KR101179902B1 - Salt extraction device naengdongsik home - Google Patents

Abstract

The present invention relates to a salt manufacturing apparatus for separating and extracting salt from deep ocean water, and more particularly, to the surface of the evaporator of a refrigerator by spraying deep sea water with a nebulizer in a general home or restaurant. The present invention relates to a frozen salt extractor, which is sprayed on to separate water and salt and extracted.

The upper freezing extraction chamber and the lower machine room are divided into an upper evaporator, an evaporator is installed, and a spray nozzle spraying deep sea water is installed to spray toward the evaporator, and the salt contained in the deep sea water is extracted through the freezing extraction method. In addition, the infrared lamp is mounted on the rear wall of the freezing extraction chamber to be configured to perform salt extraction through natural drying.

Deep sea water, freezing extraction chamber, evaporator, spray nozzle, frozen extraction infrared lamp

Description

Salt extraction device naengdongsik home

The present invention relates to a salt extractor that separates and extracts salt from deep ocean water, and more specifically, to a surface of a freezer by spraying deep sea water with a nebulizer in a general home or restaurant. It relates to a household frozen salt extractor sprayed to separate the water and salt to extract.

As shown in FIG. 1, deep sea water contains Zn, Cu, Fe, P, etc. in addition to the four essential minerals of magnesium (Mg), calcium (Ca), potassium (K), and sodium (Na). The minerals are in balance compared to the surface and ground waters in use.

And deep sea water has excellent low temperature stability that keeps water temperature (about 9.5 ℃ lower than surface) at less than 2 ℃ all year round, and because it does not reach sunlight compared with surface water, photosynthesis does not occur, which is necessary for plant growth. It contains a lot of inorganic nutrients and contains a balance of essential trace elements and various minerals.

In addition, deep sea water has excellent immunity against various diseases caused by stress or constitution, and is not contaminated by general bacteria from the air or chemicals compared to the surface water or ground water that we use as drinking water. Known as clean water.

Deep sea water is characterized by low temperature, constant temperature and high nutrition, so it can be used as an unlimited resource if it is possible to extract not only salt but also effective useful materials.

As a method of extracting salt by evaporating deep sea water having the above-mentioned efficacy, a natural drying method of obtaining salt particles by evaporating in a general natural state, a method of artificially heating deep sea water to obtain salt, and spraying sea water into a freezing device Various methods such as freezing extraction method to obtain salt crystals have been proposed and used.

This conventional method trusts the product produced as a method and apparatus for extracting salt in large quantities, even though the salt produced from deep sea water is known until significant reliability is established between consumers and producers. You will not be able to.

An object of the present invention is to provide a salt extractor that can be used to extract salt from deep sea water at home or restaurants.

In order to solve the above object, the freezing method of freezing and freezing the deep sea water to obtain the salt, by spraying the deep sea water on the surface of the evaporator flowing through the refrigerant to freeze the moisture and extract only the salt component in a short time.

 The present invention is divided into a freezing extraction chamber and a lower machine room in the upper part, an evaporator is installed in the upper freezing extraction chamber, and a spray nozzle for spraying deep sea water is installed to spray toward the evaporator, and the deep sea water is extracted through the freezing extraction method. It is to solve the problem by extracting the contained salt, and by installing an infrared lamp on the rear wall of the freezing extraction chamber in parallel to extract the salt through natural drying.

The freezing extraction apparatus of the present invention having the above-described configuration is that it can be easily produced pollution-free salt in a general home or a restaurant, to provide an effect that can be cooked without using an artificial sweetener.

In addition, since the size is small, it is easy to install in the home, there is an additional effect that can be combined with the salt extraction device using the existing freezer.

The present invention showing such features will be described in detail with reference to the accompanying drawings.

1 is a side cross-sectional view showing the configuration of the present invention, Figure 2 is a front cross-sectional view of the present invention.

The inside of the extractor body 1 is divided into a machine chamber 10 at the bottom and a freezing extraction chamber 20 at the top, and the doors 2 and 2 'are respectively mounted on the front side.

In the machine room 10, in order to implement a refrigeration function, a conventional refrigeration apparatus for freezing operation is installed through a cycle of a condenser 11, an expansion valve 12, an evaporator 21, a compressor 13, and a condenser 11. However, the evaporator 21 is installed to be located inside the freezing extraction chamber 20.

In the front part of the machine room 10, a seawater reservoir 14, a recovery container 18, and a compression pump 15 for storing deep sea water are additionally installed.

The connection pipe 16 is connected to the compression pump 15 installed in the machine room 10 and one end thereof extends into the freezing extraction chamber 20, and the spray nozzle 17 is mounted at the end thereof.

The spraying direction of the spray nozzle 17 is installed to spray toward the evaporator 21 provided in the upper surface portion of the freezing extraction chamber 20.

On the rear wall surface of the freezing extraction chamber 20 is equipped with an infrared lamp 40 and a temperature sensor 41,

The upper freezing extraction chamber 20 of the extractor main body 1 is provided with an evaporator 21 which is a component of a refrigeration cycle installed in the machine room 10, and the evaporator 21 has a front cross section "┏┓". The metal panel 22 bent to form a mold, and the refrigerant pipe 23 is piped into the upper surface portion 22 'of the panel 22 to connect with the condenser 11 disposed in the machine room 10. ,

The lower ends of both sidewalls 24 and 24 'of the panel 22 are slightly bent inward to form guides 25 and 25', and the recovery trays 30 are formed on the guides 25 and 25 '. The slide is detachably coupled.

The recovery tray 30 may be configured such that the bottom portion is in close contact with the bottom surface 20a of the freezing extraction chamber 20.

The bottom surface 20a of the freezing extraction chamber 20 is formed to be inclined downward by designating any position shifted from the center or the center thereof, and connecting the recovery pipe 19 to the vertex to recover the recovery container of the machine room 10. A part of the refrigerant pipe 11a constituting the condenser 11 is piped close to the bottom of the bottom surface 20a to be heated.

A control panel 31 is mounted on the front portion of the door 2 'to control the freezing temperature of the evaporator 21 installed in the freezing extraction chamber 20, and to switch and operate the infrared lamp 40 with each other. do.

Using the extracting apparatus of the present invention configured as described above will be described the process of freezing the salt in the deep sea water.

First, deep sea water is introduced into the seawater reservoir 14 mounted at the lower end of the extractor main body 1, and the refrigeration apparatus is operated by operating the control panel 31 mounted at the front part of the door 2 '.

If the refrigerating device is operated, the freezing operation is continuously performed until the temperature sensor 41 detects the temperature of the freezing extraction chamber 20 and falls to an appropriate level. It will be operational.

When the compression pump 15 operates, the deep sea water stored in the seawater reservoir 14 is sprayed in the form of mist through the spray nozzle 17 installed in the freezing extraction chamber 20 through the connecting pipe 16. .

Since the spray nozzle 17 is installed to be sprayed toward the upper surface portion 22 'of the evaporator 21 mounted in the freezing extraction chamber 20, the deep sea water sprayed through the spray nozzle 17 is evaporator 21 Spray directly onto the upper surface portion 22 '.

The evaporator 21 is already in a state of being lowered to below zero temperature, and the upper surface portion 22 'of the metal panel 22 constituting the evaporator 21 is also dropped to below zero temperature, so Moisture condenses on the upper surface portion 22 'of the metal panel 22 due to the high condensation point, and only the salt component having the low condensation point is separated and dropped into the recovery tray 30.

A portion of the refrigerant pipe of the condenser 11 connected to the compressor 13 is piped to the bottom surface 20a of the freezing extraction chamber 20 to dissipate heat of condensation to the bottom surface of the freezing extraction chamber 20 ( 20a) is heated to the temperature of the image to raise the temperature of the freezing extraction chamber 20 to recover the water falling on the bottom surface (20a) through the recovery pipe 19 without freezing and discharged to the recovery container 18 to store It is.

By extracting the salt of the deep sea water and freezing the water by such a freezing means, it is possible to extract the salt in the form of particulates in a short time.

The salt extracted by the means described above is to be extracted in the form of fine particles, and the means for preparing the salt in the form of granules that are convenient for home use will be described.

In order to extract the deep sea water in the form of granules should be manufactured using natural drying means, in the present invention to solve the infrared lamp 40 mounted in the freezing extraction chamber 20 to perform the same function as the artificial sun will be.

That is, after the operation of the evaporator 21 installed in the freezing extraction chamber 20 is stopped, the infrared lamp 40 is turned on.

Subsequently, a predetermined amount of deep sea water is received in the recovery tray 30 stored in the freezing extraction chamber 20, and then, the water is added to the freezing extraction chamber 20 again.

In this way, when the deep sea water is stored in the recovery tray 30, moisture is evaporated by the infrared lamp 40, and only salt remains.

In the present invention, by installing a ventilator (not shown) in the freezing extraction chamber 20 can be configured to discharge the moisture evaporated by the infrared lamp 40 to the outside.

The technology of the present invention can be applied to a general household or commercial refrigerator.

That is, the control panel for controlling the evaporator having a refrigerant tube in the ice making chamber provided in the freezer compartment of the refrigerator exposed to the upper surface of the ice making chamber, and equipped with a spray nozzle and an infrared lamp in the rear portion thereof, respectively, to control them. Can be installed on the front of the door of the refrigerator.

Means for using such a conventional refrigerator is to extract the salt using the ice making room, so it is easy to separate the salt from the pollution-free deep sea water in the home to show a feature that can be cooked.

When the salt extraction apparatus is built using the freezer compartment of the refrigerator, the storage period is extended by installing a seawater reservoir for storing deep sea water in the refrigerating compartment.

1 is a longitudinal sectional view showing a configuration of the present invention

Figure 2 is a longitudinal cross-sectional view showing the operation of the present invention.

Figure 3 is a front cross-sectional view of the present invention

[Description of Drawings]

1: main body 2, 2 ': door

10 machine room 11: condenser

12 expansion valve 13 compressor

14: seawater reservoir 15: compression pump

16: connector 18: recovery container

20: freezing extraction chamber 21: evaporator

22 panel 22 'top

24, 24 ': sidewall 25,25': guide

30: recovery tray 31: control panel

40: infrared lamp 41; temperature Senser

Claims (4)

The inside of the extractor body 1 is divided into a machine chamber 10 at the bottom and a freezing extraction chamber 20 at the top, and the doors 2 and 2 'are respectively mounted on the front part. The machine room 10 has a conventional refrigeration apparatus and compression to freeze through the cycle of the condenser 11, expansion valve 12, evaporator 21, compressor 13, condenser 11 in order to implement the refrigeration function Install the pump 15, the evaporator 21 is installed to be located inside the freezing extraction chamber 20, In the front of the machine room 10 is installed a seawater reservoir 14, a recovery vessel 18 and a compression pump 15 for storing deep sea water, An infrared lamp 40 and a temperature sensor 41 are mounted on an upper end portion of the rear wall of the freezing extraction chamber 20, and the internal movement extraction chamber 20 has an evaporator 21 which is a component of a refrigeration cycle installed in the machine room 10. ), The connecting pipe 16 is connected to the compression pump 15 installed in the machine room 10, and one end thereof is extended into the freezing extraction chamber 20, and the spray nozzle 17 is mounted at the end thereof so that the evaporator 21 is connected. Frozen salt extractor for home, characterized in that configured to spray toward). The method of claim 1, The evaporator 21 is constructed by piping a metal panel 22 which is bent so that the front section has a "┏┓" shape, and a refrigerant pipe 23 inside the upper surface 22 'of the panel 22. And connected to the condenser 11 is disposed in the machine room 10, The lower ends of both sidewalls 24 and 24 'of the panel 22 are slightly bent inward to form guides 25 and 25', and the recovery trays 30 are formed on the guides 25 and 25 '. Refrigerated salt extractor for home, characterized in that the slide coupled detachably. The method of claim 1, The bottom surface 20a of the freezing extraction chamber 20 is formed to be inclined downward by designating any position shifted from the center or the center, and is connected to the vertex to connect the recovery pipe 19 to the machine room 10. It is installed in connection with the recovery container 18, a portion of the refrigerant pipe (11a) constituting the condenser 11, the home refrigeration, characterized in that the pipe close to the bottom of the bottom surface (20a) configured to perform a heating action. Salt extractor. delete

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