KR101369742B1 - Urushiol removal System for of lacquer tree by high voltage - Google Patents

Abstract

The present invention provides a configuration that can remove the poison of the lacquer from the extract of the lacquer by high voltage electric discharge for the universal application of the lacquer, in this configuration to stably control the applied current and generate a high voltage of the lacquer The present invention relates to a lacquer detoxification system that can be used to eliminate the toxicity.
To this end, the present invention, the power supply for supplying a static power source; A booster configured to boost the power inputted through the power supply to a high voltage, rectify and output the boosted power; An electrolysis tank for electrolyzing water by receiving the high voltage power output from the boosting unit, ionizing minerals contained in the water at the same time as the electrolysis of water, and decomposing and removing urushiol from the lacquer injected into the water; And a controller for controlling the driving of the power supply unit, the boosting unit, and the electrolysis tank.

Description

Urushiol removal system for of lacquer tree by high voltage}

The present invention relates to a lacquer poisoning system of a high voltage electric discharge method. In detail, the present invention provides a configuration to remove the poison of the lacquer from the extract of the lacquer by the high voltage electric discharge for the universal use of the lacquer, in this configuration to stably control the applied current and generate a high voltage The present invention relates to a lacquer detoxification system for removing poisonous lacquer.

Extract of sumac has many pharmacological components such as anti-cancer and antioxidant activity, and it has been found to be very effective in relieving various diseases and hangovers. These lacquers contain urushiol, a phenolic compound that causes dermatitis and allergies, as opposed to effective pharmacological ingredients. It's going on.

After removing urushiol, which is the cause of itching of lacquer, put finely crushed lacquer, root and bark into a bag made of cotton, and put it in a heating tank with reflux and aeration device and heat it for 2 hours. Filtration method (registered patent No. 10-500213), in order to remove urushiol from lacquer tree (sap, lacquer bark, tree), dried at 170 ° C for more than 4 hours in a dryer at high temperature, high pressure state using water and an organic solvent Method of extracting from (Registered Patent No. 10-339837), Put the lacquer bark powder in the boiling bag and put it in the pressure bath, Put the mineral material extract liquid in the pressure bath to heat the pressure bath to remove urushiol (Patent No. 10-2010-5987), in the removal of urushiol, the addition of laccase known to be present in lacquer under very mild conditions Method of polymerizing and polymerizing a siol to remove it by precipitation (Publication Patent No. 10-2007-112915), Method of completely removing urushiol, an allergen causing component, by irradiating radish sap (Registration Patent No. 10-896235) , Method of heating the lacquer with the oxygen concentration of 25 to 100% (v / v), maintaining 0.01 to 1 atmosphere higher than atmospheric pressure, and heating the temperature to 25 to 100 degrees Celsius (registered patent No. 10-504160) There is this

In addition, a method of removing the toxicity of the lacquer by one step further to supply the lacquer extract, which has been filtered through a screen, to remove solids, into the cathode chamber of the electrolysis device, by treating the redox potential in the range of -100 to -250㎷. It is also shown. (Patent No. 10-2011-33174)

As described above, the conventional method for removing poisonous lacquer using the method of heating lacquer, fermentation, polymer, etc. does not completely remove urushiol from the lacquer tree. There is a limit to the supply of medicine.

In addition, the conventional lacquer toxic removal method of performing the electrolysis is a common feature of toxic substances, the stronger the toxicity, the stronger the chemical bonding of the material itself, the electrolysis under low voltage that can control the current, the removal of urushiol perfectly It is difficult to carry out, and the problem of low productivity arises because a considerable time is required to remove urushiol by electrolysis under low voltage.

The present invention has been made to solve the above problems.

Accordingly, the present invention proposes a configuration to remove the poison of the lacquer from the extract of the lacquer by high voltage electric discharge for the universal application of the lacquer, and in this configuration stably control the applied current and generate high voltage The purpose of the present invention is to provide a lacquer detoxification system for improving the productivity of work by completely eliminating urushiol, which is a poison of lacquer, and greatly reducing the working time when removing urushiol.

In order to achieve the above object, the present invention has the following configuration.

The present invention, the power supply for supplying the electrostatic source; A booster configured to boost the power inputted through the power supply to a high voltage, rectify and output the boosted power; An electrolysis tank for electrolyzing water by receiving the high voltage power output from the boosting unit, ionizing minerals contained in the water at the same time as the electrolysis of water, and decomposing and removing urushiol from the lacquer injected into the water; And a controller for controlling the driving of the power supply unit, the boosting unit, and the electrolysis tank.

Here, the electrolysis tank includes a water tank in which water is stored, and electrode plates of positive and negative electrodes for generating high voltage to electrolyze water on both sides thereof are disposed; A current blocking plate mounted in each of the electrode plates on both sides of the water tank, each current control hole being formed to control the amount of current flowing to the electrode plates on both sides; A lacquer input frame disposed in both sides of the current blocking plate of the tank and formed in a mesh shape and impregnated with water in a state in which the crushed lacquer is input; It is configured to include an induction current electrode plate to ionize the mineral of water on the bottom surface of the tank in which the lacquer input frame is arranged to decompose and neutralize urushiol in the lacquer when water is electrolyzed by high voltage.

In this case, the current blocking plate is configured to apply a plurality of current control holes, each having a different diameter to replace the current control, or to install a separate current blocking member in the current control hole to control the current.

In particular, the induction current electrode plate is made of at least one material selected from copper (Cu), silver (Ag), iron (Fe), zinc (Zn), tin (Sn).

As described above, the present invention has the effect of completely removing the poisonous urushiol of the lacquer by presenting a configuration capable of removing the poison of the lacquer from the extract of the lacquer by high voltage electric discharge.

In addition, the present invention is to stably control the applied current in the above configuration and to generate a high voltage to remove the toxicity of the lacquer, thereby significantly reducing the working time when removing urushiol to obtain the effect of improving the productivity of the work. .

1 is a block diagram of a lacquer poisoning system according to the present invention.
Figure 2 is a perspective view of the electrolysis tank of the lacquer poisoning system according to the present invention.
Figure 3 is a flow chart of the control process of the lacquer poisoning system according to the present invention.
Figure 4 is an illustration of the control process of the lacquer poisoning system according to the present invention.
5 is a flow chart of the electrolysis control process of the lacquer poisoning system according to the present invention.
Figure 6 is an illustration of the electrolysis control process of the lacquer poisoning system according to the present invention.

Embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

1 is a block diagram of a lacquer poisoning system according to the present invention, Figure 2 is a perspective view of an electrolysis tank of the lacquer poisoning system according to the present invention.

Referring to the drawings, the lacquer poisoning system according to the present invention has a basic configuration consisting of a power supply unit 10, a boosting unit 20, an electrolysis tank 30, a storage tank 40, a controller 50. Here, the high voltage proposed in the present invention is preferably a voltage of 750V or more, which is set as a reference from KEPCO, and preferably a voltage of 1000V or more. In addition, it should be noted that if the size is increased according to the capacity of the work to remove the toxicity, it may be applied by supplying a special high voltage power exceeding 7000V.

The power supply unit 10 is divided into a power input unit 11 and an input voltage control unit 12.

The power input unit 11 is a configuration for supplying a power power of AC 220V or 380V to the system. The input voltage control unit 12 is adjustable from 0V to 220V / 380V, and the slid dax is applied as a constant voltage supply to prevent an accident due to an overload during boosting.

The booster 20 is a transformer is applied, the booster 20 is a high voltage booster for increasing the voltage up to DC1,000V. The booster 20 includes a DC converter 21 for rectifying the transformed current. In this case, the DC converter is configured to perform the function of converting AC into a pulse current and converting it back to DC through a rectifying circuit.

The electrolysis tank 30 is equipped with a current blocking plate 32 formed with a current control hole 33 for controlling the current in both sides of the water tank 31 made of tempered glass material, the current blocking plate 32 The electrode plate 34A of the positive electrode (+) and the negative electrode (−) is disposed outside the ss.

In addition, the electrolysis tank 30 is a mesh input lacquer frame 35 of the mesh structure to be put into the crushed lacquer tree inside the current blocking plate 32 is disposed, the lower water tank of the lacquer input frame 35 (31) Induction current electrodes made of copper (Cu), silver (Ag), iron (Fe), zinc (Zn), tin (Sn), etc. to mineralize the mixture of water and lacquer extract on the bottom surface Plate 34B is mounted in a particular arrangement.

In particular, it is natural that the inlet 36 for introducing water and the outlet 37 for discharging the mixture of the water and the poisonous lacquer extract are formed in the water tank 31 of the electrolysis tank 30. At this time, opening and closing of the inlet 36 and the outlet 37 is applied to a solenoid valve or the like.

Additionally, the electrolysis tank 30 further includes a water level detector 38 installed on the wall surface of the water tank 31 to detect the water level, and a pH meter 39 for measuring the concentration of the lacquer extract. do.

The storage tank 40 is connected to the outlet 37 of the electrolysis tank 30 is configured to store and store the lacquer extract is removed toxic (urushiol) supplied through the outlet 37.

The controller 50 is configured to control each component from the above power supply to supply of water, electrolysis, and leakage of lacquer extract. To this end, the controller 50 is implemented by implementing a program of detoxification algorithm of lacquer extract using a microcomputer, microprocessor, and the like.

Figure 3 is a flow chart of the control process of the lacquer poisoning system according to the present invention, Figure 4 is an exemplary view of the control process of the lacquer removal system according to the present invention.

Referring to the drawings, when the controller 50 operates the solenoid valve of the inlet port 36 so that water is received through the inlet port 36 of the water tank 31, the water is electrolyzed through the pressure reducing valve and the water filter. Flow into the tank 30. (S10)

Then, when the water flowing into the electrolysis tank 30 is introduced to the level of the level sensor 38 of the upper portion installed in the tank, a signal is transmitted from the level sensor 38 to the controller 50 (S20), the controller 50 ) Operates the mineral ionization timer to start the electrolysis by applying a voltage to the two electrode plates of the electrolysis tank 30. (S30) At this time, the mineral ionization timer allows the user to set the time arbitrarily.

When the set timer expires, the controller 50 operates the solenoid valve and the drain pump of the outlet 37 of the water tank 31 to store the lacquer extract from which the urushiol of the lacquer is removed from the electrolysis tank 30. Outflow to the tank 40 is completed one end of the operation. (S40)

At this time, when the contents of the water tank 31 is lowered to the position of the lower water level detector 38 installed in the electrolysis tank 30, the water level detector 38 transmits a signal to the controller 50 to recognize that the leak is completed. Then, the controller 50 switches the solenoid valve of the outlet 37 to the closed state and opens the solenoid valve on the inlet 36 side to allow the water to be re-introduced into the electrolysis tank 30.

Figure 5 is a flow chart of the electrolytic control process of the lacquer poisoning system according to the present invention, Figure 6 is an illustration of the electrolytic control process of the lacquer removal system according to the present invention.

Referring to the drawings, in order to perform the electrolysis, the controller 50 applies a high voltage of approximately 1000 V to the positive and negative electrode plates 34A in the water tank 31 by the booster 20. (S31)

When a special voltage is applied to the positive and negative electrode plates 34A in this manner, the water in the water tank 31 is electrolyzed (S32), and each of the induction current electrode plates 34B mounted on the bottom surface of the water tank 31 is used. The mineral component according to the material of the electrode is dispersed in water to be electrolyzed. (S33) More specifically, the induction current electrode plate 34B is formed in a particle state (mineral particles) by a current and an induction current of a power applied at a high voltage. By dissipating ions, the urushiol is removed by dispersing it in the electrolytic aqueous solution. (S34)

At this time, the mineral particles are the size of the particles when the current is limited by the current control hole 33 formed in the current blocking plate 32, and directly affects the activity of the ion particles according to the height of the applied voltage. . Therefore, in order to effectively decompose urushiol, which is a toxic substance of lacquer, mineral ion particles should be made small in size and high in potential of particles. In order to reduce the size of the particles, the applied current must be extremely limited, and in order to increase the potential of the particles, it is desirable to increase the applied voltage to a high voltage.

In particular, the above-described current control hole 33 to control the flow of the current by physically adjusting the inner diameter, which generates a high voltage by the Ohm's law expressed by V = IR to increase the resistance to minimize the current Due to the principle, if the current control hole 33 of the current blocking plate 32 is narrowed, the resistance value can be increased to reduce the amount of current, and if the current control hole 33 is widened, the resistance value can be decreased to increase the amount of current.

Such adjustment of the current control hole 33 is applied to replace any one of the plurality of current blocking plate 32 is formed of the current control hole 33, each having a different diameter, or a separate current blocking member to the current control hole ( 33) can be configured to control the current by replacement.

In addition, if the pH concentration in the electrolysis tank 30 is 6.9 or less, the number of induced current electrode plates 34B is increased by the pH meter 39 installed in the electrolysis tank 30, and if it is 6.9 or more, the number is reduced. It is desirable to maintain a constant concentration of pH in the electrolysis bath.

As described above, in order to make the mineral particles smaller in order to adjust the pH concentration in the electrolysis tank and to separate urushiol of lacquer in the electrolysis tank, the current control hole 33 of the current blocking plate 32 is narrowly formed so that the amount of current In order to increase and increase the voltage between the two electrode plates in the electrolysis tank 30 to actively induce the movement of the mineral particles, it is possible to obtain a lacquer extract from which urushiol has been removed more efficiently.

10: power supply unit 20: boosting unit
30: electrolysis tank 31: water tank
32: current blocking plate 33: current control hole
34A: Electrode plate 35: lacquer tray
36: inlet 37: outlet
40: storage tank 50: controller

Claims (4)

A power supply unit 10 for supplying an electrostatic source; A boosting unit 20 for boosting the power inputted through the power supply unit 10 to a high voltage and rectifying and outputting the boosted power; The electrolysis tank receives the high voltage power output from the boosting unit 20 to electrolyze the water, ionize the minerals contained in the water at the same time as the electrolysis of the water, and decompose and remove urushiol from the lacquer injected into the water (30). )Wow; And a controller 50 for controlling the driving of the power supply unit 10, the boosting unit 20, and the electrolysis tank 30.
The electrolysis tank 30 includes: a water tank 31 in which water is stored, and electrode plates 34A of positive and negative electrodes for generating high voltage to electrolyze water on both sides thereof are disposed; Current blocking plates 32 each of which is mounted inside both electrode plates 34A of the water tank 31 and each of the current control holes 33 are formed to control the amount of current flowing to the electrode plates 34A on both sides. and; A lacquer input frame 35 which is placed and disposed in both sides of the current blocking plate 32 of the water tank 31, and is impregnated with water in a state in which a lacquer crushed therein is formed in a mesh shape; Induction current electrode plate (34B) to ionize the mineral of the water on the bottom surface of the water tank 31, the lacquer input frame 35 is disposed to neutralize and neutralize the urushiol from the lacquer when the water is electrolyzed by high voltage; Lacquer poisoning system of the high voltage electric discharge method, characterized in that.
delete The method of claim 1, wherein the current blocking plate 32
It is characterized in that it is configured to control the current by applying a plurality of current control holes 33 having different diameters, respectively, for current control or by replacing and mounting a separate current blocking member to the current control holes 33. Lacquer poisoning system using high voltage electric discharge.
The method of claim 1, wherein the induction current electrode plate 34B
Lacquer poisoning system of high voltage electric discharge method characterized in that made of at least one material selected from copper (Cu), silver (Ag), iron (Fe), zinc (Zn), tin (Sn).

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