, the contaminants are filtered by the ion-exchange membrane salt-making method, dried in a vacuum can by evaporation at a high temperature of 65 to 130 ° C, and dried as table salt. Normal salt and salt are supplied. In addition, the salt that has been notified and approved as a special salt is also a product containing minerals and other substances.

[0004]

The problems described in the prior art have the following problems. Since the means of drying in these salt making methods is a method of evaporating and removing water by high heat, it becomes a substance that ionizes and generates a strong electromagnetic field, becomes a substance that binds with gastric acid and becomes sodium chloride, and "minus" ionized large amount of electrons May adsorb Vils, which has harmful effects on the body, and cancer cells with mutated cells. Normal salt, salt, etc., which are generally consumed based on the salt monopoly method, are filtered by the ion exchange membrane method for the purpose of pollution prevention, production cost saving, etc. Therefore, the product is ionized negatively and becomes a product having a strong electromagnetic field, which causes various problems at the digestion and absorption stage.

In addition, most of the commercially available salts for special use have been heat-treated and the above-mentioned state is repeated. The present application has been made in view of such problems of the conventional technology, and an object of the present application is to provide a device capable of solving the above problems.

[0006]

In order to achieve the above object, the present invention is as follows. That is,
The first aspect of the present invention is a method for producing healthy salt, comprising the following first to third steps. Step 1-Wash the raw salt with water, do not wash the ground salt with water, and dry it at a predetermined low temperature. The thing which passed through the 2nd process-the 1st process is pulverized into a predetermined mesh. Mixing a suitable amount of shell fossil calcium and magnesium chloride by using a mixer equipped with a vacuum pump after passing through the third step to the second step, and leaving it as a cation to prevent generation of an electromagnet.

In this case, the following can be done. The treatment temperature in the first step is a low temperature of 40 degrees Celsius or less, the pulverization degree in the second step is about 100 mesh, the fossil calcium shell is 0.5 to 18%, and the magnesium chloride is 0% in the third step. Mix 5 to 1%.

The second invention is a health salt producing apparatus as described below. Ionization prevention low temperature dryer 2
The ionization prevention low temperature drying device 2 includes a drying chamber 2A, a heater 2B connected to the drying chamber 2A, and a drying chamber 2A.
The heater 2B includes a dehumidifier 2C disposed inside, an exhaust pipe 2D connected to the drying chamber 2A that communicates with the outside air, and a raw salt mount 2E disposed inside the drying chamber 2A. It is configured to blow only hot air from the outside of the drying room at a low temperature of 40 degrees Celsius or less, and the crusher 3 is configured to crush what is processed by the ionization prevention low temperature drying device 2 to about 100 mesh and discharge it. Mixer with vacuum pump 4
Is composed of a mixer main body 4A and a vacuum pump 4C connected to the mixer main body via an air filter 4B.

[0009]

EXAMPLES Examples will be described with reference to the drawings. The method for producing healthy salt according to the first aspect of the invention is configured as follows. First Step (Ionization Preventing Low Temperature Drying Step) The raw salt is washed with water and the crushed salt is not washed with water, but dried at a low temperature of 40 ° C. or lower.

The raw salt and crushed salt satisfying the following conditions are used. 1. Collect beautiful seawater from Perth, Australia. 2. When the tide is high on the sandy beach, the water is stored in a sun fan and dried in the sun. 3. Imported by the Salt Center of Japan Tobacco Inc. 4. Raw or crushed salt is purchased from a salt wholesaler. For drying, only the hot air of the jet heater heat source is blown from outside the drying room at a low temperature of 40 degrees Celsius or less, and moisture is absorbed and dried by a dehumidifier installed outside the room.

The second step is pulverization by a pulverizer to about 100 mesh. As this crusher, "Sogo crusher" (trademark-mutual industry Co., Ltd.) was used. Third step (vacuum mixing treatment step) With a mixer equipped with a vacuum pump, shell fossil calcium 0.5
-18% and magnesium chloride 0.5-1% are mixed to keep the cations to prevent generation of electromagnet. For this reason, in this process, a vacuum pump is attached to a stainless steel mixer to create a vacuum, and mixing and packaging is performed as it is to avoid air pressure in the manufacturing process. Step 4 Pack the product. In addition, about the compounding ratio of the product, the thing of the following states was suitable. Raw salt 95.5%, shell fossil calcium 4%, magnesium chloride 0.5%.

The healthy salt producing apparatus 1 of the second invention comprises an ionization preventing low temperature drying apparatus 2, a crusher 3 and a mixer 4 with a vacuum pump.

The details of the configuration will be described below in order. The ionization prevention low temperature drying device 2 includes a drying chamber 2A, a heater 2B connected to the drying chamber 2A, a dehumidifier 2C arranged in the drying chamber 2A, and an outside air connected to the drying chamber 2A. It is composed of an exhaust pipe 2D communicating with each other and a raw salt mount 2E arranged in the drying chamber 2A.

The drying chamber 2A includes a floor surface 2A1, front and rear left and right side wall surfaces 2A2 standing upright on the outer periphery of the floor surface, a ceiling surface 2A3 stretched on the upper surface of the side wall surface, and a front side wall surface. And a product loading / unloading port 2A4 provided in the.
The heater 2B is a known so-called jet heater and has a temperature of 4 degrees Celsius.
It is configured to blow only hot air from outside the drying room at a low temperature of 0 degrees or less. The raw salt mount 2E includes a frame 2E1 in which a proper number of shelves are stacked, and a raw salt developing plate 2E2 that is removably placed on the shelves.

2E3 is a caster. 2F is a known controller. 2C1 is a drain pipe of the dehumidifier. Therefore, when the hot air from the heater 2B becomes 40 degrees Celsius or more in the drying room, the thermostat attached to the controller is activated, the power of the heater 2B is automatically stopped, and the room temperature is always 40 degrees Celsius. Is configured to be maintained at.

The crusher 3 is a known one as described above, but the raw material is sent into the crushing chamber, and the rotor having the pins radially attached for 2 to 3 turns is attached to the lid. It is configured to rotate so as to mesh with the stator, to be pulverized by impact and shearing action, to be sized by a screen by centrifugal force and wind force, and to be pulverized to about 100 mesh and discharged. In this case, the rotation speed of the known pulverizer is 3000 rpm for 1 minute, but 6 minutes for 1 minute by changing the ratio of the diameter of the rotary shaft of the motor to the diameter of the rotary shaft of the crusher.
By increasing the speed to 200 rpm, it is useful for pulverizing the dry salt of the raw material.

The mixer 4 with a vacuum pump is a mixer body 4
A and a vacuum pump 4C connected to the mixer body via an air filter 4B. Therefore, the mixer body 4A includes a case 4A1 whose lower surface is formed into a substantially U-shaped cross section, a lid 4A2 which is detachably fitted into an upper opening of the case from above, and is rotatably arranged in the case 4A1. A vacuum pump 4C is connected via an air filter 4B to the suction pipe 4A4, which is composed of a suitable number of stirring blades 4A3 provided and is connected to the lid 4A2.

The operation and effects will be described.

[0019]

Since the present invention is configured as described above, it has the following effects. 1. The following effects can be expected from the use of Australian raw salt. Sea salt rich in beautiful minerals from the South Sea is naturally dried on the beach as sun salt, and the raw salt that absorbs solar energy and does not contain pollutants is mainly composed of sodium chloride, but it is digested and absorbed for human survival. The mechanism is that the osmotic pressure due to the difference in the body fluid and the sodium ion concentration causes a smooth absorption action, and if there is not an appropriate amount of sodium chloride (8 to 10 g per day for adults) for cell division, survival and metabolism, the water escapes. This results in depletion of cells.

In order to always maintain youthfulness, it is necessary to supplement a proper amount of salt. On the other hand, when the salt content is excessive, it is considered that arteriosclerosis and hypertension are not likely to occur except in patients with essential hypertension, and rather the harmful effect of excreting beneficial minerals such as potassium, magnesium and calcium is performed.
In addition, the difference in foods, for example, when mainly eating meat does not require much salt, and when the staple food is main food, the damage due to excessive salt is unlikely to occur.

2. By the ionization prevention low temperature drying process, water in the object is extracted and liquefied even at low temperature.
Since it is dried even at a temperature of 0 ° C or lower, it can be used as healthy salt that is not ionized and is digested and absorbed as positive. In order to dry even at a low temperature, it is possible to prevent ionization by absorbing moisture by absorbing moisture and liquefying the moisture to let it out of the drying chamber without evaporating the moisture in the object. 3. By the vacuum mixing process step, ionization can be prevented by eliminating the air pressure to the product and promptly performing the packaging means.

4. The following effects can be expected from the addition of shell fossil calcium. The circulation of blood supplies humans with nutrition to facilitate metabolism. At that time, it is classified into alkaline blood (alkalodises) type and acidic blood (atidosis) type, but it is said that the person on the side of alkalodisis can maintain health and the person on the side of achidosis is sick. If the ratio of calcium 1 to nucleic acid (phosphate) 2 is not maintained, cell division and metabolism are wasted. Therefore, even if you get tired of high-class food, the result is not useful for your health.

The average calcium requirement of the Japanese is 1 adult
600 mg per day is required, but if supplementation is insufficient, it is automatically stored in hard tissues such as bones and teeth 9
9% of calcium gradually flows out into the blood vessel, and binds with cholesterol to form a lime wall, which impairs blood flow and causes adult diseases. This action is called "paradox",
A stable supply of calcium is important for health care so as not to cause this condition.

There are many sources of calcium,
Mainly used are limestone, egg shells, bone meal, husks, fish bones, etc. When they enter the body, they are "minus" ionized and generate electromagnetic waves. On the other hand, as for fossil shells, the pythons that lived in the Funka Bay area in Hokkaido become fossils due to changes in the crust and are buried 20 to 40 m underground due to weathering for 3 to 15 million years. It is classified into the Setana Formation (including the Yakumo Nodaoi district) and the Kuromatsunai Formation. Calcium carbonate, which is the main component, has some differences in its purity, but it is a "positive" ion when it is digested and absorbed in the body. Therefore, it has a small amount of electrons and is effective for digestion and absorption.

5. The following effects can be expected from the addition of magnesium chloride. Magnesium chloride is collected from seawater and has a purity of 98%.
To activate heart activity and prevent cardiovascular disorders,
It is a necessary substance together with calcium, but it has a hygroscopic property, which may cause the solidification of salts. Therefore, it is necessary to devise a mixing ratio or a container depending on its use.

6. It can be used as an external item.
Not only can healthy salt be used for drinking and drinking, but it can also be used as a beauty and health household product by softening the skin when used as an external product for bathing and washing. Cleans the sweat glands and sebaceous glands of the human body to enhance skin respiration, and further neutralize hydrogen peroxide (H ₂ O ₂ ) which is an oxygen poison to make the skin soft and smooth. Secondly, the use of this healthy salt is accompanied by massage, which synergistically improves blood circulation. As a result, it is practically useful for promoting health as a substitute for soap, shampoo, cosmetics and the like.

7. As described above, the healthy salt obtained in the present invention not only removes water even at low temperatures, but also prevents ionization and further increases digestion and absorption rates for several million years (300
(~ 15 million years), it becomes a fossil and completely weathered, and extremely high-purity shell fossil calcium (silver snail) is added to make highly alkaline healthy salt, which neutralizes oxygen poisoning by hydrogen peroxide (H ₂ O ₂ ). In addition, the activity of antioxidative activity is increased, and the protein necessary for cell division and metabolism is added to the nuclear DNA.
A, it is intended to be useful for supplementing calcium as a transporter for producing chromosomes and the like.

[Brief description of drawings]

FIG. 1 is a perspective view in which a part of an ionization preventing low temperature drying device is cut away.

FIG. 2 is a perspective view of a usage state of the crusher.

FIG. 3 is a perspective view in which a mixer with a vacuum pump is partially cut away.

[Explanation of symbols]

 1 Healthy salt production equipment 2 Ionization prevention low temperature drying equipment 3 Crusher

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[Procedure amendment]

[Submission date] November 24, 1993

[Procedure 3]

[Document name to be amended] Statement

[Name of item to be corrected] 0024

[Correction method] Added

[Correction content]

There are many sources of calcium,
Mainly used are limestone, egg shell, bone meal, husks, fish bones , milk, etc., but when they enter the body, they are "minus" ionized and generate an electromagnetic field. On the other hand, as for fossil shells, the pythons that lived in the Funka Bay area in Hokkaido become fossils due to changes in the crust and are buried 20 to 40 m underground due to weathering for 3 to 15 million years. It is classified into the Setana Formation (including the Yakumo Nodaoi district) and the Kuromatsunai Formation. Calcium carbonate, which is the main component, has some differences in its purity, but there is a "plus" in digestion and absorption in the body.
Since it is an ion, it has a small amount of electrons and is effective in digestion and absorption.

Claims (3)

[Claims] 1. A method for producing healthy sodium chloride, comprising the following first to third steps. Step 1-Wash the raw salt with water, do not wash the ground salt with water, and dry it at a predetermined low temperature. The thing which passed through the 2nd process-the 1st process is pulverized into a predetermined mesh. Mixing a suitable amount of shell fossil calcium and magnesium chloride by using a mixer equipped with a vacuum pump after passing through the third step to the second step, and leaving it as a cation to prevent generation of an electromagnet. 2. The treatment temperature in the first step is a low temperature of 40 degrees Celsius or less, the crushing degree in the second step is about 100 mesh, and the shell fossil calcium is 0.5 to 1 in the third step.
The method for producing healthy salt according to claim 1, wherein 8% and magnesium chloride are mixed in an amount of 0.5 to 1%. 3. An ionization prevention low temperature drying device (2), a crusher (3), and a mixer (4) with a vacuum pump, wherein the ionization prevention low temperature drying device (2) comprises a drying chamber (2).
A) and a heater (2) connected to this drying chamber (2A)
B) and a dehumidifier (2C) arranged in the drying chamber (2A)
And an exhaust pipe (2D) connected to the drying chamber (2A) and communicating with the outside air, and a raw salt mount (2E) disposed in the drying chamber (2A), and a heater (2B). Is configured so that only hot air is blown from outside the drying room at a low temperature of 40 degrees Celsius or less, and the crusher (3) crushes the product processed by the ionization prevention low temperature drying device (2) to about 100 mesh and discharges it. The mixer (4) with a vacuum pump is composed of a mixer body (4A) and a vacuum pump (4C) connected to the mixer body via an air filter (4B). An apparatus for producing healthy salt characterized by the above.