KR101320764B1 - Device to purify salt, to make baked salt by drying andheat treatment of micrawave - Google Patents

Abstract

In the present invention, the salt is microwaved, and the salt is heated to produce roasted salt, roasted salt, molten salt, etc. according to the heating temperature, or put into a bamboo barrel and processed by using microwave to produce bamboo salt by heating with microwave to produce bamboo salt Relates to a device.
At 2450 MHz, microwaves generate heat while changing the positive and negative poles of 2.45 billion water per second.
The present invention, by adding a microwave to the salt to heat the salt to produce the salt,
The present invention is to have a crucible inside the main body (chamber), to produce a processed salt by heating the salt in the crucible with a microwave, to the inside of the main body has a crucible containing salt, to form a heat insulation wall inside the main body,
Above the main body, it has a gas outlet for discharging the combustion gas generated when salt is heated, salt inlet, gas inlet, etc., and a magnetron and waveguide for generating microwaves outside the main body, and a molten salt discharge port under the main body. The inside has a temperature sensor and a magnetron control unit to provide a salt processing apparatus using a microwave that can be adjusted to a desired temperature.

Description

Device to purify salt, to make baked salt by drying and heat treatment of micrawave}

In general, salts are broadly classified into sun salts, preparation salts, and tablet salts. In recent years, impurities in the salt are not beneficial to the human body, and salt that is not drained by the salt has a bitter taste, so it is not intended to be used in cooking. However, the harmful to the human body is not the water itself, but because it is an impurity contained in the water, it is possible to remove the impurities at high temperatures, to prepare them with bamboo salt, or to dissolve the salt and to prepare salt to eat through salt drying.

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The present invention relates to a dry heat treatment for removing impurities from salt using a microwave and a roasted salt manufacturing apparatus from which impurities are removed as shown in the name thereof.

First, roast the salt produced by heating the salt below 400 ℃ using the microwave, and roast salt and salt prepared by heating the salt above 400 ℃ to heat it over 900 ℃ to melt the salt to process the salt. The purpose of the present invention is to provide a salt type production apparatus that removes impurities by heating the salt to 200 ° C. to 1400 ° C., and drying, heating and melting the salt.

Second, heat the salt to 200 ℃ ~ 1400 ℃ by using microwave which can be used to make bamboo salt in short time by putting salt into bamboo barrel without microwave or coal or resistance heating. It is to provide salt processing manufacturing equipment

Salt treatment apparatus of the present invention for achieving the above object, by heating and melting the salt by microwave,
A body with a crucible inside, a waveguide for supplying microwaves to the inside of the body, and a magnetron for generating microwaves are located outside the body, and the salt of the crucible is heated by microwaves in the body. It has a gas outlet for discharging the generated combustion gas, a salt inlet for injecting salt into the body, and a gas inlet for injecting inert gas such as nitrogen or argon gas, and a molten salt outlet for discharging molten salt. On the other hand, a gas incinerator for burning and extinguishing gas is provided at the gas outlet.
The gas incinerator may be applied to various types of incinerators such as microwave, plasma, electric plasma, LPG, LNG, city gas, and combustion apparatus.
In the chamber (chamber) has a control unit for controlling the irradiation output of the microwave, a temperature sensor for sensing the crucible temperature inside the main body is installed.
The crucible is composed of Al ₂ O ₃ (aluminum dioxide), ZrO ₂ (zirconium oxide), SiO ₂ (silicon dioxide), MgO (magnesium oxide) and SiC (silicon carbide), etc. The inner wall of the main body (chamber) has a heat insulating material, the heat insulating material A1 ₂ O ₃ + SiO ₂ , Al ₂ O ₃ + ZrO ₂ + SiO ₂ , CaO + SiO ₂ + A1 ₂ O ₃ , a plate containing SiO _2, etc. The insulation wall is composed of board, blanket, or vacuum-formed product and brick, castable, fire brick, and the like.
In addition, a cooling cylinder is provided below the melted discharge port below the main body, and the cooling cylinder circulates the cooling water to instantaneously cool the molten salt to be pulverized.
Microwaves transmitted through the waveguide inside the chamber are generated by the magnetron, and the frequency range used in the present invention is 915 MHz ± 50 MHz, 2450 MHz ± 50 MHz, or 5800 MHz ± 50 MHz. You can optionally use.
In the above, having a lid above the crucible, the lid is manufactured using the same material as the crucible, and can be used by covering the lid on the crucible as needed, and without using a lid, the inside of the main body on the side wall or the top of the main body You will have a viewing window to monitor.
In addition, salt can be dried or heated and melted by microwave directly into the crucible, but bamboo salt is added by putting salt in the bamboo barrel and filling the bamboo container with mud and the like and then indirectly heating the salt in the bamboo barrel. To manufacture. In the indirect heating method in which the salt is put into the bamboo barrel and heated, the crucible lid is covered, and inert gas such as nitrogen (N ₂ ) or argon gas is injected into the body to heat the salt, thereby producing high-quality salt.

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As described above, the impurities of the salt are treated at a high temperature, thereby producing the powder salt which is beneficial to the human body continuously.
The production of bamboo salt in the traditional method takes a long time, so it is possible to prepare bamboo salt in a short time using a micro wave, and the salt may be heat-treated to 200 ° C. to 1,400 ° C. to remove impurities.

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1 is a schematic perspective cross-sectional view of the present invention;
2 is a schematic cross-sectional view of the present invention.

When described in detail with reference to the accompanying drawings, preferred embodiments of the present invention in order to be described in detail so that those skilled in the art can easily carry out the present invention.
That is, in the present invention, the salt is charged into the crucible 107 inside the main body 101 and the microwaves generated from the microwave generator outside the main body 101, that is, the magnetron 209, are transferred to the main body 101 through the waveguide 208. By supplying to the inside to heat and melt the salt (100) inside the crucible (107), by heating and drying the salt (100) inside the crucible (107) with a microwave, a variety of roasted salt, baked salt, molten salt, etc. It is to provide an apparatus for manufacturing the processed salt and bamboo salt in the form.
In the present invention as described above, the salt (100) inside the crucible (107) and the method of heating the salt directly by the microwave and the salt into the bamboo barrel, the bamboo barrel into the crucible (107) and applying microwave to the salt Indirect heating method for heating the, to prepare a salt by heating or melting the salt.
First, the method of directly heating the salt not using the bamboo barrel and the configuration of the present invention will be described.
The main body 101 has a crucible 107 into which the salt 100 is placed, and the salt 100 is heated to the inside of the main body 101 by heating or until it is melted to produce baked salt. do.
The microwave is generated from the magnetron 209 outside the main body 101 and flows into the main body 101 through the waveguide 208.
The crucible 107 inside the main body 101 has a lid 201. The lid 201 may be used depending on the situation or not.
The main body 101 has a plurality of connectors through the main body 101 to the upper side or above the side, the connector is a salt inlet 104 for supplying salt to the crucible 107 inside the main body 101, and when the salt is heated It has a gas outlet 205 for discharging the generated smoke and a gas inlet 202 for injecting inert gas such as nitrogen or argon gas into the main body.
In addition, below the main body 101 side, the molten salt discharge port 105 for discharging the molten salt is provided.
In addition, having a temperature sensor 106 for sensing the temperature inside the main body to detect the crucible temperature, thereby adjusting the strength of the magnetron to adjust the temperature in the main body.
The crucible 107, which contains salt and heats it to melt, is made of a composite of materials such as alumina, silica, magnesia, zirconia, silicon carbide, Al ₂ O ₃ (aluminum dioxide), ZrO ₂ (zirconium oxide), SiO A crucible 107 made of a compound containing selectively 1 to 3 materials of ₂ (silicon dioxide), MgO (magnesium oxide) and SiC (silicon carbide) is used.
Insulation material is provided inside the main body 101, the heat insulating material up to 1400 ℃ result is a heat insulating material, the heat insulating material A1 ₂ O ₃ + SiO ₂ , Al ₂ O ₃ + ZrO ₂ + SiO ₂ , CaO + SiO ₂ + A1 ₂ O ₃ , SiO _2, etc. Board (Board), blanket (Blanket), or a brick, castable, firebrick produced by the vacuum forming process to insulate the inside of the body.
The viewing window 204 for monitoring the internal state is installed on the side wall of the main body 101. The viewing window 204 is transparent and prevents microwave leakage on a quartz or sapphire-based transparent plate that withstands high heat (copper net). It is configured to include.
The gas discharged to the exhaust gas outlet 205 is reburned by a gas combustion device, and the gas combustion device includes microwave, plasma electric arc plasma, LPG, LNG, city gas, and the like. Combustion gas is combusted using a combustion apparatus using gas.
The molten salt discharged to the molten salt outlet 105 is cooled and pulverized discharged to the cooling container 301 provided with a cooling device, the cooling method of the cooling container 301 is a water cooling method for circulating the cooling water Will be used.
The molten salt falling into the cooling cylinder 301 is pulverized by a thermal lattice generated as it is instantaneously cooled, and later pulverized into hot powder.
The magnetron 209 generating microwaves supplies the microwaves into the body 101 through the waveguide 208, and the microwaves used in the present invention have a frequency of 915 MHz ± 50 MHz, or 2450 MHz ± 50 MHz. Alternatively, 5800 MHz ± 50 MHz region to be selectively used, the magnetron 209 generates a microwave in the frequency region using a power source of 1.5KW ~ 100KW.
In the present invention having the structure as described above, the salt 100 is placed in the crucible 107 inside the main body 101, and the salt 100 inside the crucible 107 is heated and melted with a microwave generated by the magnetron 209. And, the molten liquid is discharged through the molten salt outlet 105, by cooling in the cooling barrel 301 to produce the baked salt, by the temperature sensor 106, to sense the temperature of the crucible 107, a see-through window Through 204 to monitor the molten state of the salt to control the strength of the magnetron 209 to produce the processed salt.
In producing salt, impurity combustion gas is generated, and the combustion gas is discharged through the gas outlet 205 and the combustion gas is incinerated by the gas incinerator.
In addition, salt is continuously supplied to the crucible 107 inside the main body 101 through the salt inlet 104.
If necessary, when it is necessary to supply an inert gas such as nitrogen or argon into the main body, gas is injected into the main body 101 through the gas inlet 202.
The present invention can be prepared by directly putting salt into the crucible as described above and directly heated to prepare the salt, while putting salt into the bamboo barrel and putting the bamboo barrel into the crucible 107 and heating to indirectly prepare salt. .
In the case of using the bamboo barrel is filled with the mud between the bamboo barrel and the bamboo barrel, cover the lid 210 on the top of the crucible, it is heated. The lid 210 is made of the same material as the crucible 107, the microwave is to produce bamboo salt by heating the salt inside the bamboo barrel and bamboo barrel, the harmful components of the salt is incinerated by heat incineration extinguished It is added to this salt to make bamboo salt.
In the production of the bamboo salt, when the inert gas such as nitrogen or argon gas through the gas inlet 202 can be produced a good bamboo salt.

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100 salt
101 main body
104 salt hole
105 Molten Salt Outlet
106 temperature sensor
107 crucible
108 insulation
202 gas inlet
204 viewing window
205 gas outlet
208 waveguide
209 magnetron
210 crucible lid
301 cooling tank
301-1 Cooling water inlet
301-2 Cooling water outlet

Claims (7)

The main body 101 has a crucible 107 containing salt and a detachable crucible lid 210, and a magnetron 209 is connected to the outside of the main body 101 by a waveguide 208, and an inner heat insulating material inside the main body 101. The salt inlet 104 for supplying salt into the main body 101, the combustion gas outlet 205 for discharging gas, and the viewing window for monitoring the inside of the main body 101 are provided on the heat insulation wall, the upper surface or the upper side of the main body 101. 204 and a dried salt manufacturing apparatus which is dried and heat-treated to remove impurities from the salt by using a micro wave, which winds the molten salt discharge port 105 for discharging molten salt below the main body 101 side. The method of claim 1,
The microwave frequency range that occurs in the magnetron 209 is dried to remove impurities in the salt using a microwave wave, which selectively uses a range of 915 ± 50 MHz, 2450 ± 50 MHz, or 5800 ± 50 MHz. Roasted Salt Manufacturing Equipment, Heat Treatment delete delete The method of claim 1,
The viewing window 204 formed in the main body 101 is a dried salt manufacturing apparatus for drying and heat-treating for removing impurities of salt using a micro wave, which has a copper mesh blocking a microwave. The method of claim 1,
Gas discharge port 205 formed in the main body 101, smoke burning device for reburning the exhaust gas, using a micro wave, dried and heat-treated salt manufacturing apparatus for the removal of salt impurities The method of claim 1,
The main body 101 has a gas inlet 202 for injecting an inert gas such as nitrogen (N2) or argon gas into the main body, and dried salt and dried for heat treatment to remove impurities from the salt using a micro wave. Manufacturing device

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