KR102438872B1 - Refrigerated and ripening storage irradiated with quantum energy - Google Patents

Abstract

A low-temperature storage and aging cell in which quantum energy is irradiated is disclosed. The present invention installs a storage shelf (RACK) or a plurality of rectangular parallelepiped chambers at intervals inside the body, builds an air circulation system with a circulation fan, and circulates nitrogen (N ₂ ) molecules, which are air constituents Hydroxyl ions (OH ^- ) generated by purifying pollutants through electrochemical reactions of dissociation, excitation, ionization, oxidation, and reduction of oxygen (O ₂ ) molecules and water (H ₂ O) molecules of water vapor by high-voltage discharge sterilizes airborne bacteria in the circulating air, and supplies an aqueous solution mixed with the water fluctuation inhibitor, radical scavenger, ethylene biosynthesis inhibitor, and browning inhibitor produced in the humidifying part to the spray nozzle and sprays directly into the circulating purified air to mix Or, dry steam produced by heating and some air purified in the high voltage discharge process are mixed in a venturi ejector, and then the mixed air is again dried by electrochemical reaction of dissociation, excitation, ionization, oxidation, and reduction in the high voltage discharge process. dissociation of water molecules (H ₂ O) into hydrogen ions (H ⁺ ) ^and hydroxyl ions (OH ^{- )} The air ionized into oxygen ions (O) and nitrogen oxide (NO) is cooled by using the latent heat of vaporization of the refrigerant in the cooler to circulate the body and the inside of the chamber while regulating the temperature and the inside of the chamber to an appropriate humidity, and initial operation Close the electric damper for circulation air attached to the body and one side of the chamber, open the electric damper of the exhaust line, operate and exhaust the vacuum pump, maintain the pressure inside the chamber in the range of 20mmHg to 500mmHg, and then operate the vacuum pump After stopping and closing the electric damper, nitrogen or carbon dioxide or argon gas filled in the container is supplied to the body and chamber from the inert gas supply unit and maintained 5 to 250 Pa higher than atmospheric pressure for a certain period of time. In the process of high voltage discharge, it sterilizes airborne bacteria, purifies pollutants, Dry steam produced by heating an aqueous solution and some air purified in the high-voltage discharge process are mixed in a venturi ejector, and the mixed air is again dissociated into water vapor and water molecules in the high-voltage discharge process and the additive material is activated, and in the high-voltage discharge process Air ionized into generated hydrogen ions (H ⁺ ), hydroxyl ions (OH ^- ), oxygen ions (O), and nitrogen oxides (NO) is cooled in the cooler using the latent heat of vaporization of the refrigerant to circulate inside the body and chamber. Pulsed electromagnetic field; PEMF) type magnetic field and pulsating quantum energy are irradiated inside the main body and inside the chamber, so that the stored materials such as ginseng, fruits, food, meat products, and aquatic products stored in the storage rack (RACK) or inside the chamber do not spoil even after long-term storage. , the activity may not drop.

Description

Low-temperature storage and ripening storage irradiated with quantum energy {Refrigerated and ripening storage irradiated with quantum energy}

The present invention relates to a low-temperature storage and maturation chamber where quantum energy is irradiated, and more particularly, a storage rack (RACK) or a plurality of rectangular parallelepiped chambers are installed at intervals inside the body, and air circulation with a circulation fan By constructing a system, nitrogen (N ₂ ) molecules, oxygen (O ₂ ) molecules, and water (H ₂ O) molecules of water vapor, which are circulating air constituents, are dissociated by high voltage discharge, excitation, ionization, oxidation, reduction, etc. It purifies pollutants by electrochemical reaction and sterilizes airborne bacteria in the circulating air with hydroxyl ions (OH ^- ), etc., and additives such as moisture fluctuation inhibitor, radical scavenger, ethylene biosynthesis inhibitor, and browning inhibitor are mixed in the humidification part The aqueous solution is supplied to the injection nozzle and mixed directly with the purified air that is circulated, or dried steam produced by heating and some air purified in the high voltage discharge process are mixed in the venturi ejector, and then the mixed air is discharged again with high voltage. In the process, electrochemical reactions such as dissociation, excitation, ionization, oxidation, and reduction transform water molecules (H ₂ O) in dry steam into hydrogen ions (H ⁺ ) and hydroxyl ions (OH ^- ) and By activating additive substances, and cooling the air ionized with hydrogen ions (H ⁺ ), hydroxyl ions (OH ^- ), oxygen ions (O), and nitrogen oxides (NO) in the cooler using the latent heat of vaporization of the refrigerant, the body and While circulating inside the chamber, it regulates the temperature and the inside of the chamber to an appropriate humidity. During initial operation, the electric damper for circulating air attached to one side of the main body and chamber is closed, and the electric damper of the exhaust line is opened and the vacuum pump is operated. and exhaust, maintaining the pressure inside the chamber in the range of 20mmHg to 500mmHg, stopping the vacuum pump and closing the electric damper After maintaining the air pressure higher than atmospheric pressure in the range of 5 to 250 Pa for a certain period of time, the air circulation system equipped with a circulation fan is operated again to sterilize airborne bacteria in the high voltage discharge process, purify pollutants, and Dry steam produced by heating an aqueous solution mixed with moisture fluctuation inhibitor, radical scavenger, ethylene biosynthesis inhibitor, and browning inhibitor, and some air purified in the high voltage discharge process are mixed in the venturi ejector, and then the mixed air is heated again in the high voltage discharge process Air ionized into hydrogen ions (H ⁺ ), hydroxyl ions (OH ^- ), oxygen ions (O), nitric oxide (NO), etc. generated during the high voltage discharge process by dissociating water molecules and activating additive substances Pulsed electromagnetic field; generated by a pulsating quantum energy generator while circulating inside the body and chamber by cooling using the latent heat of vaporization of the refrigerant in the cooler, controlling the temperature inside the body and chamber and adjusting the humidity to an appropriate level (pulsed electromagnetic field; Ginseng stored in a storage shelf (RACK) or chamber by irradiating pulsating quantum energy into the body and inside the chamber in the state of the zero magnetic field, which is destroyed by overlapping the magnetic field in the form of PEMF and pulsed electromagnetic field (PEMF); An object of the present invention is to provide a low-temperature storage that does not spoil and does not lose activity even after long-term storage of stored materials such as fruits, food, meat products, and aquatic products.

As life patterns change to a LOHAS (Lifestyle of Health and Sustainability) lifestyle for the sustainable development of health, environment and society for well-being or a better life for the whole community, the consumer’s desire for fresh and tasty products is increasing. The development of long-term storage technology for ginseng, fruits and vegetables, food, aquatic products, meat products, etc. (stored products) is rapidly advancing. However, these stored materials are gradually deteriorated (changed) during storage under the influence of storage environmental conditions such as vibration, compression, microorganisms and living organisms in addition to oxygen, light, moisture, and temperature.

When these physical, chemical, or biological environmental conditions are unsuitable for a stock, whichever of these occurs first, will continue to induce other changes.

In addition, the moisture in the refrigerated storage product changes depending on the environment in which it is placed, and under a constant temperature condition, it is governed by the relative humidity of the outside air at that time, so that the moisture contained in the composition is dehumidified to the outside air phase, or from the outside air phase. It absorbs moisture and becomes the moisture content at which the external air phase and moisture in the composition reach equilibrium (equilibrium moisture content). Changes in physical properties or physicochemical properties occur according to the change in moisture in such a composition, and solidification, shrinkage, cracking, Browning, dissolution, deliquescence, crystallization, precipitation, etc. progress, and deterioration of the texture, shape, taste, aroma, color, texture, etc. of flavor, inactivation of active ingredients, loss of nutrients, and quality deterioration due to microbial contamination It is known to do Therefore, suppressing the moisture fluctuations seen in these compositions is an extremely important task in maintaining the quality of the composition,

Oxygen or reactive oxygen species (ROS) in the storage room is generated from the storage itself or is always present at a certain concentration due to oxygen in the circulating air.

Such oxygen or reactive oxygen species is a product of normal intracellular activity and may have beneficial or harmful functions depending on the concentration in the living body. At low concentrations, reactive oxygen species (ROS) removes an infectious agent, performs a cell delivery function, and also performs cell proliferation. However, when the concentration of ROS increases, it acts as an oxidizing agent that induces the oxidation of polymers in vivo, and the oxidizing agent applies oxidative stress to the stored material, causing the stored material to deteriorate gradually, and aerobic microorganisms proliferate and promote deterioration.

In the process of deterioration, ethylene gas is generated from fruits and vegetables and deterioration is accelerated, and in stored materials such as meat and fish, macromolecules such as lipid proteins and nucleic acids in vivo are destroyed, and in the case of pharmaceuticals and cosmetics, oxidation reaction with the composition In the case of fresh ginseng and ginseng, root rots Cylindrocarpon, Cylindrocarpon destructans, Cylindrocarpon candidum, Cylindrocarpon album, Cylindrocarpon hetronema and ginseng plant pathogens Selerotinia nivalis, Rhizoctonia solani AG2, Botrytis cinerea; Fusarium solani, a gray mold disease, Fusarium roseum, a blight, Fusarium oxysporum, a wilt disease, Phytophthora cactorm, a blight, Cladosporium sp, a sclerotia, Sclerotinia Sclerotiorum, a fungus, Pseudomonas aeruginosa, long-term Staphylococcus aureus, Pneumonia, etc. Special care is required for storage. In order to sterilize these bacteria, if a disinfectant is applied to food, fruits and vegetables, it can cause serious health damage to the human body,

In Republic of Korea Patent Registration No. 10-2058199 (Cold Storage and Storage Method of Fruits and Vegetables), fractionation is made into individualized areas that can store fruits, and the inner surface of the compartment for each fractionated fruit is made of a non-woven fabric, , the outer surface contains activated carbon having a mesoporous pore size inside the pad made of paper, and potassium permanganate (KMNO ₄ ) is attached to the outside of the activated carbon to decompose the ethylene gas generated from the fruit during storage, and silica gel to the nonwoven fabric Remove water vapor by supporting it, reduce the amount of ethylene by maintaining the temperature of the refrigerator room at 1-5℃, and maintain freshness and It enables long-term storage, divides the storage into a storage for each vegetable and a storage for each fruit, purifies the cooling water supplied from the adsorption freezer on the outer peripheral surface of each of the divided storage compartments to maintain each storage compartment at a low temperature, and the cooling water is supplied and an upper and lower pipe and a suction pipe to which the cooling water introduced into the first space is supplied, and an adsorbent is coupled to the outer peripheral surfaces of the upper and lower pipe and the insertion pipe to desorb the refrigerant supplied to the outside of the upper and lower pipe and the suction pipe / This technology, which cools and discharges cooling water through the adsorption process and supplies it back to the low-temperature warehouse, uses potassium permanganate (KMNO ₄ ) supported on activated carbon to decompose ethylene gas generated in fruits and vegetables during storage through oxidation. , control moisture (humidity) using a desiccant, and apply propolis solution to the surface of vegetables or fruits to maintain freshness and long-term storage through the respiration and moisture suppression function and antioxidant effect of vegetables. Or, there is no technology for preventing deterioration due to oxidative stress by reactive oxygen species (ROS), inhibiting proliferation of microorganisms, and sterilizing bacteria.

In the Republic of Korea Patent Registration No. 10-1494428 (long-term storage method for ginseng seedlings), massato having a diameter of 1mm to 3mm and a moisture content of 60% to 80% or less is first filled in the lying ginseng seedling storage container, and seedlings are filled in the filled massato After the repeated alluvial alluvial step of filling the seedlings and the repeated alluvial step of alternately repeating the alluvial and alluvial alluvial ginseng with each other, and the second alluvial filling step of filling the mass after the repeated alluvial step, and storing the seedlings containing the Masato and the seedlings It relates to a long-term storage method comprising a storage step of storing the container in a low-temperature warehouse freezing the initial temperature between -4C and -1C. There is no function of creating an inert atmosphere and irradiating quantum energy to prevent contact with outside air.

In Korean Patent Registration No. 10-1356977 (a drying room, agricultural product storage, and food storage installation device using internal and external air circulation and low temperature), the outdoor air inlet room on the ground and the bet discharge pipe are installed on the roof of the building, and the drying room and Agricultural product storage and food storage are connected in common, and the inlet chamber and internal exhaust pipe are used to circulate the internal and external air of the convection vehicle to dry the products containing moisture, and the agricultural products storage and food storage are naturally ventilated to store the stored goods. In addition, the drying room circulates radiant heat to the south for long-term storage of stored goods. As a technology for long-term storage of stored goods, this technology does not have the function of removing oxygen or reactive oxygen species (ROS) or controlling its concentration, it cannot sterilize bacteria in the air, and it does not have a quantum energy irradiation function.

In Korean Patent Registration Publication No. 10-1496839 (meat aging room), in a meat aging room equipped with an aging room and a cold air protection room inside the aging box, the aging room and the cold air protection room are divided by a partition wall inside the aging box, so that one space is the aging room The other side space is partitioned into a cold air protection chamber, a slide door is provided on the partition wall, an internal heat exchange unit is arranged on an inner wall surface including the partition wall of the aging chamber, and the internal heat exchange unit is an aging box is connected to a heat exchange unit provided outside This technology prevents the occurrence of a characteristic odor of meat by sterilizing the inside of the maturation chamber by ozone while reducing the deviation to prevent the loss of cold air. Or, there is no removal or concentration control function of reactive oxygen species (ROS), and there is no quantum energy irradiation function.

In other words, the technology developed so far is incomplete in terms of versatility due to the above-mentioned problems. Plant storage with energy irradiation function is still underdeveloped.

Korean Patent Registration No. 10-2058199 Korean Patent Registration Publication No. 10-1494428 Korean Patent Registration Publication No. 10-1356977 Korean Patent Registration Publication No. 10-1496839

The technical problem to be achieved by the present invention is to install a storage shelf (RACK) or a plurality of rectangular parallelepiped chambers at intervals inside the body, build an air circulation system equipped with a circulation fan, and circulate nitrogen as an air component (N ₂ ) molecules, oxygen (O ₂ ) molecules, and water (H ₂ O) molecules of water vapor are purified and generated by electrochemical reactions such as dissociation, excitation, ionization, oxidation, and reduction by high voltage discharge. Sterilizes airborne bacteria in the circulating air with hydroxyl ions (OH ^- ), etc. After mixing or mixing the dry steam produced by directly spraying or heating the purified air with some air purified in the high voltage discharge process in the venturi ejector, the mixed air is again dissociated, excited, ionized, oxidized, By electrochemical reactions such as reduction, dissociation of water molecules (H ₂ O) of dry steam into hydrogen ions (H ⁺ ) and hydroxyl ions (OH ^- ) and additive substances such as moisture fluctuation inhibitors are activated, and hydrogen ions (H Air ionized with ⁺ ), hydroxyl ions (OH ^- ), oxygen ions (O), and nitrogen oxides (NO) is cooled by using the latent heat of vaporization of the refrigerant in the cooler to circulate the body and the inside of the chamber. Controls temperature and proper humidity. During initial operation, close the electric damper for circulating air attached to the main body and one side of the chamber, open the electric damper of the exhaust line, and operate and exhaust the vacuum pump to reduce the pressure inside the chamber to 20mmHg After maintaining the range of 500 mmHg to 500 mmHg, stopping the operation of the vacuum pump and closing the electric damper, nitrogen, carbon dioxide, argon gas, or hydrogen gas filled in the container from the inert gas supply part is supplied to the main body and chamber to set a constant 5 to 250 Pa higher than atmospheric pressure. After maintaining the time, the air circulation system equipped with a circulation fan is operated again to sterilize airborne bacteria in the high voltage discharge process, purify pollutants, moisture fluctuation inhibitors, radical scavengers, and Dry steam produced by heating an aqueous solution containing an ethylene biosynthesis inhibitor, anti-browning agent, etc., and some air purified in the high-voltage discharge process are mixed in a venturi ejector, and then the mixed air is again dissociated and water vapor and water molecules are dissociated in the high-voltage discharge process. The latent heat of vaporization of the refrigerant in the cooler is activated by activating additive substances and ionized into hydrogen ions (H ⁺ ), hydroxyl ions (OH ^- ), oxygen ions (O), nitrogen oxides (NO), etc. generated in the process of high voltage discharge. Pulsed electromagnetic field; generated by a pulsating quantum energy generator while circulating inside the body and chamber by cooling using PEMF) type magnetic field and pulsating quantum energy are irradiated inside the main body and inside the chamber, so that the stored materials such as ginseng, fruits, food, meat products, and aquatic products stored in the storage rack (RACK) or inside the chamber do not spoil even after long-term storage. , to provide a low-temperature storage irradiated with quantum energy that does not lose activity.

The present invention is to solve the above problems, and has a rectangular parallelepiped or cube shape, and the structure of each bulkhead is a triple structure of an outer surface, an insulating material or an insulating material, and an inner surface, and the material of the outer surface is stainless steel (STS304) , glass fiber molded foam (FRP), carbon steel, etc. are selected and used, and on the inner left side and rear wall of the wall, the pulsating quantum energy generator 800 of a certain area is spaced apart from each other. A plurality of magnetic field generating coils 815a or second magnetic field generating coils 815b are installed, and a second magnetic field generating coil 815b or a first magnetic field generating coil 815a is provided on the walls of the front and right sides at intervals of up, down, left, and right from each other. Oxygen active species (ROS) having a certain area is removed between the first magnetic field generating coil 815a or the second magnetic field generating coil 815b installed at intervals in the body inside the body with a plurality of installations An interior material 111 having a predetermined thickness and area on which an oxygen scavenger component is supported is attached and installed, and the first and second magnetic field generating coils 815a and 815b of the pulsating quantum energy generator 800 are installed at intervals inside the body. The first and second magnetic field generating coils (815a, 815b) of the pulsating quantum energy generator 800 are installed on four surfaces of the outer front, rear, left and right sides of the chamber to face each other at the same height and location of the position. Alternatively, a plurality of cube-shaped food or plant storage chambers 120 are installed, the supply pipe 713 of the inert gas supply unit 700 is installed on one side of the lower left side, and the output side of the pulsating quantum energy generator 800 is on the upper side. of the wire 824 is installed, the air intake pipe 201 connected to the filter housing 202 of the air circulation system 200 is installed on one side of the lower right side, and the discharge pipe 206 is installed on the upper side, The body 100 in which the suction pipe 613 of the decompression unit 600 is installed at intervals to the left; And,

The first filter housing 202, the branch pipe 203, and the HEPA filter 204a are built in. It consists of a second filter housing 204, electric dampers 205a, 205b, a circulation fan 212, and a discharge pipe 206, and the suction pipe 201 is installed on one side of the lower body 100, and the branch pipe (203) is branched on one side of the suction pipe 201, the second filter housing 204 and the electric damper 205b having the HEPA filter 204a built-in on the branch pipe 203 are installed, and on the suction pipe 201 The first filter housing 202 and the electric damper 205a having a built-in demister 202a on one side are installed, the circulation fan 212 is installed at an interval, and the circulation fan 212 is installed on the discharge pipe 206. ) and the active gas generator 300 is installed at an interval, the humidifier 400 is installed at an interval, and the end of the discharge pipe 206 in which the cooler 500 is installed at an interval is one side of the upper body 110 is penetrated into the main body and connected to one side of the upper part of the plurality of chambers 120, respectively to constitute an air circulation flow path, and when power is supplied to the electric damper 205b and the circulation fan 212 from the control panel 900, the main body internal ( In the initial operation stage for the purpose of internal disinfection and initial disinfection and preliminary cooling of the storage before and after the storage is stored in the storage shelf (RACK) installed in 110) or the chamber 120, the circulation FAN 212 is By operating, the external air is sucked into the second filter housing 204 and passed through the HEPA filter 204a, fine dust in the air is filtered and dusted, and the circulating fan 212 sucks and pressurizes the dusted air to be activated gas. It is supplied to the generator 300, and in the normal operation step, the electric damper 205b installed on the branch pipe 203 is turned off and the electric damper 205a installed on the suction pipe 201 is opened (ON), and the main body interior 110 ) and the air inside the chamber 120 is sucked into the first filter housing 202 by the suction force of the circulation fan 212 and is installed inside. While passing through the installed demister 202a, some of the water vapor contained in the air is condensed and recovered, and is suctioned and pressurized by the circulating fan 212. 400, passing through the cooler 500, supplying and circulating to the main body 110 and the chamber 120 to purify airborne contaminants, sterilize bacteria, supply and water additives, supply and While maintaining the temperature and humidity inside the main body 110 and the chamber 120 to meet the set management goal, the air inside the main body 110 and the chamber 120 is circulated again. an air circulation system 200; and,

It consists of an outer cylinder 311, an inner cylinder 312, a first magnetic field generator and discharge electrode 313, a second magnetic field generator and ground electrode 314, a power supply 315, and a conductive wire 316, and both ends are circular. and the first quantum energy generating coil and discharge electrode 313 of a solenoid shape or a toroid shape by interfacing on the inner circumferential surface of the double cylindrical outer cylinder 311 of the outer cylinder 311 and the inner cylinder 312 structure is installed, and a predetermined number of turns are wound in the opposite direction to the winding direction of the first quantum energy generating coil and discharge electrode 313 on the outer circumferential surface of the inner cylinder 312 at an interval of a solenoid shape or a toroid shape A second quantum energy generating coil and ground electrode 314 is installed and the high voltage generated from the power supply 315 installed on one side of the outer cylinder 311 is passed through the conducting wire 316 to the first magnetic field generating coil and discharge electrode ( When supplied to 313) and the ground electrode 314, a magnetic field is generated at an angle of 90 degrees to the current flow direction. Since the winding directions are opposite to each other, the magnetic field overlaps each other between the discharge electrodes 313 and 314 and disappears in a zero magnetic field state. As quantum energy is generated and irradiated, discharge starts between the discharge electrodes 313 and 314 and forms a high field electron energy band, and in this band formed, clean air with the pressing force of the circulation FAN 212 of the air circulation system 200 When supplied, high electric field electron energy is applied to the air passing through, and the covalent bonds of air constituent molecules (O ₂ , N ₂ , H ₂ O, etc.) Active gas such as ions (OH-radical) ions are generated, and ions such as hydroxyl ions (OH-radical) and nitrogen oxide (NO) are removed through redox reaction with polluting (ethylene) substances and suspended in the air An active gas generator 300 that perforates the cell membrane of bacteria or airborne viruses to sterilize and destroy the quorum sensing system (QSS) between bacteria, bacteria and viruses;

An activated gas supply unit 410 comprising a suction pipe 411, a solenoid valve 412, a ring blower 413, a discharge pipe 414, and a venturi ejector 415, and;

Additive supply tank 421a, metering pump 421b, supply pipe 421c, electromagnetic valve (not shown), aqueous solution storage tank 421, agitator 421d, suction pipe 422, pressurization pump 423, electron An aqueous solution supply unit 420 consisting of a valve 424, a discharge pipe 425, a branch pipe 425a, and a solenoid valve 426 installed on the branch pipe;

A heater 430 comprising a ceramic heater 431, a power supply 432, and a solenoid-shaped flow path 433;

Outer cylinder 441, inner cylinder 442, first magnetic field generator and discharge electrode 443, first electric heater 443a, second magnetic field generator and ground electrode 444, second electric heater 444a, power supply 445, the first and second power supplies for the heater (443b, 444b), and a first quantum energy generator and high voltage discharge unit 440 consisting of a wire 446, and the solenoid valve 411 in the control panel 900 ), the ring blower 412, the pressure pump 423, the power supply 432, the power supplies 443b, 444b, and the power supply 445 are sequentially supplied with power, first installed on the branch pipe 411. When the solenoid valve 411 is opened and the ring blower 412 is operated, the purified air is sucked and pressurized through the branch pipe 411 branched from the discharge side of the activated gas generator 300, and supplied to the venturi ejector 414. At the same time, the metering pump 421b suctions and pressurizes an appropriate amount of any one or more additives among antioxidants, ethylene biosynthesis inhibitors, ethylene action inhibitors, freezing point depressants, and moisture fluctuation inhibitors stored in the additive storage tank 421a to pipe 421c. After supplying to the aqueous solution storage tank 421 through and diluting with the stirrer 421d, the aqueous solution stored in the aqueous solution storage tank 421 is operated by the pressurization pump 423 to suction and pressurize through the suction pipe 422. It is supplied to the injection nozzle 447 installed inside the chamber 448 through the branch pipe 425 branched from the discharge pipe 425 and is purified by the active gas generator 300 and sprayed into the air flowing into the chamber 448 or Or, while supplying to the solenoid-shaped flow path 433 of the heater 430 through the solenoid valve 424 installed in the discharge pipe 425, at the same time, a bar-shaped ceramic heater installed in contact with the concentric circle of the solenoid-shaped flow path 433 By supplying power from the power supply 432 to the 431, the flow path 433 is heated by the heat of the heater in a heat conduction type, and at the same time, the heated aqueous solution flowing in the flow path is heated in a heat conduction type to change the state to a wet steam state and further heated to dry steam Alternatively, while heating to superheated steam, it is supplied to the neck 415a of the venturi ejector 414, sucked and pressurized by the ring blower 412, and supplied dry steam or superheated steam to the clean air flowing into the venturi ejector 414. to the first quantum energy generator and high voltage discharge unit 440 while supplying it to the flow path formed between the outer cylinder 441 and the inner cylinder 442 while mixing in clean air while supplying the outer cylinder 441 and the inner cylinder 442 in opposite directions. The power generated by the power supplies 443b and 444b is applied to the heating elements 443a and 444a installed insulated inside the wound first magnetic field generating coil and discharge electrode 443 and the second magnetic field generating coil and ground electrode 444 . When supplied, the heating elements 443a and 444a are heated to heat the discharge electrodes 443 and 444 in the form of heat conduction, and the high voltage generated by the high voltage power supply 445 is supplied to the discharge electrodes 443 and 444 through the conductive wire. A magnetic field is generated at an angle of 90 degrees to the direction, and since the winding directions are opposite to each other, the magnetic field overlaps and disappears between the discharge electrodes 443 and 444. As the discharge starts and forms a high field electron energy band, purified air and superheated steam are mixed in this band, and the heated mixed air passes through the high field electron energy band formed between the discharge electrodes 443 and 444, and the additive material is formed. Activated and active gas such as hydrogen ion (H ⁺ ) and hydroxyl ion (OH-radical) is generated by electrochemical reaction of dissociation, excitation, ionization, oxidation, and reduction reaction of water molecules in dry steam. was injected into the clean air flowing in from the activated gas generator 300 through the injection nozzle 447 installed inside the chamber 448 with the pressing force of the ring blower 413, and mixed with the air flowing in from the activated gas generator 300. The first quantum energy generator and high-voltage discharge unit 400 for supplying the post-cooler 500; and,

Consisting of a compressor 511, a condenser 512, an expansion valve 513, an evaporator 514, and a conduit 515, the refrigerant gas in a low-temperature gaseous state flowing into the evaporator 514 is adiabatically compressed in the compressor 511. When the refrigerant gas in a high-temperature and high-pressure state is supplied to the condenser 512 at its own pressure, external air is introduced and pressurized by the cooling fan 512a for the condenser 512, and the injected air and the high-temperature and high-pressure refrigerant gas pass through the condenser inner tube. In the process, the phase is converted into a high-temperature and high-pressure liquid refrigerant by heat exchange of convection and conduction methods, and then it is decompressed by the Joule-Thompson effect in the process of passing through the expansion valve 513 in the form of a micro-diameter capillary tube with its own pressure, resulting in a low-temperature, low-pressure refrigerant. Pre-programmed by cooling the mixed air transferred to the first quantum energy generator and high voltage discharge unit 400 by the heat of vaporization generated while the refrigerant evaporates due to heat conduction during the process of passing through the evaporator wound in the shape of a solenoid coil after the temperature is reduced and the pressure is reduced. After being cooled to a temperature set by the control circuit input to the control panel 900 and the mixed air is dehumidified to an appropriate humidity during the cooling process, it is supplied into the body interior 110 and the chamber 120 inside the body 110 and the chamber. (120) is supplied to the inside to control the internal humidity, and stops when the preset temperature input in the control circuit of the control panel 900 in advance reaches the preset humidity, and the temperature of the circulated air after a certain time is set to the preset temperature A cooler 500 that cools the circulating air and adjusts the humidity while the control operation to be restarted is repeatedly performed when it exceeds or the humidity exceeds the reference value;

It consists of an exhaust pipe 611, a vacuum pump 612, a discharge pipe 613, and an electromagnetic valve 613a connected to the body inside 110 or the body inside 110 and the chamber 120, so that the stored material is stored inside the body 110 ) installed in the storage shelf (RACK) or the chamber 120 before and after storage for a certain period of time internal disinfection and initial disinfection and preliminary cooling of the stored material is purified through the air circulation system 110, and bacteria are sterilized The vacuum pump 612 and the electronic device for a certain time by the control program of the control panel 900 while supplying the additive material and the cooled clean air to the main body 110 or the main body 110 and the chamber 120 When power is supplied to the valves 611a, 611b, and 611c, the solenoid valves 611a, 611b, 611c are opened and the vacuum pump 612 is operated at the same time as the main body 110 and the air in the chamber 120 are sucked into the suction pipe ( 611) through suction and pressurization, and by opening the solenoid valve 613a on the discharge pipe 613 to exhaust to the atmosphere, the inside of the body 110 or the inside of the body 110 and the chamber 120 has a negative pressure in the range of 20 mmhg to 550 mmhg A decompression unit 600 for maintaining and releasing the decompression state for a certain period of time after decompression with

Gas detector 717 and nitrogen (N ₂ ) gas is filled with high pressure (120kg/cm2) container (711a), pressure and flow regulator (711b), nitrogen (N ₂ ) consisting of a solenoid valve (711c) gas supply (711) and;

Alternatively, an argon (Ar) gas supply 712 comprising a vessel (bombe) 712a, a pressure and flow regulator 712b, and a solenoid valve 712c filled with argon (Ar) gas high pressure (120 kg/cm2) and an argon (Ar) gas supply 712,

Hydrogen (H 2 ) consisting of a vessel (bombe) (713a), a pressure and flow regulator (713b), a solenoid valve (713c) filled with hydrogen (H ₂ ) gas high pressure (120 kg/cm2) and a hydrogen (H ₂ ) gas supply (713) and ,

Carbon dioxide (CO ₂ ) consisting of a container (bombe) 714a, a pressure and flow regulator (714b), and a solenoid valve (714c) filled with carbon dioxide (CO ₂ ) gas high pressure (120 kg/cm2) of the gas supply 714 Each of the supply pipes is connected to one end of the main supply pipe where the solenoid valve 715 is installed, and the other end is connected to a plurality of branch pipes connected to the inside of the main agent and the chamber 120 to provide a nitrogen (N ₂ ) gas supply 711, Argon (Ar) gas supply unit 712, hydrogen (H ₂ ) gas supply unit 713, carbon dioxide (CO ₂ ) any one of the gas supply unit 714 is selected from the selected inert gas (nitrogen, argon, carbonic acid) gas) or hydrogen gas is supplied to the inside of the storage and aging chamber 110 and the chamber 120 to replace the inside with an inert gas or hydrogen gas, and to relieve the oxidative stress of the stored material and lower the oxygen concentration during storage In the case of hydrogen gas, it removes oxygen active species (ROS) such as hydroxyl ions (OH-) and oxygen ions (O) inside the body 110 and the plurality of chambers 120 by reducing action. Inert gas supply unit 700; And,

Step-down transformer 811, rectifier circuit 812, input module 813a, operation module 813b, PWM (pulse width modulation) control method and pulse frequency modulation PFM (pulse frequency modulation) and pulse frequency ( Density) control (PDM), pulse repetition rate control (PRR) function is built-in control module (813c) consisting of a control unit (813), a power supply (810) consisting of a current detection sensor (814) and a first magnetic field generating coil ( 815a) and the second magnetic field generating coil 815b, the power in the form of a pulsed electromagnetic field (PEMF) generated by the power supply 810 is supplied to the first magnetic field generating coil 815a, the second magnetic field generating coil ( 815b), a magnetic field in the form of a pulsed electromagnetic field (PEMF) opposite to each other at an angle of 90 degrees to the direction of current flow is generated, and the magnetic field in the form of a pulsed electromagnetic field (PEMF) is superimposed and disappears to zero. A pulsating quantum energy generator 800 in which pulsating quantum energy is irradiated to the storage stored in the main body internal storage rack and the chamber in a magnetic field state; and;

Air circulation system 200, active gas generator 300, first quantum energy generator and high voltage discharge unit 400, cooler 500, decompression unit 600, inert gas supply unit 700, pulsating quantum energy irradiation unit ( 800) is configured to include a control panel 900 that controls such as supplying and shutting off power.

1. The air circulated in the high voltage discharge unit is electrochemically reacted to sterilize bacteria and remove ethylene gas in the air. After spraying and mixing water vapor containing substances such as browning inhibitors in the circulating air, the cooling unit provides an appropriate temperature and proper temperature. Changes in physical properties or physicochemical properties occur during storage of the stored material by controlling humidity, and the composition is solidified by denaturation of the protein constituting the composition, aging of the pregelatinized starch, and promotion of oxidation or decomposition of lipids. , shrinkage, cracking, browning, dissolution, deliquescence, crystallization, precipitation, etc. progress, resulting in deterioration of the texture, shape, taste, aroma, color, texture, etc., inactivation of active ingredients, loss of nutrients, and microbial contamination quality deterioration can be prevented.

2. Hydrogen ions (H ⁺ ,H ^- ) generated by sterilization of bacteria and dissociation of hydrogen gas by hydroxyl ions (OH ^- ) generated in the electrochemical reaction of the high voltage discharge process in the high voltage discharge unit are supplied to the inside of the storage room. Oxidation and oxidative stress of the stored material caused by oxygen or reactive oxygen species by removing oxygen or reactive oxygen species (ROS) released during storage from the storage inside the storage chamber and stored in the chamber and oxygen in the circulating air through a reduction reaction As a result, the stored material deteriorates gradually, and aerobic microorganisms proliferate and promote deterioration. In the stored material such as meat and fish, the destruction of macromolecules such as lipoproteins and nucleic acids in vivo occurs, and in the case of pharmaceuticals and cosmetics, it is caused by oxidation reaction with the composition. In the case of ginseng, the root rot diseases Cylindrocarpon, Cylindrocarpon destructans, Cylindrocarpon candidum, Cylindrocarpon album, Cylindrocarpon hetronema, and ginseng plant pathogens Selerotinia nivalis, Rhizoctonia solani AG2, Botrytis cinerea; Fusarium solani, a gray mold disease, Fusarium roseum, a blight, Fusarium oxysporum, a wilt disease, Phytophthora cactorm, a spot disease, Cladosporium sp, a sclerotia, Sclerotinia Sclerotiorum, mold, Pseudomonas aeruginosa, Staphylococcus aureus, Staphylococcus aureus, and Pneumonia. to prevent losses due to

3. By irradiating the magnetic field and pulsating quantum energy generated by the quantum energy generator to the stored material stored in the storage room, the water molecules have electrostatic traction, and the hydrogen bonding between the dipoles is reduced, resulting in high order, and water molecules The small mass of the 'microcluster' occurs, the orderly ground state is permanently preserved, and the molecules, cells, tissues, and organs of the storage are irradiated to activate the minerals of sodium or calcium ions. and improve freshness.

1 is a schematic diagram showing the overall configuration of a low-temperature storage and aging warehouse to which quantum energy is irradiated according to the present invention.
FIG. 2 is a cross-sectional view showing a main body in which a chamber is installed inside a low-temperature storage and maturation chamber to which the quantum energy shown in FIG. 1 is irradiated.
Figure 3 is a cross-sectional view showing a main body in which the storage rack (Rack) is installed inside the low-temperature storage and aging room to which the quantum energy shown in Figure 1 is irradiated.
4 is a cross-sectional view showing a storage chamber installed inside the main body of the low-temperature storage and aging chamber to which the quantum energy shown in FIGS. 1 and 2 is irradiated.
FIG. 5 is an elevation view of the storage chamber shown in FIG. 4 ;
6 is a cross-sectional view showing the circulation air system of the low-temperature storage and aging room to which the quantum energy shown in FIG. 1 is irradiated.
7 is a cross-sectional view showing an active gas generator of the low-temperature storage and aging cell to which the quantum energy shown in FIG. 1 is irradiated.
8 is a cross-sectional view showing the configuration of a humidifier in the low-temperature storage and aging room to which the quantum energy shown in FIG. 1 is irradiated.
9 is a cross-sectional view showing the cooler of the low-temperature storage and aging room to which the quantum energy shown in FIG. 1 is irradiated.
10 is a cross-sectional view showing the decompression unit 600 of the low-temperature storage and aging chamber to which the quantum energy shown in FIG. 1 is irradiated.
11 is a cross-sectional view illustrating a low-temperature storage and aging inert gas supply unit to which the quantum energy shown in FIG. 1 is irradiated.
12 is a cross-sectional view illustrating a pulsating quantum energy generator in a low-temperature storage and aging chamber to which the quantum energy shown in FIG. 1 is irradiated.
13 is a configuration diagram showing a control panel of the low-temperature storage and aging room to which the quantum energy shown in FIG. 1 is irradiated.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, it should be noted that in adding reference numerals to the components of each drawing, the same components are given the same reference numerals as much as possible even though they are indicated on different drawings.

In addition, in describing the present invention, when it is determined that a detailed description of a related known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, preferred embodiments of the present invention will be described below, but the technical spirit of the present invention is not limited thereto and may be practiced by those skilled in the art, of course.

1 is a schematic diagram showing the overall configuration of a low-temperature storage and aging warehouse to which quantum energy is irradiated according to the present invention.

1, the low-temperature storage and aging storage to which quantum energy is irradiated according to the present invention are rectangular or cube-shaped, and the structure of each bulkhead is an external surface, an insulating material or a heat insulating material, and an external surface in a triple structure format of the inner surface. For the material, any one of the materials such as stainless steel (STS304), glass fiber molded foam (FRP), and carbon steel is selected and used.

The installation of the quantum energy generating coils 815a and 815b inside the storage and outside the chamber 120 is spaced apart from each other on the left and right sides and the front and back sides, and the first quantum energy generating coil 815a or the second quantum energy is generated Install the coil 815b, but facing each other (the wall inside the body, the wall inside the body and either side of the chamber, the side between the chamber and the chamber) first quantum energy generating coil 815a or second quantum energy generating coil 815b ) is installed so that the winding directions are opposite to each other,

An oxygen scavenger component that removes oxygen active species (ROS) having a certain area between the first quantum energy generating coil 815a or the second quantum energy generating coil 815b installed at intervals on the top, bottom, left and right inside the body The loaded interior material 111 having a certain thickness and area is attached and installed, and the first quantum energy generating coil of the pulsating quantum energy generator 800 having a predetermined area is spaced apart from each other on the left and right walls of the inside of the body. A plurality of (815a) or second quantum energy generating coils (815b) are installed, and a second quantum energy generating coil (815b) or a first quantum energy generating coil (815a) is spaced apart from each other on the front and right sides of the wall. The first and second quantum energy generating coils (815a, 815b) of the pulsating quantum energy generator 800 are spaced apart from the inner surface and face each other at the same height and position of the installation position. , The first and second quantum energy generating coils (815a, 815b) of the pulsating quantum energy generator 800 are installed on the four sides of the right side. A plurality of chambers for storing food or plants 120 are installed, Alternatively, rod-shaped first and second quantum energy generating coils 815a and 815b having a predetermined diameter and a predetermined height are installed at each corner of the inner surface, and the inert gas supply unit 700 is provided on one side of the lower left side of the main body 110 . A supply pipe 713 is installed, a conductive wire 814 on the output side of the pulsating quantum energy generator 800 is installed on one upper side, and an air intake pipe connected to the filter housing 202 of the air circulation system 200 on the lower right side The body 100 in which the 201 is installed, the discharge pipe 206 is installed on one side of the upper part, and the suction pipe 611 of the decompression unit 600 is installed at intervals to the left; And,

The first filter housing 202, the branch pipe 203, and the HEPA filter 204a are built in. It consists of a second filter housing 204, electric dampers 205a, 205b, a circulation fan 212, and a discharge pipe 206, and the suction pipe 201 is installed on one side of the lower left side of the main body 100, and the branch The pipe 203 is branched on one side of the suction pipe 201, and the second filter housing 204 and the electric damper 205b having the HEPA filter 204a embedded therein are installed on the branch pipe 203, and the suction pipe 201 The first filter housing 202 and the electric damper 205a having a built-in demister 202a are installed on one side of the upper side, and the circulation fan 212 is installed at an interval, and the circulation fan 212 is installed on the discharge pipe 206 ( The end of the discharge pipe 206 in which the active gas supply 300 is installed at a distance from the 212), the humidifier 400 is installed at an interval, and the cooler 500 is installed at a distance from the body 110 is the upper part of the body 110 It is installed on one side to constitute an air circulation flow path, and when power is supplied to the electric damper 205b and the circulation fan 212 from the control panel 900, a storage shelf (RACK) or chamber 120 installed in the body interior 110 ) In the initial operation stage for the purpose of internal disinfection and initial disinfection and preliminary cooling of the stored material for a certain period of time before and after the stored material is stored inside, the circulation FAN 212 is operated to blow the outside air into the second filter housing 204. The fine dust in the air is filtered and dusted while passing through the suction and HEPA filter 204a, and the circulating fan 212 sucks and pressurizes the dusted air and supplies it to the active gas generator 300, and the normal operation stage is a branch pipe. The electric damper 205b installed on the 203 is turned off and the electric damper 205a installed on the suction pipe 201 is opened (ON), so that the air inside the body 110 and the chamber 120 is circulated by the fan 212 ) is sucked into the first filter housing 202 by the suction force and passes through the demister 202a installed therein. As part of the water vapor is condensed and recovered, it is sucked and pressurized by the circulation fan 212, and passes through the activated gas generator 300, the humidifier 400, and the cooler 500 installed on the discharge pipe 206 at a distance from each other to the inside of the body. Contaminants in the air are purified inside the 110 and chamber 120, bacteria are sterilized, additives are supplied and moisture is supplied, and the temperature and humidity inside the body 110 and the chamber 120 are set management The air circulation system 200 in which the circulating fan 212 sucks and pressurizes the air inside the main body 110 and the chamber 120 again while maintaining it suitable for the target; and

It consists of an outer cylinder 311, an inner cylinder 312, a first quantum energy generating coil and a discharge electrode 313, a second quantum energy generating coil and a ground electrode 314, a power supply 315, and a wire 316. The first quantum energy generating coil and discharge of a solenoid shape or a toroid shape by interviewing on the inner circumferential surface of the double cylindrical outer cylinder 311 of the outer cylinder 311 and the inner cylinder 312 structure with a circular end surface The electrode 313 is installed, and a predetermined number of turns are wound on the outer circumferential surface of the inner cylinder 312 at a distance in the opposite direction to the winding direction of the first quantum energy generating coil and discharge electrode 313 in a solenoid shape or toroid ( toroid)-shaped second quantum energy generating coil and ground electrode 314 is installed to conduct a pulsed electromagnetic field (PEMF) type power generated by the power supply 315 installed on one side of the outer cylinder 311 When supplied to the first quantum energy generating coil/discharge electrode 313 and the second quantum energy generating coil/ground electrode 314 through 316, a pulsed electromagnetic field (PEMF) is generated at an angle of 90 degrees to the current flow direction. A magnetic field in the form of a magnetic field is generated, and since the winding directions are opposite to each other, the magnetic field in the form of a pulsed electromagnetic field (PEMF) overlaps and disappears between the discharge electrodes 313 and 314, so that pulsating quantum energy is generated and irradiated in a zero magnetic field state , Discharge starts between the first and second quantum energy generating coil and discharge electrodes 313 and 314 and forms a high field electron energy band, and the pressing force of the circulation FAN 212 of the air circulation system 200 is formed in this band. When _{clean air} is _supplied through Active gas such as hydroxyl ion (OH-radical) ion and nitric oxide (NO) is generated by the reaction, and the generated hydroxyl ion (OH-radica l), ions such as nitric oxide (NO) are removed through oxidation and reduction reactions with polluting (ethylene) substances and sterilized by perforating the cell membrane of airborne bacteria or airborne viruses and a quorum sensing system between bacteria, bacteria and viruses (Quorum) Activated gas generator 300 to destroy Sensing SYSTEM: QSS; And,

An active air supply unit 410 comprising a suction pipe 411, a solenoid valve 412, a ring blower 413, a discharge pipe 414, and a venturi ejector 415;

Additive supply tank 421a, metering pump 421b, supply pipe 421c, agitator 421d, aqueous solution storage tank 421, suction pipe 422, pressurization pump 423, solenoid valve 424, discharge An aqueous solution supply unit 420 composed of a pipe 425, a branch pipe 425a, and a solenoid valve 426 installed on the branch pipe;

A heater 430 comprising a ceramic heater 431, a power supply 432, and a solenoid-shaped flow path 433;

Outer cylinder 441, inner cylinder 442, first magnetic field generator and discharge electrode 443, first electric heater 443a, second magnetic field generator and ground electrode 444, second electric heater 444a, power supply 445, the first and second power supplies for the heater (443b, 444b), and a first quantum energy generator and high voltage discharge unit 440 consisting of a wire 446, and the solenoid valve 411 in the control panel 900 ), the ring blower 412, the pressure pump 423, the power supply 432, the power supplies 443b, 444b, and the power supply 445 are sequentially supplied with power, first installed on the branch pipe 411. The solenoid valve 411 is opened and the ring blower 412 is operated to suck and pressurize the purified air through the branch pipe 411 branched from the discharge side of the activated gas generator 300, and supply it to the venturi ejector 415. At the same time, the metering pump 421b suctions and pressurizes an appropriate amount of any one or more additives among antioxidants, ethylene biosynthesis inhibitors, ethylene action inhibitors, freezing point depressants, and moisture fluctuation inhibitors stored in the additive storage tank 421a to pipe 421c. is supplied to the aqueous solution storage tank 421 through the, diluted with a stirrer 421d, the aqueous solution stored in the aqueous solution storage tank 421 is operated by a pressurizing pump 423 to suction and pressurize the aqueous solution through the suction pipe 422 and discharge Supplying the injection nozzle 447 installed inside the chamber 448 through the branch pipe 425a branched from the pipe 425 is purified by the activated gas generator 300 and sprayed into the air flowing into the chamber 448, Alternatively, while supplying to the solenoid-shaped flow path 433 of the heater 430 through the solenoid valve 424 installed in the discharge pipe 425, at the same time, a bar-shaped ceramic heater installed in contact with the inside of the concentric circle of the solenoid-shaped flow path 433. By supplying power from the power supply 432 to the 431, the flow path 433 is heated by the heat of the heater in a heat conduction type, and at the same time, the heated aqueous solution flowing in the flow path is heated in a heat conduction type to change the state to a wet steam state and further heated to dry Dry steam or superheated steam is supplied to the neck 415a of the venturi ejector 415 while being heated to a state of manic steam or superheated steam, and the dry steam or superheated steam is supplied to the clean air that is sucked and pressurized by the ring blower 412 and flows into the venturi ejector 415. While supplying and mixing in clean air, the first quantum energy generator and high voltage discharge unit 440 while supplying to the flow path formed between the outer cylinder 441 and the inner cylinder 442 of the outer cylinder 441 and the inner cylinder 442 opposite directions to each other Power generated by the power supply (443b, 444b) to the heating elements (443a, 444a) installed insulated inside the first magnetic field generating coil and discharge electrode 443 and the second magnetic field generating coil and ground electrode 444 wound with When supplied, the heating elements 443a and 444a are heated and the high voltage generated by the high voltage power supply 445 is supplied to the discharge electrodes 443 and 444 through a conducting wire while heating the discharge electrodes 443 and 444 in a heat conduction type. A magnetic field is generated at an angle of 90 degrees to the flow direction, and since the winding direction is opposite to each other, the magnetic field overlaps each other between the discharge electrodes 443 and 444 and disappears, so that quantum energy is generated and irradiated in a zero magnetic field state, the discharge electrodes 443 and 444 As the discharge starts and forms a high field electron energy band in between, purified air and superheated steam are mixed in this band, and the heated mixed air passes through the high field electron energy band formed between the discharge electrodes 443 and 444, and the additive material This is activated and the water molecules in the dry steam are dissociated, excited, ionized, oxidized, and reduced as an electrochemical reaction to generate active gases such as hydrogen ions (H ⁺ ) and hydroxyl ions (OH-radical). A humidifier 400 for supplying the gas to the cooler 500 by spraying the gas into the clean air flowing in from the active gas supply 300 through the injection nozzle 447 installed inside the chamber 448 with the pressing force of the ring blower 413; Wow,

Consisting of a compressor 511, a condenser 512, an expansion valve 513, an evaporator 514, and a conduit 515, the refrigerant gas in a low-temperature gaseous state flowing into the evaporator 514 is adiabatically compressed by the compressor 511. When the refrigerant gas in a high-temperature and high-pressure state is supplied to the condenser 512 at its own pressure, external air is introduced and pressurized by the cooling fan 512a for the condenser 512, and the injected air and the high-temperature and high-pressure refrigerant gas pass through the condenser inner tube. In the process, the phase is converted into a high-temperature and high-pressure liquid refrigerant by heat exchange of convection and conduction methods, and then it is decompressed by the Joule-Thompson effect in the process of passing through the expansion valve 513 in the form of a micro-diameter capillary tube with its own pressure, resulting in a low-temperature, low-pressure refrigerant. Pre-programmed by cooling the mixed air transferred to the first quantum energy generator and high voltage discharge unit 400 by the heat of vaporization generated while the refrigerant evaporates due to heat conduction during the process of passing through the evaporator wound in the shape of a solenoid coil after the temperature is reduced and the pressure is reduced. In the process of cooling and mixing air to a temperature set by the control circuit input to the control panel 900, the dry steam of the aqueous solution contained in the mixed air is cooled to below the dew point, and the humidity inside the body 110 and the chamber 120 While supplying the inside of the main body 110 and the chamber 120 by controlling the humid air state for adjustment, it stops when the set temperature and set humidity input in the control circuit of the control panel 900 are reached in advance, and circulates after a certain time has elapsed. When the temperature of the air to be used exceeds the set temperature or the humidity exceeds the reference value, the control operation to be restarted is repeatedly performed while the cooler 500 cools the circulating air and adjusts the humidity; and

It is composed of an exhaust pipe 611, a vacuum pump 612, a discharge pipe 613, and a solenoid valve 613a connected to the body interior 110 or the body interior 110 and the chamber 120, and is installed in the body interior 110. The high voltage discharge unit 300 of the air circulation system 110 for the purpose of internal disinfection and initial disinfection and preliminary cooling of the stored material for a predetermined time before and after the stored material is stored in the storage shelf (RACK) or the chamber 120, and The control panel ( 900), when power is supplied to the vacuum pump 612 and the solenoid valves 611a, 611b, and 611c for a certain period of time, the solenoid valves 611a, 611b, 611c are opened and the vacuum pump 612 is operated at the same time. to suck and pressurize the air inside the body 110 and the chamber 120 through the suction pipe 611, open the solenoid valve 613a on the discharge pipe 613, and exhaust it to the atmosphere to the inside of the body 110 or the body After decompressing the inside 110 and the chamber 120 to a negative pressure in the range of 20 mmHg to 550 mmHg, and then maintaining the negative pressure state for a certain period of time, the decompression unit 600 releases the negative pressure state; and;

Gas detector 717 and nitrogen (N ₂ ) gas is filled with high pressure (120kg/cm2) container (711a), pressure and flow regulator (711b), nitrogen (N ₂ ) consisting of a solenoid valve (711c) gas supply (711) and;

Alternatively, an argon (Ar) gas supply 712 comprising a vessel (bombe) 712a, a pressure and flow regulator 712b, and a solenoid valve 712c filled with argon (Ar) gas high pressure (120 kg/cm2) and an argon (Ar) gas supply 712,

Hydrogen (H 2 ) consisting of a vessel (bombe) (713a), a pressure and flow regulator (713b), a solenoid valve (713c) filled with hydrogen (H ₂ ) gas high pressure (120 kg/cm2) and a hydrogen (H ₂ ) gas supply (713) and ,

Carbon dioxide (CO ₂ ) consisting of a container (bombe) 714a, a pressure and flow regulator (714b), and a solenoid valve (714c) filled with carbon dioxide (CO ₂ ) gas high pressure (120 kg/cm2) of the gas supply 714 A supply pipe is connected to one end of the main supply pipe in which the solenoid valve 715 is installed, and the other end is connected to a plurality of branch pipes connected to the inside of the main agent and the chamber 120 to provide a nitrogen (N ₂ ) gas supply 711, argon ( Ar) gas supply 712, hydrogen (H ₂ ) gas supply 713, carbon dioxide (CO ₂ ) any one of the gas supply 714 is selected from the selected inert gas (nitrogen, argon, carbon dioxide) Alternatively, hydrogen gas is supplied to the inside of the storage body 110 and the chamber 120 to replace the inside with an inert gas or hydrogen gas to relieve the oxidative stress of the stored material caused by active oxygen species (ROS) and oxygen concentration In the case of hydrogen gas, it reduces oxygen active species (ROS) such as hydroxyl ions (OH-) and oxygen ions (O) inside the body 110 and the plurality of chambers 120 in the case of hydrogen gas. Inert gas supply unit 700 to remove; And,

Step-down transformer 811, rectifier circuit 812, input module 813a, operation module 813b, PWM (pulse width modulation) control method and pulse frequency modulation PFM (pulse frequency modulation) and pulse frequency ( Density) control (PDM), pulse repetition rate control (PRR) function is built-in control module (813c) consisting of a control unit (813), a power supply (810) consisting of a current detection sensor (814) and a first quantum energy generating coil 815a and a second quantum energy generating coil 815b, the power supply in the form of a pulsed electromagnetic field (PEMF) generated by the power supply 810 serves as the first quantum energy generating coil 815a, the second When supplied to the quantum energy generating coil 815b, a magnetic field in the form of a pulsed electromagnetic field (PEMF) is generated and a magnetic field in the form of a pulsed electromagnetic field (PEMF) is generated at an angle of 90 degrees to the direction of current flow. As these overlap and disappear, pulsating quantum energy is generated in a state of a zero magnetic field, and a pulsating quantum energy generator 800 that irradiates the generated pulsating quantum energy to the storage stored in the main body internal storage rack and the chamber; And,

Air circulation system 200, active gas generator 300, first quantum energy generator and high voltage discharge unit 400, cooler 500, decompression unit 600, inert gas supply unit 700, pulsating quantum energy generator ( 800) is configured to include a control panel 900 that controls such as supplying and shutting off power.

2, 3, 4 and 5A are cross-sectional views showing the main body and storage chamber of the low-temperature storage and maturation chamber to which the quantum energy shown in FIG. 1 is irradiated.

Referring to FIG. 2, the main body 110 has a rectangular parallelepiped or cube shape, and the structure of each partition wall is a triple structure of an outer surface, an insulating material or an inner surface, and the material of the outer surface is carbon steel, or stainless steel. Select any one of steel (STS304) and glass fiber molded foam (FRP), and apply powder coating on the outer surface. Installed, one side of the inner surface finished by powder coating on carbon steel or stainless steel on the other side of the insulating or thermal insulation material is installed to form a wall, and the body 110 is manufactured by combining a plurality of walls The first of the pulsating quantum energy generator 800 in which each wall surface inside the body 110 is virtually divided into a plurality to have a predetermined area, and a predetermined number of turns is wound in the divided area with a winding direction clockwise or counterclockwise. One magnetic field generating coil (815a) or the second magnetic field generating coil (815b) is provided with a plurality of upper and lower, left and right intervals at intervals from each other on the left side, the right side, the front side, and the rear side (four sides), the first magnetic field generating coil An interior material 111 having a predetermined thickness and area in which an oxygen scavenger component for removing oxygen active species (ROS) having a predetermined area is supported is installed between the 815a or the second magnetic field generating coil 815b.

In addition, when the chamber 120 is not installed inside the main body, as shown in FIG. 3, at each corner of the inner surface of the main body 110, on the outer surface of the rod having a certain diameter and a certain length (height). Install the first quantum energy generating coil (815a) or the second quantum energy generating coil (815b) of the pulsating quantum energy generator 800 wound with a certain number of turns in a clockwise or counterclockwise direction, or inside the body 110 Copper/stainless steel processed into a solenoid coil shape by winding a certain number of turns in a clockwise or counterclockwise direction on the surface of a flat plate or disc having a certain area on the top, bottom, left and right on each side, spaced apart from each other on each side A first magnetic field generating coil (815a) or a second magnetic field generating coil (815b) in the form of a metal coil such as titanium is installed, and a double structure (hollow) chamber 120 for loading the stored material therein at the same height. A plurality of chambers 120 are installed at a distance from each other, and as shown in FIGS. 4 and 5A , the chamber 120 has a pulsating quantum energy generator 800 on four outer surfaces (front, rear, left, right) of each chamber. The first quantum energy generating coil 815a or the second quantum energy generating coil 815a of the quantum energy generator 800 in which a plurality of one quantum energy generating coil 815a or a second quantum energy generating coil 815b is installed on the inner surface of the main body 110 It is installed at the same height as the energy generating coil cum 815b and facing each other, and in the hollow part 121 (between the inner and outer surfaces) of the chamber 120, any one of ethylene glycol (EG), propylene glycol (PEG), and silicone oil One material is selected and filled, and an interior material 122 having a predetermined thickness and area in which an oxygen scavenger component is supported is attached to the wall of the inner surface (4 to 6 sides).

In the manufacturing of the interior material 122, a plurality of holes having a predetermined diameter are spaced apart from each other in a thin metal plate made of copper (CU), stainless steel (STS 304 or STS 316L), and zinc (Zn) having a predetermined thickness and a predetermined area. Metal powder for oxygen removal, such as carbon (C), aluminum (Al), manganese (Mn), magnesium (Mg), titanium (Ti), zirconium (Zr), calcium (Ca), etc. with a particle diameter of 1 to 20 μm after perforation Select one or more powders from among them, then add an appropriate amount of polyvinyl alcohol (PVA), and then evenly stir the powder to the lower mold (not shown) of the heat press. After evenly filling the powder and polyvinyl alcohol mixed powder to a certain depth, laminating a thin metal plate of stainless steel (STS304) on the filled mixed powder, and lowering the upper mold (not shown) of the heat press to apply heat At the same time, after compression and molding, the interior material is taken out from the lower mold, and the interior material 121 for removing oxygen is manufactured by a natural cooling method and attached to the inner surface of the chamber 120. It has a structure, and a door (not shown) installed in the upper and lower parts is installed with a sight window (not shown) of a certain size spaced apart from each other. Airtightness is maintained by attaching a cushioning material made of rubber or silicon material to the part in contact with the door and the body, and the output side lead 824 of the power supply 823 of the pulsating quantum energy generator 800 is connected to one side of the upper left side or the right side, and , an inert gas supply pipe 713 is connected at a distance from the conducting wire 824 in the downward direction, an exhaust pipe 613 is installed on one side of the upper surface, and a discharge pipe 206 of the air circulation system 200 at the center of the upper surface. The upper surface is passed through the main body 110 and the plurality of chambers 120 are connected and installed.

Figure 3 is a cross-sectional view showing the main body of another configuration of the low-temperature storage and aging room to which the quantum energy shown in Figure 1 is irradiated.

Referring to FIG. 3, the main body 110 has a rectangular parallelepiped or cube shape, and has a triple structure of an outer surface, an insulating material or an insulating material, and an inner surface, and the material of the outer surface is carbon steel, or stainless steel (STS304). One side of an insulating or insulating material such as polyurethane having a certain thickness is installed by interviewing the exterior surface finished with powder coating, and the other side of the insulating or insulating material is powder coated on carbon steel or stainless steel to finish One side of the treated inner surface is installed to face-to-face, and an interior material 111 having a predetermined thickness and area in which an oxygen scavenger component is mixed by being interviewed on the inner face is attached to the inner surface of the chamber 120 to be face-to-face.

In the manufacture of the interior material 111, any one or more materials selected from copper (CU), stainless steel (STS 304 or STS 316L), and zinc (Zn) materials having a certain thickness and a certain area are spaced from each other on a plurality of thin metal plates. After drilling a plurality of holes having a certain diameter between each thin metal plate, carbon (C), aluminum (Al), manganese (Mn), magnesium (Mg), titanium (Ti), zirconium within a particle diameter of 1 to 20 μm Select one or more powders from among metal powders for oxygen removal such as (Zr) and calcium (Ca), then add a fixed amount of polyvinyl alcohol (PVA), fill the powder with uniform stirring, and press the lower mold ( (not shown), for example, a thin copper metal plate is laid, and a powder mixed with oxygen removing powder and polyvinyl alcohol is evenly filled to a predetermined depth, and stainless steel (STS304) is made on the filled mixed powder. After laminating the thin metal plates, the upper mold (not shown) of the heat press is lowered, heat is applied, and the board is compressed and molded at the same time. The front part of the body 110 has a triple structure as described above, and a door (not shown) installed in the upper and lower part with a see-through window (not shown) of a certain size at a distance from each other is installed, and a part in contact with the door and the body is made of rubber or Airtightness is maintained by attaching a silicone cushioning material, and any one of conductive materials such as copper, silver, stainless steel (STS304) of a certain diameter to face each corner or one side of each inner surface of the body 110 A pulsating quantum energy generator 800 wound with a certain number of turns in a clockwise or counterclockwise solenoid coil shape on the outer circumferential surface of a rod having a selected constant diameter and a certain length or a rod having a certain diameter and a certain length. 1 Install a magnetic field generating coil (815a) or a second magnetic field generating coil (815b) (not shown), or a plate-type or disk-shaped deformed solenoid coil shape or toroid coil shape with a distance from each other on the front, back and both sides A first magnetic field generating coil 815a or a second magnetic field generating coil 815b (not shown) is installed so that the current flow direction in each of the quantum energy generating coils 815a and 815b is opposite to the conducting wire 814. The power supply 810 and the conductive wire 814 of the quantum energy generator 800 installed outside the main body 110 are connected, and the inert gas supply pipe 713 is spaced downward from the conductive wire 814a. This is connected and an exhaust pipe 611 is installed on one side of the upper right side, and the discharge pipe 206 of the air circulation system 200 in the center of the upper surface passes through the body 110, It is installed to extend, and a shelf 112 (Rack) for loading the storage object at a distance from the inner surface of the main body 110 is installed.

4 is a cross-sectional view showing a storage chamber installed inside the main body of the low-temperature storage and aging chamber to which the quantum energy shown in FIG. 1 is irradiated.

4, the storage chamber 120 has a rectangular parallelepiped shape, and the material is selected from among materials such as stainless steel (STS304), carbon steel, copper, tin, and glass fiber molded foam (FRP). The first magnetic field generating coil 815a or the second magnetic field generating coil 815b of the pulsating quantum energy generator 800 is installed on the left side and the back side of the outer surface of the double structure (hollow), and on the right side and the front side The second magnetic field generating coil 815b or the first magnetic field generating coil 815a of the pulsating quantum energy generator 800 is installed, and the first magnetic field is generated on the opposite side, that is, the front side and the rear side, and the left side and the right side outside. The coil 815a or the second magnetic field generating coil 815b is installed so that the winding directions of the coils are opposite to each other, and the power supply 813 transmits power in the form of a pulsed electromagnetic field (PEMF) through the wire 814. When supplied, the pulsed electromagnetic field (PEMF) generated at an angle of 90 degrees to the current flow direction is in opposite directions to each other, so that the pulsed electromagnetic field (PEMF) is opposite to each other in the central part of the chamber 120 . The magnetic field of the form overlaps and disappears, so that pulsating quantum energy is generated in a zero magnetic field state, irradiating moisture in the circulating air and storage stored in the storage rack (RACK) or chamber 120, and electricity in the storage water and cell fluid It induces (generates) a quantum wave field by causing electrical polarization by giving a disturbance, and partially dissociates hydrogen bonds and covalent bonds between water dipoles to form a 'microcluster structure of subgroups, and order The high degree of coherent domain activates circulating air and storage.

In addition, the output side lead 814 of the power supply 813 of the quantum energy generator 800 is connected to one side of the upper left side of the plurality of chambers 120 , and an inert gas is spaced downward from the conductive wire 814 . The supply pipe 713 is connected, the exhaust pipe 611 is installed on one side of the upper surface, the air circulation pipe 206 is connected with the exhaust pipe 611 at intervals in the right direction, and a cover (not shown) is installed on the front side. and seal the inside with a locking device (not shown).

FIG. 5A is an elevation view of the storage chamber 120 shown in FIG. 4 .

Referring to FIG. 5 , the storage chamber 120 is a double structure of an airtight structure, and has a first quantum energy generating coil 815a having a predetermined area on the front, rear, left and right sides of the chamber 120 outside or The second quantum energy generating coil 815b is installed, respectively, and the airtight hollow part 121 is filled with an antifreeze that is filled with any one material selected from among ethylene glycol (EG), propylene glycol (PEG), and silicone oil. And, after attaching a case (not shown) or a fixing bolt (not shown) to which an interior material for oxygen removal 122 such as a magnesium (Mg) plate can be attached to the inner surface, a certain thickness and area in which the oxygen scavenger component is mixed The interior material 122 having the interior material is attached to the inner surface of the chamber 120 to be face-to-face. In the manufacturing of the interior material 122, a plurality of holes having a predetermined diameter are spaced apart from each other in a thin metal plate made of copper (CU), stainless steel (STS 304 or STS 316L), and zinc (Zn) having a predetermined thickness and a predetermined area. Metal powder for oxygen removal, such as carbon (C), aluminum (Al), manganese (Mn), magnesium (Mg), titanium (Ti), zirconium (Zr), calcium (Ca), etc. with a particle diameter of 1 to 20 μm after perforation One or more powders are selected from among the following, and after adding a fixed amount of polyvinyl alcohol (PVA), the powder is evenly stirred in the lower mold (not shown) of a heat press, for example, a thin metal plate made of copper is laid on it, and oxygen The powder for removal and polyvinyl alcohol are evenly filled to a certain depth, and a thin metal plate of stainless steel (STS304) is laminated on the filled mixed powder, and then the upper mold (not shown) of the heat press is lowered to reduce heat. After being compressed and molded at the same time as application, the board is taken out from the lower mold, and then a board for oxygen removal is manufactured by a natural cooling method and attached to the inner surface of the chamber 120 .

The purpose of the antifreeze filling layer is to equalize the temperature of the storage chamber 120, and the purpose of installing the interior material 122 for oxygen removal is oxygen in the inflow and circulating clean air and is released by deterioration from the stored material. This is to remove the oxidative stress of the stored product by adsorbing and removing oxygen, inhibiting the growth of aerobic microorganisms, inhibiting the cell growth of the stored product, preventing spoilage, and ensuring the quality of the stored product for long-term storage.

For example, in the case of storage of plants stored in the chamber 120, seedlings for hydroponic cultivation,

1) Wash ginseng seedlings 2-3 times in tap water or nitric oxide (NO) dissolved or contained water using manpower or a washer.

2) Air containing the hydroxyl ions generated in the electrochemical reaction of dissociation, excitation, ionization, oxidation, and reduction reaction of the high voltage discharge process is evenly sprayed onto the seedlings by introducing the air-constituting molecules into the high voltage generator. Disinfect (sterilize) the outer surface.

3) After immersing the washed and sterilized seedlings in an agar medium or gelatin aqueous solution having a certain viscosity (thickener), pack them in a certain amount in a wrapping paper such as Korean paper.

4) Put the growth medium in the chamber (120).

5) Close the cover (seal).

6) In the control panel 900, the air circulation system 200, the active gas supply 300, the first quantum energy generator and high voltage discharge unit 400, the cooler 500, the negative pressure maintaining unit 600, the inert gas supply unit ( 700), power is supplied to the second quantum energy generating unit 800 to perform normal operation.

Plant Storage Disease is a disease that occurs in plants in storage after harvesting. If temperature and humidity are not controlled during storage, pathogens promote propagation and cause great damage to plants in storage.

Such thickeners cause effects similar to those that occur naturally in the life of a plant.

As the plant approaches the end of the growing season, the plant will receive specific environmental signals that induce the plant to produce latex.

Environmental signals are often based on increasing resource scarcity. For example, when the length of the day is shortened, the intensity of sunlight is reduced, hydration can be reduced, or food (nutrients) for plants is insufficient. In lettuce plants, for example, the latex has a higher viscosity than water and has a very bitter taste.

Plants produce this latex to slow circulation, thus slowing down the withering process, and long enough for plants to quickly bloom seeds and flowers because of self-preservation of the species, thereby prolonging their lifespan.

Similar to natural latex, the thickener slows the rate of transpiration of the plant and thus slows the plant's water absorption from the growth medium during long storage periods in chamber 120 .

Moreover, metabolism and growth are correspondingly slowed, thus conserving nutrients.

This effective water distribution retains moisture in storage for a longer period and prevents plants from depleting life support resources after thawing. This prolongs the resilience of the plant during storage, prevents the decrease in growth ability after planting on the planting plate of the hydroponics, and prevents the decrease in yield until the final product is shipped.

Non-limiting thickeners include agar, peptide, seaweed, kelp. Select and use any one or more of plant glues such as seaweed, algae, corn starch and starch starch, and animal glues such as gelatin, collagen, and carrageenin.

The viscosity of water can be adjusted by mixing the glue with water in a specific ratio.

By increasing the viscosity, the water circulation throughout the plant is slightly blocked and slowed down. This can prevent the seedlings in storage from drying out because it slows the absorption of this moisture by the plants.

6 is a cross-sectional view showing the air circulation system of the low-temperature storage and aging room to which the quantum energy shown in FIG. 1 is irradiated.

Referring to FIG. 6 , the air circulation system includes a suction pipe 201 connected to one side of the main body 110 and a plurality of chambers 120 , a first filter housing 202 having a demister 202a built-in; Branch pipe 203, second filter housing 204 having a built-in HEPA filter 204a, suction pipe 201 and electric dampers 205a and 205b installed on branch pipe 203, circulation fan 212, Consists of a discharge pipe 206, the suction pipe 201 is installed on one side of the lower body 100, the branch pipe 203 is branched on one side of the suction pipe 201, and a HEPA filter ( 204a) a built-in second filter housing 204 and an electric damper 205b are installed, and the first filter housing 202 and electric damper 205a having a demister 202a on one side on the suction pipe 201 is installed. is installed, and the circulation FAN 212 is installed on the suction pipe at a distance from the filter housing 202, and is spaced from the circulation FAN 212 on the discharge pipe 206 of the circulation FAN 212 The active gas supply 300 is installed, the humidifier 400 is installed at intervals, and the end of the discharge pipe 206 in which the cooler 500 is installed at intervals is penetrated through one side of the upper body 110 to the main body ( 110) The interior and the plurality of chambers 120 are respectively connected to one side of the upper side or one side of the side to constitute an air circulation passage. When power is supplied to the electric damper 205b and the circulation fan 212 from the control panel 900, the storage rack installed in the main body 110, the main body 110, or the chamber 120 is stored inside. In the initial operation stage for the purpose of internal disinfection and initial disinfection and preliminary cooling of the stored material for a certain period of time before and after storage, the circulation fan 212 is operated to suck the outside air into the second filter housing 204 and a HEPA filter ( While passing through 204a), fine dust in the air is filtered and dusted, and the circulating fan 212 sucks and pressurizes the dusted air and supplies it to the activated gas generator 300. The normal operation step is installed on the branch pipe 203. The electric damper (205b) is turned off and the electric damper (205a) installed on the suction pipe (201) is opened (ON), so that the air inside the body 110 and the chamber 120 is transferred to the first by the suction force of the circulating FAN (212). While being sucked into the filter housing 202 and passing through the demister 202a installed inside, some of the water vapor contained in the air is condensed and recovered, and is sucked and pressurized by the circulation fan 212 to provide a gap between each other on the discharge pipe 206. During the process of passing through the installed active gas generator 300, humidifier 400, and cooler 500, airborne contaminants are purified, bacteria are sterilized, and additives are supplied inside the body 110 and chamber 120. The moisture contained therein is supplied to control the humidity, and the temperature and humidity inside the body 110 and chamber 120 are maintained to meet the set management goals while the air inside the body 110 and the chamber 120 is again maintained. The circulating fan 212 inhales and pressurizes to purify the polluted air and sterilize bacteria, and a series of processes of controlling temperature and humidity are continuously performed.

For the circulation fan 212, any one type is selected and used for the circulating fan (Sirocco Type), airfoil type (FAN), or turbo type, and the material is stainless steel (STS304 or STS316L) in consideration of sanitary aspects. Any one of the materials is selected and used.

The demister 202a is used by processing a fine diameter wire made of PE (Polyethylene) or stainless steel (STS304 or STS316L) into a network structure.

A plurality of branch pipes are installed in the main body 110 and chamber 120 for supply and suction of clean air, and each damper (not shown) is installed in the branch pipe to control the supplied and exhausted air volume. and each pressure sensor (not shown) installed inside the main body 110 and the chamber 120 in the control panel 900 . The temperature sensor (not shown) and the humidity sensor (not shown) measure the pressure, temperature, and humidity of the main body 110 and the chamber 120 in real time, and the FAN is circulated by a control circuit programmed in advance by the transmitted data and inputted. 212, the activated gas supplier 300, the humidifier 400, the cooler 500, and the plurality of electric dampers (not shown) by adjusting the opening rate to adjust the amount of circulated air.

7 is a cross-sectional view showing an active gas generator to which the first quantum energy of the low-temperature storage and aging chamber to which the quantum energy shown in FIG. 1 is irradiated.

Referring to FIG. 7 , the active gas generator 300 to which the first quantum energy is irradiated is a body and an outer cylinder 311 , a double cylindrical body 311 of an inner cylinder 312 , and a first quantum energy generating coil. The structure of the quantum energy generator consisting of the discharge electrode 313, the second quantum energy generator/ground electrode 314, the power supply 315, and the conducting wire 316 and the quantum energy of the common structure of the high voltage discharge structure are irradiated in a high voltage room In all, the first quantum energy generating coil and discharge electrode 313 in the shape of a solenoid is in contact with the inner circumferential surface of the outer cylinder 311 of the double cylindrical shape of the outer cylinder 311 and the inner cylinder 312 structure, both ends of which are conical in shape. A second quantum energy generating coil and ground electrode 314 is installed on the outer surface of the inner cylinder 312 at intervals and is provided with a pulsed electromagnetic field from the power supply 315 installed on the outer side of the outer cylinder 311. ; PEMF)-type power is supplied and processed into a solenoid or toroid shape, and the first quantum energy generating coil and discharge electrode 313 and the second quantum energy are generated with winding directions wound in opposite directions. Power in the form of a pulsed electromagnetic field (PEMF) generated by the high voltage generator 315 to the coil/ground electrode 314 is applied to the first quantum energy generating coil/discharging electrode 313 and the second quantum energy generating coil/grounding electrode. When applied to 314, a pulsed electromagnetic field (PEMF) type magnetic field is generated at an angle of 90 degrees to the direction of current flow. ; PEMF) type magnetic field is irradiated, overlapping each other between the discharge electrodes 313 and 314, and disappearing, generating and irradiating pulsating quantum energy in a zero magnetic field state. forming a zone, this zone formed Active gas such as hydroxyl ion (OH-radical) ion is generated by electrochemical reaction of dissociation, excitation, ionization, acidification, and reduction reaction while passing through When written, it is done as follows:

First, the dissociation reaction consists of the following steps.

1) e + O ₂ → O + O + e

2) e + N ₂ → N + N + e

3) e + O ₂ → O ^- + O

In addition, the ionization reaction consists of the following steps.

1) e + N ₂ → N + N ⁺ + 2e

2) e + N ₂ → N ₂ ⁺ + 2e

3) e + O ₂ → O + O ⁺ + 2e

4) e + O ₂ → O ₂ ⁺ + 2e

In addition, the oxidation reaction consists of the following steps.

1) e + O ₂ → O + O

2) O + NO + M → NO ₂ + M

3) O + H ₂ O → OH + OH

4) OH + NO ₂ → HNO ₃

In addition, the reduction reaction consists of the following steps.

1) e + N ₂ → e + N + N

2) N + NO → N ₂ + O

Active gases such as nitric oxide (NO), nitrogen dioxide (NO ₂ ), and hydroxyl ions (OH-radical) are generated by the oxidation reaction.

Nitric oxide (NO) generated in the above reaction is absorbed into the surface and inside of the stored material to relieve oxidative stress and activate plant cells to enable long-term storage of the stored material.

The nitric oxide (NO) produced in the above reaction loses extensibility as the muscles harden during slaughter of chickens, pigs, cattle, and livestock, and relaxes the stiff muscles. make it suitable for

Quorum Sensing (QS) is a cell-to-cell communication system that allows bacteria to control properties such as biofilm formation, bioluminescence, and virulence (Miller, et al., annu.rev, Microbiol., 2001, 55 165-169).

Bacteria communicate using chemical signaling molecules called self-inducing factors (AIs) that are continuously produced inside the bacterial cell and subsequently secreted into the cell's external environment.

When the concentration of signal molecules reaches a threshold value, these AIs return to the cell and regulate gene expression to help bacteria adapt to environmental changes. Such a control system is called a QS signal system.

QS allows unicellular bacteria to mimic multicellular organisms so that they can perform certain behaviors that they cannot perform if they were unicellular.

Quorum sensing was discovered in 1970 by Nealson et al. (K, Nealson, T. Platt, J Hasting, J. Bacteriol. 1970;104; 313-322) in the marine bacterium V, fischeri.

These researchers observed that when the bacterium reached high population concentrations, the bacterium produced bioluminescence. Further studies using V, fischeri as a model revealed that AHL was released by bacteria from the Luxl protein of V, fischeri. The released protein then binds to the LuxR protein on the bacterial surface to modify bacterial gene expression. A similar regulatory system also exists in many Gram-positive or Gram-negative bacteria.

If there is an adjustment or change in the population of these bacteria, there is a basal level of expression of the autoinducer, synthase gene, and as a result, small amounts of autoinducing signaling molecules are secreted and dispersed from the surrounding environment to the extracellular.

When the bacterial population reaches a threshold value, the autoinducing signaling molecule penetrates the cell to form a transcriptional regulatory protein-signaling molecule polymer, which can bind to the specific DNA sequence of the target gene, including the signal molecule's synthetic gene, Again, the result is the production of more signaling molecules. Such communication and transmission has been proposed in many bacteria over a long period of time.

For example, Chrobacterium violaceum has the same mechanism as V. piseri and can produce C6-HSL as a self-inducing molecule, and its receptor protein is CViR.

Quorum sensing allows bacteria to coordinate their surroundings and colony levels with their behavior through regulation of gene expression.

In particular, the activities modulated by QS in a given bacterial population include the production of antimicrobial agents, bioluminescence, regulation of nitrogen-fixing genes, conjugative delivery of Ti plasmids, expression of virulence genes, pigment production, bacterial migration, and biofilm formation. do.

Approaches that involve disrupting modulation of quorum sensing in bacteria include spraying bacterial quorum-sensing inhibitors alone or in combination with other antimicrobial agents susceptible to bacterial resistance to storage shelves or stocks stored inside chamber 120 , or It is stored in the additive storage tank (421a) and supplied to the aqueous solution storage tank (421), diluted with water, supplied to the injection nozzle (447) installed in the mixing chamber (448) at a certain concentration, and mixed with circulating air to be sprayed on the stored water. However, the difficulty of use is that some of these substances are toxic substances that can harm the human body, so it is difficult to use them directly. Alternatively, oxygen active species (ROS) such as hydroxyl (OH-), oxygen ion (O), and singlet oxygen ( ¹ O ₂ ) generated during the high-voltage discharge process perforate the biofilm of bacteria such as bacteria and internal organs It destroys the Quorum Sensing system (QSS) system by sterilizing or sterilizing it by discharging it out of the cell and damaging it, and inhibits the growth of microorganisms so that the stored goods can be stored for a long time and a constant quality can be maintained.

In addition, the power supply 315 for supplying power to the first quantum energy generating coil and discharge electrode 313 and the second quantum energy generating coil and ground electrode 314 of the quantum energy generator 300 is PWM (pulse width modulation) : Control function of current supplied by selecting one of DC-DC converter or single-phase voltage source inverter (MPCC; Model Prediction Current Control) in which the pulse width modulation method and the pulse frequency modulation PFM (pulse frequency modulation) method are mixed The built-in power supply 315 supplies power in the form of a pulsed electromagnetic field (PEMF) to the discharge electrode 313 and the ground electrode 314, and as shown in Equation 1, the strength of the magnetic field (magnetic flux density) can be adjusted.

[Equation 1]

B = 2π knI

Here, B is the strength of the magnetic field, k is the magnetic constant (K=2 x 10 ^-6 Tm/A), n is the number of coil turns, and I is the current.

In addition, the strength of the Lorentz force can be adjusted as in [Equation 2].

[Equation 2]

F = Bil

where F is the Lorentz force, I is the current, and l is the length of the coil.

A pulsed electromagnetic field (PEMF) type power source in which the current value is variously controlled from the power supply 315 with a built-in current control function and frequency modulation function is supplied with a solenoid coil-shaped discharge electrode 313 and a ground electrode 314 . Pulsed electromagnetic field (PEMF) magnetic fields in opposite directions are superimposed and extinguished at an angle of 90 degrees from the direction of current flow, and pulsating quantum energy is generated in a state of zero magnetic field, that is, pulsating quantum energy with wave properties. Dir is generated and irradiated to the activated air passing between the discharge electrode 313 and the ground electrode 314 to improve air purification and sterilization rate.

As described above, the pulsating quantum energy is irradiated, the primary bacteria are sterilized by the electrochemical reaction, and the activated air is supplied into the humidifier 400 by the pressing force of the circulation FAN 212 .

8 is a block diagram showing the configuration of the humidifier of the low-temperature storage and aging room to which the quantum energy shown in FIG. 1 is irradiated.

8, the humidifier 400 is a suction pipe 411, an electromagnetic valve 412, a ring blower 413, a discharge pipe 414 branched to one side of the discharge pipe of the high voltage discharge unit 300, An air supply 410 consisting of a venturi ejector 415 and,

An additive supply means (421e) consisting of an additive supply tank (421a), a metering pump (421b), and an additive supply pipe (421c);

Aqueous solution storage tank 421, agitator 421d, suction pipe 422, pressure pump 423, solenoid valve 424, discharge pipe 425 and branch pipe 425a, solenoid valve installed on the branch pipe ( 426) and an aqueous solution supply unit 420 consisting of,

A heater 430 comprising a ceramic heater 431, a power supply 432, and a flow path 433 in the form of a solenoid coil;

Outer cylinder 441, inner cylinder 442, first quantum energy generating coil and discharge electrode 443, first electric heater 443a, second quantum energy generating coil and ground electrode 444, second electric heater 444a ), a high voltage power supply 445, first and second power supplies for heaters 443b, 444b, a lead wire 446, and a first quantum energy generator and high voltage discharge unit 440 consisting of a spray nozzle 447. becomes,

When power is supplied to the ring blower 413 and the solenoid valve 412 from the control panel 900, the solenoid valve 412 installed in the suction pipe 411 is opened and the ring blower 413 is operated at the same time to activate the active gas generator 300 The ring blower 413 suctions and pressurizes the activated air through the suction pipe 411 branched from the discharge side of the The supply metering pump 421b is operated to select one or more of the antioxidants, ethylene biosynthesis inhibitors, ethylene action inhibitors, freezing point depressants, and moisture fluctuation inhibitors stored in the additive storage tank 421a, and is selected by the metering pump 421b. The additive stirrer is sucked and pressurized and supplied to the aqueous solution storage tank 421 through the discharge pipe 421c, and any one of distilled water without bacteria, purified water with a small number of bacteria, and ionized water is selected in advance and supplied to the stored water. It is mixed by 421d, and then the pump 423 is operated to suck and pressurize the aqueous solution mixed with the additive through the suction pipe 422 to supply the discharge pipe 425 and the discharge pipe 425 through the solenoid valve 424. ) is extended and supplied to the solenoid coil-shaped flow path 433 of the installed heating unit 430, the ceramic heater 431 installed in a space formed in a cylindrical shape outside the solenoid coil-shaped flow path is generated in the power supply 432. After heating the aqueous solution that passes through the flow path 433 in the form of heat conduction for a sufficient period of time when the thermal energy of the ceramic heater 431 is supplied with direct current or alternating current power, the aqueous solution is evaporated and phase-changed into dry steam or superheated steam. , the active gas generator 300 passing through the inside of the venturi ejector 415 supplied to the neck 415a of the venturi ejector 415 is first mixed with the component material of the vaporized additive to generate a quantum energy generator Pressurization of the ring blower 413 between the first quantum energy generating coil and ground electrode 443 and the first quantum energy generating coil and ground electrode 444 of the high voltage discharge unit 440 . pulsed electromagnetic field generated by the high voltage power supply 445 at the same time (pulsed electromagnetic field; PEMF) type power is applied to the quantum energy generating coil and discharge electrodes 443 and 444, and a pulsed electromagnetic field (PEMF) type magnetic field is superimposed at the center between the discharge electrodes 443 and 444 in opposite directions at an angle of 90 degrees to the current flow direction. Dissipated and pulsating quantum energy is generated in the zero magnetic field and irradiated to the incoming air, discharge starts and a high field electron energy band is formed between the discharge electrodes 443 and 444 at the same time. When high electric field energy is applied to the air, the water molecules of air constituents, additive substances, and vaporized water vapor are activated by electrochemical reactions of dissociation, excitation, ionization, oxidation, and reduction reactions. It induces (generates) a quantum wave field by giving electrical disturbance to the water molecules of substances, additives, and vaporized water vapor, and partially dissociates hydrogen bonds and covalent bonds between water dipoles to form 'micro The injection nozzle installed inside the chamber 448 is made to form a small group of a cluster (microcluster) structure, and to form a coherent domain with a high order by dissociating and activating some of the air constituents and additive materials. It is supplied to 447 and mixed with the air flowing into the chamber 448 and supplied to the humidifier, or through the branch pipe 425a branched from the discharge pipe 425 of the pressurized pump 423 inside the chamber 448. By supplying an aqueous solution mixed with additives to the installed injection nozzle 447 by the pressure of the pump 423, it is purified by the active gas generator 300 and injected into the air flowing into the chamber 448, and the air and the vaporized additive material The absolute moisture content (absolute humidity (Kg/Kg')) is increased by mixing It is supplied to the formed flow path.

The first quantum energy generator and high voltage discharge unit 440 has a solenoid-shaped first quantum energy generator and high voltage discharge unit 440 on the outer surface of the outer cylinder 441 that is in contact with the outer cylinder 441. 1 A quantum energy generating coil and discharge electrode 443 is installed, and a first electric heater 443a that is insulated inside the discharge electrode 443 and receives power from the first power supply 443b is inserted and installed, On the outer surface of the inner cylinder 442 installed at intervals, a second quantum energy generating coil and ground electrode 444 of a solenoid shape wound in the opposite direction to the winding direction of the first quantum energy generating coil and discharge electrode 443 is provided. The second electric heater 444a is inserted and installed, which is insulated therein and receives power from the second power supply 444b.

A high voltage generator 445 and a discharge electrode 444 for applying a high voltage to the first quantum energy generating coil and discharge electrode 443 and the second quantum energy generating coil and ground electrode 444 on one side of the outer cylinder 441 A power supply 443b for supplying power to the first electric heater 443a installed insulated therein is installed, and power is supplied to the second electric heater 444a installed insulated inside the second magnetic field generator and discharge electrode 444 A power supply (444b) for supplying is installed.

The power generated by the first and second heater power supplies 443b and 444b is turned in opposite directions inside the first quantum energy generating coil and discharge electrode 443 and the second quantum energy generating coil and ground electrode 444 . When the first electric heater 443a and the second electric heater 444a installed by winding are supplied through a wire, a magnetic field is generated at an angle of 90 degrees to the flow direction of the current, and the heating element generates heat, and the first and second electric heaters that are installed in contact with the outside 2 The quantum energy generating coil/discharge electrode 443 and the ground electrode 444 are heated, and then the high voltage generated by the high voltage generator 445 is wound in opposite directions to each other through a conducting wire, first and second in the shape of a solenoid coil. When the quantum energy generating coil/discharge electrode 443 and the ground electrode 444 are applied, a magnetic field is generated at an angle of 90 degrees to the current flow direction and discharge is started, and the first and second quantum energy generating coil/discharge electrodes 443 ) and the ground electrode 444, a high field electron energy band is formed, and a high field electron energy is applied to the clean air mixed with superheated steam passing through this band, resulting in electrochemical reactions of dissociation, excitation, ionization, oxidation, and reduction reactions. As a result of the reaction, covalent decomposition of molecules of clean air mixed with superheated steam is decomposed to remove active gases such as hydrogen ions (H ⁺ ) and hydroxyl ions (OH-radical) and bacteria contained in clean air mixed with superheated steam. Sterilize with active gas such as OH-radical ions and superheated steam and purify pollutants (ethylene gas, etc.) The generated quantum energy is irradiated to improve the discharge efficiency at the discharge electrode 443 and the ground electrode 444, and also to the heating heaters 443a and 444a having the discharge electrode 443 and the ground electrode 444 installed therein. By heating by means of heating, once again, the discharge efficiency is improved and the discharge trouble due to the inflow of moisture is prevented from occurring.

As is well known, 1 mole of water has 6 x 10 ²³ molecules, the mass is 18 g, and the volume is 18 ml. When water is heated to 100° C. or higher to vaporize into water vapor, and the vaporized water vapor is dissociated from water molecules (H ₂ O) in water vapor during high voltage discharge, 6 x 10 ²³ hydrogen cations (H ⁺ ) and hydroxyl ions (OH) ⁻ ) is generated, and the hydroxyl ions (OH ⁻ ) sterilize airborne bacteria in the circulating air and bacteria in the body 110 and chamber 120 and inside and stored, and are oxidized with pollutants such as ethylene gas. purify, Hydrogen cations (H ⁺ ) remove excess oxygen active species (ROS) such as ethylene gas and excess hydroxyl ions (OH ^- ) and oxygen ions (O) remaining in the oxidation reaction process through a reduction reaction to reduce the oxidative stress of the stored product. and inhibits the growth of aerobic microorganisms.

In addition, the oxygen active species (ROS) removal or antioxidant material stored in the additive supply tank 421a of the additive supply means 421e is reduced glutathione, 1,1,3,3-tetramethylurea, 1,1, 3,3-tetramethyl-2-thiourea, sodium thiosulfate, silver thiosulfate, betaine, N,N-dimethylformamide, N-(2-mercaptopropionyl)glycine, β-mercaptoethylamine, sele nomethionine, thiourea, propyl gallate, dimercaptopropanol, ascorbic acid, cysteine, sodium diethyl dithiocarbonate, spermine, spermidine, ferolic acid, sesamol, resorcinol, propyl gallate, cadaverine , putrescine, 1.3-diaminopropane, 1,2-diaminopropane, deoxyglucose, uric acid, salicylic acid, 3-amino-1,2,4-triazole, benzoic acid, hydroxylamine and combinations thereof and Any one of the derivatives is selected and stored in the additive supply tank 421a, or

In addition, the ethylene biosynthesis inhibitor stored in the additive supply tank 421a of the additive supply means 421e is rhizobitoxin, spermidine, n-propyl gallate, ferulic acid, sesamol, phenylethylamine, N-ethyl maleate Mead, bipyridyl, silicyl ylchol, catechol, desperioxamine, methoxyl amine, benzoic acid, salicylic acid, brassinosteroid, cadavarin, iodine acetate, amino (oxyacetic) acid, salicin, phloroglucinol , hydroxylamino analogues, sodium lauryl sulfate, spermine, benzoic acid derivative hydroquinone, butylated hydroxyanisole, cobalt chloride and its salts, nickel chloride and other salts, 1,2-diaminopropane, 1,3-diaminopropane Any one of the materials is selected and stored in the additive supply tank 421a, or

In addition, the ethylene action inhibitor stored in the additive supply tank 421a of the additive supply means 421e is silver salt, 8-hydroxyquinoline sulfate, 2,5-norbornadiene, trans-cyclooctene, cis-propenyl Phosphonic acid, methylcyclopropane, methylcyclopropane carboxylate, cyclooctidine, benzylisocyanate, 8-hydroxyquinoline citrate.N-ethoxycarbonyl-2-ethoxy-1,2-dihydroquinoline, 7 -Bromo-5-chloro-8-hydroxyquinoline, diazocyclopentadiene, 2-methoxycyclopropanecarboxylic acid, and at least one material selected from (chloromethyl)cyclopropane is added to the additive supply tank 421a. stored or

In addition, the freezing point depressant stored in the additive supply tank 421a of the additive supply means 421e is xylitol, sorbitol, maltitol, and oligosaccharide. Any one material is selected from the freezing point depressants such as nano strontianite, nano chalcedonyrite, and gift stone and stored in the supply tank 421a;

In addition, the inhibitor of the browning phenomenon stored in the additive supply tank 421a of the additive supply means 421e is ascorbic acid, citric acid, fumaric acid, maleic acid, succinic acid Acid), tartaric acid, acetic acid, carboxymethylcellulose, oxalic acid, magnesium chloride, citric acid, sodium chloride, etc. ,

In addition, the freezing point depressant stored in the additive supply tank 421a of the additive supply means 421e is any one of the freezing point depressants such as xylitol, sorbitol, maltitol, oligosaccharide, nano strontianite, nano chalcedonyrite, and gift stone. This is selected and stored in the aqueous solution storage tank 421a, or

In addition, the moisture fluctuation inhibitor stored in the additive storage tank 421a of the additive supply means 421e is a,a-trehalose, a-maltosyl, a-glucoside, a-isomaltosyl, a- Monoglucosyl such as glucoside, a,a-trehalose, a-maltoriosyl, a-glucoside (alias; a-maltosyl,a,a-trehalose), a-mal Diglucosyl such as tosyl a-maltoside, a-isomaltosyl a-maltoside, and a-isomaltosyl a-isomaltoside, a,a-trehalose, a-maltotetraosyl, a-glucoside Seed (alias; a-maltotriosyl, a,a-trehalose), a-maltosyl a-maltotrioside, triglucosyl such as a-panosyl a-maltoside, a,a-tre Halose, a-maltopentaosyl a-glucoside (alias; a-maltotetraosyl, a,a-trehalose), a-maltotriosyl a-maltotrioside, a-panosyl a- One or more substances are selected and supplied from substances such as tetraglucosyl such as maltotrioside, a,a-trehalose, and the like, and carbohydrate derivatives of a,a-trehalose with a glucose polymerization degree of 3 to 6 Any one or more or all of the additives stored in the tank 421a are selected, supplied and mixed to the aqueous solution storage tank 421 by the metering pump 421b, and sucked and pressurized by the pump 423, and heated ( After being heated in 300) and vaporized in the phase change process, it is supplied to the venturi ejector neck 415, is sprayed and mixed with the air introduced by the ring blower 413, and is mixed with the air passing through the chamber 448. The injection nozzle 447 ) after injection and secondary mixing, or by sucking and pressurizing the aqueous solution with the pump 423 and supplying it to the injection nozzle 447 installed inside the chamber 448 through the branch pipe 425a and into the chamber 448. After mixing and spraying the incoming air in a liquid phase, it is transferred to the cooler 500, and the temperature and humidity are adjusted by the control circuit programmed and input in the control panel 900 in advance, and then the main body 110 internal storage rack ( Rack) or the surface of the storage stored inside the chamber 2120.

In general, the environmental conditions such as oxygen, light, moisture, temperature, shock, vibration, compression, and microorganisms that are subjected to refrigeration storage such as fruits, vegetables, food, and pharmaceuticals are gradually deteriorated (changed). When these physical, chemical, or biological environmental conditions are unsuitable for a composition, whichever of these occurs first, other changes continue to occur.

Physicochemical factors affecting the quality deterioration of refrigerated storage objects are temperature change, drying, and moisture absorption.

Moisture imparts unique characteristics to the shape, texture, and taste of the object for refrigeration. It dissolves water-soluble components or raw materials such as sugars, acids, alkalis, salts, etc. It contributes to tissue formation and stabilization of these components, and exists in various states such as emulsifying and dispersing by forming an emulsion with a lipid.

The water in the composition is in a state called free water that maintains the properties of water in a normal aqueous solution as it is, and it does not have the ability to dissolve things that are difficult to evaporate with normally liquid water, and is a bound water that cannot be used by microorganisms. Water in a so-called state is present in a certain proportion depending on each composition or environment. And it is known that a slight change in the amount of water contained in the composition causes deterioration of properties specific to the composition, furthermore, microbial contamination and deterioration of storage properties.

In addition, the moisture in the object to be refrigerated changes depending on the environment in which it is placed, and under a constant temperature condition, it is dominated by the relative humidity of the outside air at that time, so that the composition absorbs moisture from the outside air phase or absorbs moisture from the outside air phase. The moisture content in the composition is at equilibrium with the external air phase (equilibrium moisture content). Changes in physical properties or physicochemical properties occur according to the change in moisture in these compositions, and solidification, shrinkage, cracking, Browning, dissolution, deliquescence, crystallization, precipitation, etc. progress, and deterioration of the texture, shape, taste, aroma, color, texture, etc. of flavor, inactivation of active ingredients, loss of nutrients, and quality deterioration due to microbial contamination It is known to do Therefore, suppressing the moisture fluctuation seen in these compositions is an extremely important task in terms of maintaining the quality of the composition.

The effect of moisture during food storage is to impart properties to the shape, texture, and flavor of the composition, dissolve water-soluble raw materials such as carbohydrates, acids, alkalis, and salts, or adsorb to hydrophilic colloidal substances such as starch or protein to form a gel, It contributes stably to tissue formation and these components, and exists in various states such as emulsifying and dispersing by forming an emulsion with lipids.

The water in the composition is in a state called free water that maintains the properties of water in an ordinary aqueous solution as it is, and unlike ordinary liquid water, it is difficult to evaporate, has no ability to dissolve, and is a bound water that cannot use microorganisms, etc. Water in a so-called state is present in a certain proportion depending on each composition or environment. And it is known that a slight change in the amount of water contained in the composition causes deterioration of properties specific to the composition, contamination of microorganisms, inhibition of storage properties, and the like.

Moisture fluctuation in the composition is changed by the environment it is subjected to, and under a constant temperature condition, it is governed by the relative humidity of the outside air at that time, so that the composition absorbs moisture into the outside air phase or absorbs moisture from the outside air phase and the composition. It becomes the amount of water at which the water has reached equilibrium (equilibrium water content).

Changes in physical properties or changes in physicochemical properties occur according to changes in moisture in these compositions, resulting in denaturation of proteins constituting the composition, aging of gelatinized starch, and acceleration of oxidation or decomposition of lipids, resulting in solidification, shrinkage, cracking, Browning, dissolution, deliquescence, crystallization, precipitation, etc. progress, resulting in deterioration of the texture, shape, taste, aroma, color, texture, etc., deterioration of flavor, killing of active ingredients, loss of nutrients, and deterioration of quality due to microbial contamination It is known to do Therefore, suppressing the moisture fluctuations seen in these compositions is an extremely important task in terms of maintaining the quality of the composition.

Fruits such as melons stored on the storage shelf inside the body 110 or stored inside the chamber 120, when a certain storage time elapses, in the case of melons, the vertical line changes to brown, which is called browning of the plant. Browning is a non-enzymatic browning process such as the Maillard reaction, caramelization, Oxidation of L-ascorbic acid, and polyphenol oxidase (PPO). ) by enzymatic browning. Browning in fruits is greatly affected by the type of fruit, harvest time and processing method (Bae Soo-kyung, et al., 2001). Fruits that brown easily include apples, pears, bananas, peaches, and apricots, while vegetables include potatoes, sweet potatoes, eggplant, lettuce, and broccoli.

Enzymatic browning is the result of the oxidation of polyphenol compounds such as catechin and tyrosine in cells due to tissue damage in agricultural products, resulting in theaflavin and melanin ( melanin) is a phenomenon that occurs while forming pigments such as (Kim S.I., et al., 1995; Martinez M.V., et al., 1995). Browning is known to cause nutritional loss as well as change the color and flavor of agricultural products. In an effort to prevent such browning, various additives have been used in fruits.

9 is a cross-sectional view showing the cooler of the low-temperature storage and aging room to which the quantum energy shown in FIG. 1 is irradiated.

Referring to FIG. 9 , the cooler 500 includes a compressor 511 , a condenser 512 , an expansion valve 513 , an evaporator 514 , and a conduit 515 , and is introduced into the evaporator 514 . When the refrigerant gas in the low-temperature gaseous state is adiabatically compressed by the compressor 511 and the refrigerant gas in the high-temperature and high-pressure state is supplied to the condenser 512 at its own pressure, the cooling fan 512a for the condenser 512 flows in and pressurizes external air and sprays it. The air and high-temperature and high-pressure refrigerant gas pass through the tube, and after phase conversion into high-temperature and high-pressure liquid refrigerant by convection and conduction heat exchange, it passes through the expansion valve 513 in the form of a micro-diameter capillary tube with its own pressure. - The first quantum energy generator and high-voltage discharge unit (400) by the heat of vaporization generated by the evaporation of the refrigerant due to a heat conduction phenomenon during the process of passing through the evaporator wound in the shape of a solenoid after the pressure is reduced by the Thompson effect and the temperature is reduced with a low-temperature and low-pressure refrigerant. ), the circulating air mixed with superheated steam and additives is programmed in advance, and the cooling and humidity are adjusted and stopped by the temperature and humidity set by the control circuit input to the control panel. When it exceeds or the humidity exceeds the reference value, the control operation to be started again is repeatedly performed while cooling and controlling the humidity of the circulating air to supply the main body 110 and the chamber 120 inside, and the chamber 120 inside the main body 110 ) Maintains the temperature and humidity maintenance conditions for each storage object stored inside or in a storage rack. It is best to store it at a temperature of 5-8 ℃ for nectarines and 8-10 ℃ for white peaches, and 0-4 ℃ for strawberries and 5-7 ℃ for melons for peaches that suffer from low-temperature disturbances during storage. , It is recommended to store melons at 2-5 ℃, and 10-12 ℃ is most suitable for items sensitive to low temperature such as eggplant and cucumber. For root vegetables, store radish, garlic, onion, and carrot at 0 °C, potatoes at 4-8 °C, sweet potatoes at 13-15 °C, and leafy vegetables such as cabbage, lettuce, and spinach at around 0 °C. % should be managed.

Ethylene, a plant aging hormone, promotes aging and decay during storage, so avoid storing sensitive items with items that produce a lot of ethylene. Items sensitive to ethylene are cucumber, watermelon, lettuce, carrot, and broccoli, and the most produced items are apples, melons, and peaches (source: Rural Development Administration).

In general, the environmental conditions such as oxygen, light, moisture, temperature, shock, vibration, compression, and microorganisms that are subjected to refrigeration storage such as fruits, vegetables, food, and pharmaceuticals are gradually deteriorated (changed). When these physical, chemical, or biological environmental conditions are unsuitable for a composition, whichever of these occurs first, other changes continue to occur.

Physicochemical factors affecting the quality deterioration of refrigerated storage objects are temperature change, drying, and moisture absorption.

Moisture imparts unique characteristics to the shape, texture, and taste of the object for refrigeration. It dissolves water-soluble components or raw materials such as sugars, acids, alkalis, salts, etc. It contributes to tissue formation and stabilization of these components, and exists in various states such as emulsifying and dispersing by forming an emulsion with a lipid.

The water in the composition is in a state called free water that maintains the properties of water in an ordinary aqueous solution as it is, and unlike water that is usually liquid, it does not evaporate well, does not have the ability to dissolve (solvent), and does well even at the freezing point. Water in a state called bound water (or hydration water) that is not frozen and cannot be used by microorganisms, etc., is present in a certain proportion depending on each composition or environment. And it is known that a slight change in the amount of water contained in the composition causes deterioration of properties specific to the composition, furthermore, microbial contamination and deterioration of storage properties.

In addition, the moisture in the object to be refrigerated changes depending on the environment in which it is placed, and under a constant temperature condition, it is dominated by the relative humidity of the outside air at that time, so that the composition absorbs moisture from the outside air phase or absorbs moisture from the outside air phase. The moisture content in the composition is equal to the moisture content in the composition with the outside air phase (equilibrium moisture content). Changes in physical properties or physicochemical properties occur according to the change in moisture in such a composition, and solidification, shrinkage, cracking, Browning, dissolution, deliquescence, crystallization, precipitation, etc. progress, resulting in deterioration of the texture, shape, taste, aroma, color, texture, etc., deterioration of flavor, inactivation of active ingredients, loss of nutrients, and deterioration of quality due to microbial contamination It is known to do Therefore, suppressing the moisture fluctuations seen in these compositions is an extremely important task in terms of maintaining the quality of the composition.

The effect of moisture during food storage is to impart properties to the shape, texture, and flavor of the composition, dissolve water-soluble raw materials such as carbohydrates, acids, alkalis, and salts, or adsorb to hydrophilic colloidal substances such as starch or protein to form a gel, It contributes stably to tissue formation and these components, and exists in various states such as emulsifying and dispersing by forming an emulsion with lipids.

Moisture fluctuation in a composition is changed by the environment it is subjected to, and under a constant temperature condition, it is governed by the relative humidity of the outside air at that time, so that the composition absorbs moisture from the outside air phase or absorbs moisture from the outside air phase and the composition. It becomes the amount of water at which the water has reached equilibrium (equilibrium water content).

Changes in physical properties or changes in physicochemical properties occur according to changes in moisture in these compositions, resulting in denaturation of proteins constituting the composition, aging of gelatinized starch, and acceleration of oxidation or decomposition of lipids, resulting in solidification, shrinkage, cracking, Browning, dissolution, deliquescence, crystallization, precipitation, etc. progress, resulting in deterioration of the texture, shape, taste, aroma, color, texture, etc., deterioration of flavor, killing of active ingredients, loss of nutrients, and deterioration of quality due to microbial contamination It is known to do Therefore, suppressing the moisture fluctuations seen in these compositions is an extremely important task in terms of maintaining the quality of the composition.

browning of plants

Browning includes non-enzymatic browning such as Maillard reaction, caramelization, Oxidation of L-ascorbic acid, and polyphenol oxidase (PPO). ) by enzymatic browning. Browning in fruits is greatly affected by the type of fruit, harvest time and processing method (Bae Soo-kyung, et al., 2001). Fruits that brown easily include apples, pears, bananas, peaches, and apricots, while vegetables include potatoes, sweet potatoes, eggplant, lettuce, and broccoli.

Enzymatic browning is the result of the oxidation of polyphenol compounds such as catechin and tyrosine in cells due to tissue damage in agricultural products, resulting in theaflavin and melanin ( melanin) is a phenomenon that occurs while forming pigments such as (Kim S.I., et al., 1995; Martinez M.V., et al., 1995). Browning is known to cause nutritional loss as well as change the color and flavor of agricultural products. In an effort to prevent such browning, various additives have been used in fruits.

The browning means that when fruits or vegetables are exposed to air, polyphenol compounds such as catechin and tyrosine present in cells are oxidized by the action of polyphenol oxidase to produce theaflavin and melanin. This is a phenomenon that occurs when pigments such as melanin are formed.

10 is a cross-sectional view showing the decompression unit 600 of the low-temperature storage and aging chamber to which the quantum energy shown in FIG. 1 is irradiated.

Referring to FIG. 10, the decompression unit 600 includes a suction pipe 611 connected to the body interior 110 and the chamber 120, electric dampers 611a, 611b, 611c, a vacuum pump 612, and a discharge pipe ( 613), solenoid valve 613a, and a vacuum degree measuring sensor (not shown), the hydroxyl ions (OH ^- ) generated in the active gas generator 300 by the circulation FAN 212 of the circulation system 200 The contained air is humidified in the humidifying unit 400 to which the first quantum energy is irradiated, and the temperature and humidity are controlled in the cooler 500, and supplied to the inside of the body 110 and the chamber 120 to sterilize, After repeating a series of processes of controlling temperature and controlling humidity for a certain period of time, after stopping the air circulation sterilization, cooling, and humidity control processes, the opening and closing of the electric damper 611a connected to the main body 110 and After opening the electric dampers 611b and 611c connected to the chamber 120 and opening the solenoid valve 613a installed in the discharge side pipe 613, the vacuum level measurement sensor (not shown) is measured in real time and transmitted to the control panel 900 When power is supplied to the vacuum pump 612 from the control panel 900 by a control circuit programmed in advance and input by the data, or by manpower by an operator, the air inside the chamber 120 is sucked and pressurized to the electromagnetic valve. is opened and discharged to the atmosphere through the discharge pipe 613 to maintain the pressure in the main body 110 and the chamber 120 in the range of 20 mm Hg to 550 mm Hg and the decompression state for a certain period of time.

This series of exhaust processes is performed every predetermined time (eg, 10 minutes at 3 hours, 10 minutes at 6 hours, 10 minutes at 12 hours, 10 minutes per day) by a control circuit that is programmed and input in the control panel in advance.

11 is a cross-sectional view illustrating an inert gas supply unit of the low-temperature storage and aging chamber to which the quantum energy shown in FIG. 1 is irradiated.

Referring to FIG. 11 , the inert gas supply unit 700 includes a container 711a filled with nitrogen (N ₂ ) gas at a high pressure (120 kg/cm 2 ), a pressure and flow regulator 711b, and a solenoid valve 711c. Nitrogen (N ₂ ) consisting of a gas supply 711 and,

Alternatively, an argon (Ar) gas supply 712 comprising a vessel (bombe) 712a, a pressure and flow regulator 712b, and a solenoid valve 712c filled with argon (Ar) gas high pressure (120 kg/cm2) and an argon (Ar) gas supply 712,

Hydrogen (H 2 ) consisting of a vessel (bombe) (713a), a pressure and flow regulator (713b), a solenoid valve (713c) filled with hydrogen (H ₂ ) gas high pressure (120 kg/cm2) and a hydrogen (H ₂ ) gas supply (713) and ,

Carbon dioxide (CO ₂ ) consisting of a container (bombe) 714a, a pressure and flow regulator (714b), and a solenoid valve (714c) filled with carbon dioxide (CO ₂ ) gas high pressure (120 kg/cm2) A gas supplier 714 is ,

The solenoid valve 715 is installed on one side of the left side of the main supply pipe installed, and one side of the right side penetrates the body 110 and is installed to extend downward by a certain length from the inside. Among the extended pipes, a plurality of flexible (Flexible type) A plurality of branch pipes of the shape are installed, solenoid valves 716a and 716b are installed on each branch pipe, and the other end of the solenoid valves 716a and 716b is respectively connected to the plurality of chambers 120 and installed to extend. The solenoid valve 716c is also installed at the end of the pipe, and the other end of the solenoid valve 716c is not connected to any device and is located in the internal space of the body.

In addition, an internal pressure detection sensor 721 and a pressure gauge (not shown) are installed on one or both sides of the upper surface of the main body 110 . A nitrogen (N ₂ ) gas supply and argon (Ar) inside the body 110 and the plurality of chambers 120 decompressed to a vacuum degree of 20 mm Hg to 550 mm Hg by the vacuum pump 612 of the decompression unit 600 . A gas or hydrogen (H ₂ ) gas supply or a carbon dioxide (CO ₂ ) gas supply by adjusting the pressure and flow regulator (711b or 712b, 713b or 714b) of the gas supply selected from the gas supply to control the amount of supplied gas and solenoid valve (711c, 712c, 713c, and 714c) are opened, and then the solenoid valve 715a on the main supply pipe is opened, and then the solenoid valve 716c installed in the main body inside the body 110 and the solenoid valve 716a, 716b installed in the branch pipe are closed. By opening and supplying inert gas to the inside of the body 110 and the plurality of chambers 120, respectively, the inside pressure of the inside of the body 110 and the inside of the plurality of chambers 120 is maintained in a positive pressure range of 5 to 250 Pa, so that external air (especially oxygen) is maintained. (O ₂ )) to block the inflow and adjust the oxygen concentration inside the main body 110 and the plurality of chambers 120 to 0 to 3% to create an anaerobic environment inside the chamber 120 to inactivate the While suppressing the growth of mold, aerobic, and anaerobic bacteria, it relieves the oxidative stress of storage stored in a storage rack or chamber. Data measured by the internal pressure detection sensor 721 is transmitted to the control panel 900 in real time. The pressure and flow control valve (711b or 712b, 713b or 714b) of the inert gas supply to be transmitted and used by the control circuit selected by the control circuit in the control panel 900 and the solenoid valve (716c) installed in the main pipe and the solenoid valve (716c) installed in the branch pipe ( 716a and 716b are repeatedly closed and opened to maintain a constant pressure inside the body 110 and the chamber 120 .

The purpose of supplying the hydrogen (H ₂ ) gas is to reduce oxygen active species (ROS) such as hydroxyl ions (OH-) and oxygen ions (O) in the interior of the body 110 and the plurality of chambers 120 . supplied to remove it.

In this series of inert gas supply process, after the exhaust process is performed, the exhaust system is completely stopped, and immediately after the exhaust process is performed, the inert gas is supplied to the inside of the main body 110 and the chamber 120 by the control circuit programmed and input in the control panel in advance. After releasing the vacuum state by supplying it to the air conditioner and maintaining it for a time ranging from 10 minutes to 30 minutes, the inert gas supply process is stopped and then the pressure reduction process shown in FIG. 10 is performed to exhaust the inert gas inside the body and the chamber to the outside. After stopping the decompression process, the electric valve 205 installed in the suction pipe 201 of the air circulation system is closed (off), and the electric valve 205b of the branch pipe 203 is opened to circulate external air to the circulation fan 212 ) by suction and pressurization to purify the contaminated air in the high voltage discharge unit 300, the humidifier 400 and the cooling unit 500, and a series of processes such as sterilization of bacteria in the air, supply of additives, and humidity control are performed. to open the electric valve 205 installed in the suction pipe 201 and close the electric valve 205b of the branch pipe 203 while releasing the vacuum inside the main body and the chamber 120, normal operation or inactive In a state in which the vacuum state is released by supplying gas to the inside of the body 110 and the inside of the chamber 120, the vacuum pump 612 of the exhaust part is operated to operate 0 to 50 of the total inert gas supplied to the inside of the body and the chamber 1200. After exhausting only the amount within the % range and opening the electric valve 205b of the branch pipe 203 to supply external air only as much as the amount of exhaust, the electric valve 205b is closed (off) and the electric valve 205a of the suction pipe 201 is opened. to operate in an anaerobic or low-oxygen atmosphere

12 is a cross-sectional view illustrating a pulsating quantum energy generator in a low-temperature storage and aging chamber to which the quantum energy shown in FIG. 1 is irradiated.

Referring to FIG. 12 , the pulsating quantum energy generator 800 is

It consists of a power supply 810 for generating power in the form of a pulsed electromagnetic field (PEMF), a first quantum energy generating coil 815a, and a second quantum energy generating coil 815b.

The power supply 810 for generating power in the form of a pulsed electromagnetic field (PEMF) includes a step-down transformer 811 , a rectifier circuit 812 , an input module 813a , an operation module 813b , and a PWM (pulse width). Modulation: Pulse width modulation) control method and pulse frequency modulation PFM (pulse frequency modulation), pulse frequency (density) control (PDM), pulse repetition rate control (PRR) control module (813c) consisting of a built-in control module (813c) , is composed of a current detection sensor 814, and when single-phase 220V, 60Hz AC power is supplied to the step-down transformer 811, the single-phase 6 to 50V range in the step-down transformer 811 is reduced with an AC power of 60Hz and a rectifier circuit ( 812) to a single-phase 6 to 50V DC power supply.

The input module 813a of the control unit 813 is a step-by-step voltage value (V) of the DC power supplied to the first and second quantum energy generating coils 815a and 815b, that is, the first and second quantum energy generating coils. Minimum (mA) and maximum (A) of variable current flowing through (815a, 815b), minimum (mT) and maximum value (T) of variable magnetic field, power supply time for each step (seconds to minutes, or minutes to hours), etc. of the supplied current value, voltage value, pulse width, pulse density, pulse period, frequency burst length, main power supply time and stop time (timer function), switching device function, etc. can be saved in the internal program. sets each of the parameters to the monitor (not shown) of the input module 123a, for example, among the steps divided by 1 to 10 steps, and then inputs the data of the selected step.

The operation module 813b executes an operation program on a plurality of variables input by the user to the input module 813a to generate a first quantum energy generating coil 815a and a second quantum energy generating coil for generating variable quantum energy. In operation 815b, an amount of current corresponding to the magnetic field strength to be generated is calculated, and corresponding data may be generated in advance to generate a current value in a form of one-to-one matching between the magnetic field strength value and the current value. For example, when the magnetic field strength value is between 1-10, data for a current value between 1 and 10 is generated, and when the magnetic field strength value is 1, a pulse having a current value corresponding to 1 (Pulsed electromagnetic field; PEMF) type power is generated and supplied to the first quantum energy generating coil 815a and the second quantum energy generating coil 815b.

The first quantum energy generating coil 815a and the second quantum energy generating coil 815b for generating quantum energy are a solenoid coil type, a Toroid coil type, and a Helmholtz coil deformed in a disk shape. Coil) type, one or more shapes are selected from the rod shape, and the deformed Solenoid Coil type, Toroid Coil type, and Helmholtz Coil type are inside the body 110 4 The first quantum energy is generated on the outer surface of the chamber 120 facing each other and installed on the four outer surfaces of the chamber 120 and facing the inner surface of the main body and the outer surface of the adjacent chamber 120 at a distance from the outer surface of the chamber 120 The coil 815a and the second quantum energy generating coil 815b are installed so that the winding direction is opposite to the first quantum energy generating coil to generate a pulsed electromagnetic field (PEMF) type power generated by the power supply 810 . When supplied to the (815a) and the second quantum energy generating coil (815b), a magnetic field in the form of a pulsed electromagnetic field (PEMF) in opposite directions generated at an angle of 90 degrees to the flow direction of the current is generated, and the body 110 A chamber (120) that overlaps and disappears at the center of distance of the outer surface of the chamber 120 facing one inner surface, and pulsating quantum energy generated in a zero magnetic field state, i.e. no magnetic field, is irradiated into the space, and is installed at a distance from each other ( The first quantum energy generating coil 815a or the second quantum energy generating coil 815b installed on the outer surface of the other chamber facing the outer surface of 120) is generated in the power supply 810 by installing the winding direction in the opposite direction. When power in the form of a pulsed electromagnetic field (PEMF) is supplied, a magnetic field in the form of a pulsed electromagnetic field (PEMF) in opposite directions is generated at an angle of 90 degrees to the direction of current flow. At the center of the space between this chamber 120 and the other adjacent chambers 120, the magnetic field overlaps and disappears, and the pulsating quantum energy generated in the zero magnetic field state, ie, no magnetic field state, is irradiated into the space.

In addition, by making the winding directions of the first quantum energy generating coil 815a or the second quantum energy generating coil 815b installed on the front and rear surfaces and the left and right sides of the chamber 120 opposite to each other, the power supply ( When power in the form of a pulsed electromagnetic field (PEMF) generated in 810) is supplied to the first quantum energy generating coil 815a and the second quantum energy generating coil 815b), it is generated at an angle of 90 degrees in the direction of current flow. , magnetic fields irradiated in the form of a pulsed electromagnetic field (PEMF) in opposite directions for each coil 815a and 815b overlap each other in the inner center of the chamber 120 and disappear, and are generated in a zero magnetic field state, that is, in a no magnetic field state. The resulting pulsating quantum energy is also irradiated to the inner space of the chamber 120 .

In addition, when the chamber 120 is not installed in the interior of the main body 110, and only a storage rack is installed, each corner or front, rear, and both sides of the main body 110 has a certain diameter and a certain diameter on one side. A bar-type first quantum energy generating coil 815a or a second quantum energy generating coil 815b of a height bar type, in which the winding directions of adjacent or facing quantum energy generating coils are wound in opposite directions, respectively, are installed, When the power supply in the form of a pulsed electromagnetic field (PEMF) generated by the supply 810 is supplied, a magnetic field in the form of a pulsed electromagnetic field (PEMF) opposite to each other is generated at an angle of 90 degrees to the flow direction of the current, so that the inside of the main body In the central portion of 110, that is, in the portion where the storage rack is installed, magnetic fields in opposite directions overlap each other and disappear, and the pulsating quantum energy generated in the zero magnetic field state, that is, no magnetic field state, is irradiated into the space.

During this series of processes, the current values in the first quantum energy generating coil 815a and the second quantum energy generating coil 815b are obtained from the current detection sensor installed on the lead-in line of the quantum energy generating coils 815a and 815b. When the current value flowing through the quantum energy generating coils 815a and 815b is detected in real time and fed back to the calculation unit, the calculation unit 813b calculates for each variable input from the input unit 813a and sets the current value and the detection sensor 814. As a result of comparing and analyzing the transmitted current value, when the lower and upper limit values of the set current value are deviating, the difference value (Gab) is analyzed and re-calculated to fit the lower limit value and the upper limit value, and then the corrected current value is transferred to the current control module (813c) The current control module 813c that has transmitted and received the corrected current value supplies DC power to the first quantum energy generating coil 815a and the second quantum energy generating coil 815b to suit the corrected current value, and the chamber A magnetic field and pulsating quantum energy in the form of a pulsed electromagnetic field (PEMF) are irradiated to the storage object stored in 120 .

13 is a configuration diagram showing a control panel of the low-temperature storage and aging room to which the quantum energy shown in FIG. 1 is irradiated.

Referring to FIG. 13 , the control panel 900 includes an air circulation system 200 , an active gas generator 300 , a humidifier 400 , a cooler 500 , a decompression unit 600 , and an inert gas supply unit 700 . , and controls such as supplying and blocking power to the pulsating quantum energy irradiation unit 800 .

Although preferred embodiments of the present invention have been described in detail above, the present invention is not limited to the specific preferred embodiments described above, and the technical field to which the present invention belongs without departing from the gist of the present invention as claimed in the following claims Anyone with ordinary skill in the art can make various modifications, of course, and such changes are within the scope of the claims.

100: body
110: inside the main body 111: internal agent for oxygen removal
112: storage shelf (RACK) 120: chamber
121: hollow part 122: interior material for oxygen removal
200: active gas supplier
201: suction pipe 202: first filter housing
202a: Demister 203: Branch
204: second filter housing 204a: HEPA filter
205a: electric damper 205b: electric damper
206: discharge pipe 212: circulation fan
300: activated gas generator
311: body and outer cylinder 312: inner cylinder
313: first quantum energy generating coil and discharge electrode
314: second quantum energy generating coil and ground electrode
315: power supply 316: lead wire
400: humidifier
410: air supply 411: suction pipe
412: solenoid valve 413: ring blower
414: discharge pipe 415: venturi ejector
415a: venturi ejector neck 420: aqueous solution supply
421a: additive storage tank 421b: metering pump
421c: supply pipe 421d: agitator
421e: additive supply means 421: aqueous solution storage tank
422: suction pipe 423: pressure pump
424: solenoid valve 425: discharge pipe
426: solenoid valve 430: heating unit
431: ceramic heater 432: power supply
433: flow path 440: first quantum energy generator and high voltage discharge unit
441: outer cylinder 442: inner cylinder
443: first quantum energy generating coil and discharge electrode 443a: first electric heater
444: second quantum energy generating coil and ground electrode 444a: second electric heater
445: power supply 446: lead wire
500: cooler
511: compressor 512: condenser
512a: cooling fan 513: expansion valve
514: evaporator 515: conduit
600: decompression unit
611: exhaust pipe 611a: electric damper
611b: electric damper 612: vacuum pump
613: discharge pipe 613a: solenoid valve
700: inert gas supply unit
711: nitrogen gas supply 711a: nitrogen filling container
711b: pressure and flow regulator 711c: solenoid valve
712: argon gas supply 712a: argon filling container
712b: pressure and flow regulator 712c: solenoid valve
713: hydrogen gas supply 713a: hydrogen gas filling container
713b: pressure and flow regulator 713c: solenoid valve
714: carbon dioxide gas supplier 714a: carbon dioxide filling container
714b: pressure and flow regulator 714c: solenoid valve
715: solenoid valve of main body 716c: main solenoid valve inside main body
716a, 716b: Solenoid valve of branch tube inside main body
800: quantum energy generator
811: step-down transformer 812: rectifier circuit
813: control unit 813a: input module
813b: operation module 813c: control module
814: current detection sensor 815a: first quantum energy generating coil
815b: second quantum energy generating coil
900: control panel

Claims (18)

It has a rectangular or cube shape, and the structure of each bulkhead is a triple structure type of the outer surface, insulation or insulation material, and the inner surface is made of stainless steel (STS304), glass fiber molded foam (FRP), or carbon steel. Any one material is selected and used, and the first quantum energy generating coil 815a or the second quantum energy generating coil of the pulsating quantum energy generator 800 of a certain area is spaced apart from each other on the left and right sides of the inner left and right sides of the wall. A plurality of 815b is installed, and a plurality of second quantum energy generating coils 815b or first quantum energy generating coils 815a are installed on the walls of the front and right sides at a distance from each other, up and down, left and right inside the body Between the first quantum energy generating coil 815a or the second quantum energy generating coil 815b installed at intervals in the And an interior material 111 having an area is attached and installed, and the first and second quantum energy generating coils 815a and 815b of the pulsating quantum energy generator 800 are spaced apart from the inner surface of the body at the same height and position of the installation position. A plurality of chambers 120 are installed to face each other, and the first and second quantum energy generating coils 815a of the pulsating quantum energy generator 800 are located on four surfaces of the outer front, rear, left and right sides of the chamber 120, 815b) is installed, the hollow part is filled with antifreeze, and an interior material 111 having a certain thickness and area in which oxygen and an oxygen scavenger component that removes oxygen and oxygen active species (ROS) are supported is installed inside, and food or plants are installed therein. Vegetables, meat, pharmaceuticals, and cosmetics are stored, a supply pipe 713 of the inert gas supply unit 700 is installed on one side of the lower left side, and a lead wire 814 on the output side of the time-varying pulsation quantum energy generator 800 is installed on one side of the upper side. installed, an air intake pipe 201 connected to the filter housing 202 of the air circulation system 200 is installed on one side of the lower right side, and a discharge pipe 206 is installed on one upper side, and the pressure is reduced at intervals to the left. Part (6) 00) the body 100 in which the suction pipe 611 is installed; and,
The first filter housing 202, the branch pipe 203, and the HEPA filter 204a are built in. It consists of a second filter housing 204, electric dampers 205a, 205b, a circulation fan 212, and a discharge pipe 206, and the suction pipe 201 is installed on one side of the lower body 100, and the branch pipe 203 is branched on one side of the suction pipe 201, the second filter housing 204 and the electric damper 205b having the HEPA filter 204a built-in on the branch pipe 203 are installed, and the suction pipe 201 The first filter housing 202 and the electric damper 205a having a built-in demister 202a on one side are installed, the circulation fan 212 is installed at an interval, and the circulation fan 212 is installed on the discharge pipe 206. ) and the active gas supplier 300 is installed at a distance, the humidifier 400 is installed at an interval, and the end of the discharge pipe 206 in which the cooler 500 is installed at an interval is the main body 110 upper side is installed in the air circulation flow path, and when power is supplied to the electric damper 205b and the circulation fan 212 from the control panel 900, a storage shelf (RACK) installed in the body interior 110 or the chamber 120 inside In the initial operation stage for the purpose of internal disinfection and initial disinfection and preliminary cooling of the stored material for a certain period of time before and after the stored material is stored in the refrigerator, the circulation FAN 212 operates to suck the outside air into the second filter housing 204. And fine dust in the air is filtered and dusted while passing through the HEPA filter 204a, and the circulating fan 212 sucks and pressurizes the dusted air and supplies it to the activated gas generator 300, and the normal operation step is a branch pipe ( 203) is turned off and the electric damper 205a installed on the suction pipe 201 is opened (ON) so that the air inside the body 110 and the chamber 120 is circulated FAN 212 The water vapor contained in the air is sucked into the first filter housing 202 by the suction force of As part of the air is condensed and recovered, it is sucked and pressurized by the circulation fan 212, and passes through the active gas generator 300, the humidifier 400, and the cooler 500 installed on the discharge pipe 206 at a distance from each other to the inside of the body. Contaminants in the air are purified inside the 110 and chamber 120, bacteria are sterilized, additives are supplied and moisture is supplied, and the temperature and humidity inside the body 110 and the chamber 120 are set management The air circulation system 200 in which the circulating fan 212 sucks and pressurizes the air inside the body 110 and the chamber 120 again to suit the target; and
It consists of an outer cylinder 311, an inner cylinder 312, a first quantum energy generating coil and a discharge electrode 313, a second quantum energy generating coil and a ground electrode 314, a power supply 315, and a wire 316. A first quantum energy generating coil and discharge in a solenoid shape or toroid shape by interviewing on the inner circumferential surface of the double cylindrical outer cylinder 311 having a conical end surface and an outer cylinder 311 and inner cylinder 312 structure The electrode 313 is installed, and a predetermined number of turns are wound on the outer circumferential surface of the inner cylinder 312 at an interval in the opposite direction to the winding direction of the first quantum energy generating coil and discharge electrode 313 in a solenoid shape or toroid ( toroid)-shaped second quantum energy generating coil and ground electrode 314 is installed, and a pulsed electromagnetic field (PEMF) type power source generated by the power supply 315 installed on one side of the outer cylinder 311 is conducted. When supplied to the first quantum energy generating coil/discharge electrode 313 and the second quantum energy generating coil/ground electrode 314 through 316, a pulsed electromagnetic field (PEMF) is generated at an angle of 90 degrees to the current flow direction. A magnetic field is generated in the form of a pulsed electromagnetic field (PEMF) between the first and second quantum energy generating coils and discharge electrodes 313 and 314 because the winding directions are opposite to each other. As pulsating quantum energy is generated and irradiated in the zero magnetic field, a discharge is initiated between the first and second quantum energy generating coils and discharge electrodes 313 and 314 to form a high field electron energy band, and air circulation in the formed band When clean air is supplied by the pressing force of the circulation FAN 212 of the system 200, high field electron energy is applied to the air passing through, and the covalent bonds of the air constituent molecules (O ₂ , N ₂ , H ₂ O) are dissociated, Here, active gas of hydroxyl ion (OH-radical) ion is generated by electrochemical reaction of ionization, oxidation, and reduction reaction The generated hydroxyl ions (OH-radical) ions are removed through oxidation and reduction reactions with polluting (ethylene) substances, and sterilization and quorum sensing system between bacteria, bacteria and viruses ( Activated gas generator 300 to destroy Quorum Sensing SYSTEM: QSS; And,
An active air supply unit 410 comprising a suction pipe 411, a solenoid valve 412, a ring blower 413, a discharge pipe 413, and a venturi ejector 414;
Additive supply tank 421a, metering pump 421b, supply pipe 421c, solenoid valve 421d, aqueous solution storage tank 421, suction pipe 422, pressurization pump 423, solenoid valve 424, discharge An aqueous solution supply unit 420 composed of a pipe 425, a branch pipe 425a, and a solenoid valve 426 installed on the branch pipe;
A heater 430 comprising a ceramic heater 431, a power supply 432, and a solenoid-shaped flow path 433;
Outer cylinder 441, inner cylinder 442, first quantum energy generating coil and discharge electrode 443, first electric heater 443a, second quantum energy generating coil and ground electrode 444, second electric heater 444a ), a power supply 445, first and second power supplies for heaters 443b, 444b, and a first quantum energy generator and high voltage discharge unit 440 consisting of a wire 446, and in the control panel 900 When power is sequentially supplied to the solenoid valve 412, the ring blower 413, the pressure pump 423, the power supply 432, the power supplies 443b, 444b, and the power supply 445, first, the branch pipe 411 ) is opened and the ring blower 413 is operated to suction and pressurize the purified air through the branch pipe 411 branched from the discharge side of the activated gas generator 300 to the venturi ejector 415 ) and at the same time being stored in the additive storage tank 421a, any one or more additives or oxygen activity Species remover (antioxidant), ethylene biosynthesis inhibitor, ethylene action inhibitor, freezing point depressant, moisture fluctuation inhibitor, and browning inhibitor are all inhaled and pressurized in an appropriate amount by the metering pump 421b, and the aqueous solution storage tank 421 through the pipe 421c. The branch branched from the discharge pipe 425 by supplying it to and diluting it with a stirrer 421d, and then suctioning and pressurizing the aqueous solution stored in the aqueous solution storage tank 421 through the suction pipe 422 by operating the pressurizing pump 423. It is supplied to the injection nozzle 447 installed inside the chamber 448 through the pipe 425 and is purified by the activated gas generator 300 and injected into the air flowing into the chamber 448, or to the discharge pipe 425. While supplying to the solenoid-shaped flow path 433 of the heater 430 through the installed solenoid valve 424, at the same time, the power supply 432 to the rod-shaped ceramic heater 431 installed in surface contact with the inside of the solenoid-shaped flow path 433. ) by supplying power from Heating the flow path 433 by heat of the heater in a heat conduction type, and at the same time heating an aqueous solution containing an additive flowing in the heated flow path in a heat conduction type to change the state to wet steam, and further heating to dry steam or superheated steam While supplying to the neck 415a of the venturi ejector 415, the dry steam or superheated steam is supplied to the clean air that is sucked and pressurized by the ring blower 412 and flows into the venturi ejector 415 and mixed with the clean air. The first quantum energy is supplied to the flow path formed between the outer cylinder 441 and the inner cylinder 442 of the first quantum energy generator and high voltage discharge unit 440 while being wound around the outer cylinder 441 and the inner cylinder 442 in opposite directions. When the power generated by the power supplies 443b and 444b is supplied to the heating elements 443a and 444a installed insulated inside the generating coil and discharge electrode 443 and the second quantum energy generating coil and ground electrode 444, the heating element ( 443a and 444a are heated to heat the first and second quantum energy generating coils and discharge electrodes 443 and 444 in the form of heat conduction. When supplied to the generating coil and discharge electrode (443, 444), a pulse (pulsed electromagnetic field; PEMF) type magnetic field is generated, and since the winding directions are opposite to each other, a pulsed electromagnetic field (PEMF) type magnetic field overlaps with each other between the first and second quantum energy generating coils and discharge electrodes 443 and 444 and disappears. As pulsating quantum energy is generated and irradiated in a zero magnetic field state, discharge starts between the first and second quantum energy generating coils and discharge electrodes 443 and 444, forming a high-field electron energy band, and purified air and additives in this band As the mixed air heated by mixing superheated steam containing the material passes through the high field electron energy band formed between the first and second quantum energy generating coils and discharge electrodes 443 and 444, high field electron energy is applied to the additive material. This is activated and the active gas of hydrogen ion (H ⁺ ) and hydroxyl ion (OH-radical) is generated by the electrochemical reaction of dissociation, excitation, ionization, oxidation, and reduction reaction of water molecules in dry steam, and the generated active gas The first quantum energy generator and supply to the cooler 500 by spraying the clean air flowing in from the activated gas supply 300 through the injection nozzle 447 installed inside the chamber 448 with the pressing force of the ring blower 413 and humidifier 400; and
Consisting of a compressor 511, a condenser 512, an expansion valve 513, an evaporator 514, and a conduit 515, the refrigerant gas in a low-temperature gaseous state flowing into the evaporator 514 is adiabatically compressed by the compressor 511. When the refrigerant gas in a high-temperature and high-pressure state is supplied to the condenser 512 at its own pressure, external air is introduced and pressurized by the cooling fan 512a for the condenser 512, and the injected air and the high-temperature and high-pressure refrigerant gas pass through the condenser inner tube. In the process, the phase is converted into a high-temperature and high-pressure liquid refrigerant by heat exchange of convection and conduction methods, and then it is decompressed by the Joule-Thompson effect in the process of passing through the expansion valve 513 in the form of a micro-diameter capillary tube with its own pressure, resulting in a low-temperature, low-pressure refrigerant. Pre-programmed by cooling the mixed air transferred to the first quantum energy generator and high voltage discharge unit 400 by the heat of vaporization generated while the refrigerant evaporates due to heat conduction during the process of passing through the evaporator wound in the shape of a solenoid coil after the temperature is reduced and the pressure is reduced. In the process of cooling and mixing air to a temperature set by the control circuit input to the control panel 900, the dry steam of the aqueous solution contained in the mixed air is cooled to below the dew point, and the humidity inside the body 110 and the chamber 120 While supplying the inside of the main body 110 and the chamber 120 by controlling the humid air state for adjustment, it stops when the set temperature and set humidity input in the control circuit of the control panel 900 are reached in advance, and circulates after a certain time has elapsed. When the temperature of the air to be used exceeds the set temperature or the humidity exceeds the reference value, the control operation to be restarted is repeatedly performed while the cooler 500 cools the circulating air and adjusts the humidity; and
It consists of an exhaust pipe 611, a vacuum pump 612, a discharge pipe 613, and a solenoid valve 613a connected to the body inside 110 or/and the body inside 110 and the chamber 120 so that the stored material is stored inside the body ( It is purified through the air circulation system 110 for the purpose of internal disinfection and initial disinfection and preliminary cooling of the stored material for a certain period of time before and after being stored inside the storage shelf (RACK) or chamber 120 installed in 110), and bacteria are removed. The vacuum pump 612 and the vacuum pump 612 and the When power is supplied to the solenoid valves (611a, 611b, 611c), the solenoid valves (611a, 611b, 611c) are opened and the vacuum pump (612) is operated at the same time to remove the air inside the body (110) and the chamber (120). By suctioning and pressurizing through the suction pipe 611 and opening the solenoid valve 613a on the discharge pipe 613 to exhaust to the atmosphere, the inside of the body 110 or the inside of the body 110 and the chamber 120 has a negative pressure of 20mmhg to Decompression unit 600 for maintaining and releasing the decompression state for a certain period of time after decompression to a range of 550 mmhg; And,
Gas detector 717 and nitrogen (N ₂ ) gas is filled with high pressure (120kg/cm2) container (711a), pressure and flow regulator (711b), nitrogen (N ₂ ) consisting of a solenoid valve (711c) gas supply (711) and;
Alternatively, an argon (Ar) gas supply 712 comprising a vessel (bombe) 712a, a pressure and flow regulator 712b, and a solenoid valve 712c filled with argon (Ar) gas high pressure (120 kg/cm2) and an argon (Ar) gas supply 712,
Hydrogen (H 2 ) consisting of a vessel (bombe) (713a), a pressure and flow regulator (713b), a solenoid valve (713c) filled with hydrogen (H ₂ ) gas high pressure (120 kg/cm2) and a hydrogen (H ₂ ) gas supply (713) and ,
Carbon dioxide (CO 2 ) consisting of a container (bombe) 714a, a pressure and flow regulator (714b), and a solenoid valve (714c) filled with carbon dioxide (CO ₂ ) gas high pressure (120 kg/cm2) of the carbon dioxide (CO ₂ ) gas supply 714 Each of the supply pipes is connected to one end of the main supply pipe in which the solenoid valve 715 is installed, and the other end is connected to a plurality of branch pipes connected to the inside of the main agent and the chamber 120 to provide a nitrogen (N ₂ ) gas supply 711, Argon (Ar) gas supplier 712, hydrogen (H ₂ ) gas supplier 713, carbon dioxide (CO ₂ ) any one of the gas supplier 714 is selected from the selected model inert gas (nitrogen, argon, carbonic acid) gas) or hydrogen gas is supplied to the inside of the storage body and the chamber 120 to replace the inside with an inert gas or hydrogen gas to relieve the oxidative stress of the stored product and reduce the oxygen concentration to suppress the growth of microorganisms and hydrogen gas In the case of the case, the inert gas supply unit 700 for removing the oxygen active species (ROS) of the hydroxyl ions (OH-) and oxygen ions (O) inside the main body 110 and the plurality of chambers 120 through a reducing action; and ,
Step-down transformer 811, rectifier circuit 812, input module 813a, operation module 813b, PWM (pulse width modulation) control method and pulse frequency modulation PFM (pulse frequency modulation) and pulse frequency ( Density) control (PDM), pulse repetition rate control (PRR) function is built-in control module (813c) consisting of a control unit (813), a power supply (810) consisting of a current detection sensor (814) and a first quantum energy generating coil 815a and a second quantum energy generating coil 815b, the first quantum energy generating coil 815a, the second quantum When the energy generating coil 815b is supplied, a magnetic field in the form of a pulsed electromagnetic field (PEMF) in opposite directions at an angle of 90 degrees to the direction of current flow is generated and the magnetic field in the form of a pulsed electromagnetic field (PEMF) is superimposed. The pulsating quantum energy generator 800 in which the pulsating quantum energy is irradiated to the storage stored inside the main body internal storage rack and the chamber in a zero magnetic field state as it is extinguished; and;
Air circulation system 200, active gas generator 300, first quantum energy generator and high voltage discharge unit 400, cooler 500, decompression unit 600, inert gas supply unit 700, pulsating quantum energy generator ( 800) Low-temperature storage and aging storage to which quantum energy is irradiated, characterized in that it comprises a control panel 900 that controls the supply and cut-off of power. In claim 1,
The main body 110 has a rectangular parallelepiped or cube shape, and is installed by maintaining a gap between the main body 110 and a plurality of chambers 120 and maintaining a distance between the plurality of chambers 120 therein, and a plurality of chambers 120 . The first quantum energy generating coil 815a or the second quantum energy generating coil 815b of the pulsating quantum energy generator 800 is installed on the left side, the right side, the front side, and the rear side of the outer surface, and the main body 110, the left side of the inner outer surface , A plurality of chambers 120 are installed at the same height as the first quantum energy generating coil 815a or the second quantum energy generating coil 815b installed on the right side, the front side, and the rear side, the front side of the chamber 120, the rear side, The first quantum energy generating coil 815a installed on the outer surface of the chamber 120 so that the winding directions of the first quantum energy generating coil 815a or the second quantum energy generating coil 815b installed on the inner surface of the body on both sides are opposite to each other ) or the second quantum energy generating coil 815b is installed to face each other, and the first quantum energy generating coil 815a or the second quantum energy generating coil with the control unit 813 and the conducting wire 814 installed on one side of the outer side of the main body (815b), characterized in that connected to the low-temperature storage and aging storage irradiated with quantum energy. In claim 1,
The plurality of storage chambers 120 installed inside the body have a rectangular parallelepiped shape and are made of stainless steel (STS304), carbon steel, copper, tin, and glass fiber molded foam (FRP). , The first quantum energy generating coil 815a or the second quantum energy generating coil 815b of the first quantum energy generator is installed on the outer side (front, back, and both sides) of the chamber 120 of the double structure (hollow), An inert gas supply pipe is installed on the lower left side of the outer left side of the chamber 120, an active gas circulation pipe is connected to the suction pipe connected to the decompression unit 600 on one side of the upper right side at a distance, and the hollow part of the chamber 120 has ethylene A plurality of chambers 120 to which an antifreeze filled layer of glycol (EG), propylene glycol (PEG), and silicone oil is filled with antifreeze, and an oxygen removal board having a predetermined thickness and area is attached to the inner surface of the body 110 . Low-temperature storage and aging cell where quantum energy is irradiated, characterized in that it is installed. In claim 3,
The production of the adsorption board mixed with the oxygen scavenger component installed in the chamber 120 is made of copper (CU), stainless steel (STS 304 or STS 316L), and zinc (Zn) material with a certain diameter at a distance from each other. After drilling a plurality of holes with Select one or more powders from among the metal powders for removal, then add a fixed amount of polyvinyl alcohol (PVA) and then evenly stir the powder on the lower mold of the heat press. After evenly filling the mixed powder with polyvinyl alcohol to a certain depth, laminating a thin metal plate of stainless steel (STS304) on the filled mixed powder, lowering the upper mold of the heat press, applying heat, and compressing and molding at the same time Low-temperature storage and aging storage irradiated with quantum energy, characterized in that it is manufactured by a natural cooling method after taking out the board from the lower mold. In claim 1,
The active gas generator 300 is a first quantum energy generating coil and discharge electrode 313 and the inner cylinder 312 that are processed into a solenoid shape or a toroid shape installed in the circumferential direction of the inner surface of the outer cylinder 311 and the inner cylinder 312 A quantum energy generator and a high voltage discharger composed of a second quantum energy generating coil and ground electrode 314, a power supply 315, and a conducting wire 316 installed in the circumferential direction of the surface are fused, and the outer cylinder 311 is one side of the outside. A first quantum energy generating coil/discharge electrode 313 and a second quantum energy generating coil/ground electrode (313) and a second quantum energy generating coil/ground electrode ( 314) is supplied with pulsed electromagnetic field (PEMF) power to generate a pulsed electromagnetic field (PEMF) magnetic field at an angle of 90 degrees to the current flow direction, and the first and second quantum energy generating coils At the center between the discharge electrodes 313 and 314, the magnetic field in the form of a pulsed electromagnetic field (PEMF) overlaps and disappears, so that pulsating quantum energy is generated and irradiated in a zero magnetic field state, and the discharge starts and forms a high field electron energy band, and is formed Hydroxyl ion (OH-radical) is an electrochemical reaction of dissociation, excitation, ionization, oxidative and reduction reactions of nitrogen molecules (N2), oxygen molecules (O2), and water vapor water molecules (H2O) among the air components passing through this band. ), an active gas of nitric oxide (NO) ions is generated, and the generated hydroxyl ions (OH-radical) perforate the cell membrane of bacteria in the air to sterilize, and the quorum sensing system between bacteria, bacteria and viruses (QSS) ), low-temperature storage and aging storage irradiated with quantum energy, characterized in that it destroys. In claim 1,
The humidifier 400 is
An air supply 410 comprising a suction pipe 411, a solenoid valve 412, a ring blower 413, a discharge pipe 413, and a venturi ejector 414;
An additive storage tank (421a), a metering pump (421b), a supply pipe (421c), an electromagnetic valve (421d) in which one or more additives among antioxidants, ethylene biosynthesis inhibitors, ethylene action inhibitors, freezing point depressants, and moisture fluctuation inhibitors are stored , an aqueous solution supply unit 420 consisting of an aqueous solution storage tank 421, a suction pipe 422, a pressurization pump 423, a solenoid valve 424, and a discharge pipe 425, and,
A heater 430 comprising a ceramic heater 431, a power supply 432, and a solenoid-shaped flow path 433;
Outer cylinder 441, inner cylinder 442, first magnetic field generator and discharge electrode 443, first electric heater 443a, second magnetic field generator and ground electrode 444, second electric heater 444a, power supply Low temperature to which quantum energy is irradiated, characterized in that it consists of a first quantum energy generator and high voltage discharge unit 440 consisting of 445, first and second heater power supplies 443b and 444b, and a wire 446. storage and maturation. In claim 6,
Removal or antioxidant of oxygen or oxygen active species (ROS) stored in the additive storage tank 421a is reduced glutathione, 1,1,3,3-tetramethylurea, 1,1,3,3-tetramethyl- 2-thiourea, sodium thiosulfate, silver thiosulfate, betaine, N,N-dimethylformamide, N-(2-mercaptopropionyl)glycine, β-mercaptoethylamine, selenomethionine, thiourea, propyl Gallate, dimercaptopropanol, ascorbic acid, cysteine, sodium diethyl dithiocarbonate, spermine, spermidine, ferroic acid, sesamol, resorcinol, propyl gallate, cadaverine, putrescine, 1.3- Any one of diaminopropane, 1,2-diaminopropane, deoxyglucose, uric acid, salicylic acid, 3-amino-1,2,4-triazole, benzoic acid, hydroxylamine and combinations and derivatives thereof is selected After being stored in the additive storage tank 421a and mixed with any one of distilled water, purified water, and ionized water of the aqueous solution storage tank 421, it is pressurized by the pump 423 and sprayed in a mist state in which the additive is mixed in the circulating air, After being heated and vaporized in the heater 430 and mixed with the air supplied and circulated to the neck 415a of the venturi ejector 415 and the steam containing the additive, pulsating quantum energy is generated from the first quantum energy generator and high voltage discharge unit. Low-temperature storage and maturation chamber where quantum energy is irradiated, characterized in that it is irradiated and activated in the high-voltage discharge process and supplied to the storage rack inside the main body 110 and the storage stored inside the chamber 120. In claim 6,
The ethylene biosynthesis inhibitor stored in the additive storage tank 421a is rhizovitoxin, spermidine, n-propyl gallate, ferulic acid, sesamol, phenylethylamine, N-ethylmaleimide, bipyridyl, silicyl ylchol. , catechol, desperioxamine, methoxylamine, benzoic acid, salicylic acid, brassinosteroid, cadavarin, iodine acetate, amino(oxyacetic) acid, salicin, phloroglucinol, hydroxylamino analogues, lauryl Any one selected from sodium sulfate, spermine, benzoic acid derivative hydroquinone, butylated hydroxyanisole, cobalt chloride and its salts, nickel chloride and other salts, 1,2-diaminopropane, and 1,3-diaminopropane to store the aqueous solution After being mixed with any one of distilled water, purified water, and ionized water in the tank 421, it is sprayed in a mist state in which the additive is mixed in the air that is pressurized by the pump 423 and circulated, or is heated in the heater 430 and vaporized, and a venturi ejector ( After mixing with the steam containing the additive and the air supplied and circulated to the neck 415a of 415), quantum energy is irradiated from the first quantum energy generator and high voltage discharge unit, and activated in the high voltage discharge process, the storage rack and Low-temperature storage and aging cell where quantum energy is irradiated, characterized in that it is supplied to the storage stored inside the chamber. In claim 6,
The ethylene action inhibitor stored in the additive storage tank 421a is silver salt, 8-hydroxyquinoline sulfate, 2,5-norbornadiene, trans-cyclooctene, cis-propenylphosphonic acid, methylcyclopropane, methylcyclo Propane carboxylate, cyclooctidine, benzyl isocyanate, 8-hydroxyquinoline citrate, N-ethoxycarbonyl-2-ethoxy-1,2-dihydroquinoline, 7-bromo-5-chloro-8 -Hydroxyquinoline, diazocyclopentadiene, 2-methoxycyclopropanecarboxylic acid, and (chloromethyl)cyclopropane is selected from any one of distilled water, purified water, and ionized water in the aqueous solution storage tank 421 After mixing, it is sprayed in a mist state to the air that is pressurized by the pump 423 and circulated, or it is heated and vaporized in the heater 430 and supplied and circulated to the neck 415a of the venturi ejector 415 contains the air and additives. Quantum energy, characterized in that after being mixed with the steam, pulsating quantum energy is irradiated from the first quantum energy generator and high voltage discharge unit, and is activated during the high voltage discharge process and supplied to the storage rack inside the body and the storage stored inside the chamber. Investigated cold storage and maturation chambers. In claim 6,
The freezing point depressant stored in the additive storage tank 421a is selected from among the freezing point depressants of xylitol, sorbitol, maltitol, oligosaccharides, nano strontianite, nano chalcedonyr, and zeolite, so that the aqueous solution storage tank 421 is stored in the freezing point depressant. After mixing with any one of distilled water, purified water, and ionized water, it is sprayed in a mist state in which the additive is mixed in the air that is pressurized by the pump 423 and circulated, or is heated and vaporized in the heater 430 and the neck of the venturi ejector 415 After mixing with the air supplied and circulated to (415a) and steam containing additives, pulsating quantum energy is irradiated from the first quantum energy generator and high voltage discharge unit, and activated during the high voltage discharge process, it is stored in the storage rack and chamber inside the body. Low-temperature storage and maturation chamber where quantum energy is irradiated, characterized in that it is supplied to the stored storage. In claim 6,
The browning inhibitor stored in the additive storage tank 421a is ascorbic acid, citric acid, fumaric acid, maleic acid, succinic acid, tartaric acid, acetic acid ( Acetic Acid), carboxymethylcellulose (Carboxymethylcellulose) oxalic acid, magnesium chloride, citric acid, any one or more materials selected from the material of sodium chloride is mixed with any one of distilled water, purified water, and ionized water in the aqueous solution storage tank 421, then pump It is sprayed in a mist state in which the additive is mixed in the air that is pressurized and circulated in the air 423, or is heated and vaporized in the heater 430 and supplied and circulated to the neck 415a of the venturi ejector 415 contains the air and the additive. Quantum energy, characterized in that after being mixed with the steam, pulsating quantum energy is irradiated from the first quantum energy generator and high voltage discharge unit, and is activated during the high voltage discharge process and supplied to the storage rack inside the body and the storage stored inside the chamber. Investigated cold storage and maturation chambers. In claim 6,
The moisture fluctuation inhibitor stored in the additive storage tank 421a is monoglucosyl of a,a-trehalose, a-maltosyl, a-glucoside, a-isomaltosyl, a-glucoside, a, a-trehalose or a-maltoriosyl, a-glucoside (alias; a-maltosyl, a,a-trehalose), a-maltosyl a-maltoside, a-isomal tosyl a-maltoside, a-isomaltosyl diglucosyl of a-isomaltoside, a,a-trehalose, a-maltotetraosyl, a-glucoside (alias; a-maltotriosyl; a,a-trehalose), a-maltosyl a-maltotrioside, triglucosyl of a-panosyl a-maltoside, a,a-trehalose, a-maltopentaosyl a-glucoside Seed (alias; a-maltotetraosyl, a,a-trehalose), a-maltotriosyl a-maltotrioside, a-panosyl a-maltotrioside tetraglucosyl, a,a- One or more substances are selected from among substances of saccharide derivatives of a, a-trehalose having a polymerization degree of trehalose and glucose of 3 to 6, and any one of distilled water, purified water, and ionized water in the aqueous solution storage tank 421 and After mixing, the air is sprayed in a mist state in which the additive is mixed in the air pressurized by the pump 423 and circulated, or the air is heated and vaporized by the heater 430 and supplied to the neck 415a of the venturi ejector 415 and circulated. After mixing with the vapor containing the and additives, the pulsating quantum energy is irradiated from the first quantum energy generator and high voltage discharge unit, and is activated during the high voltage discharge process and supplied to the storage rack inside the body and the storage stored inside the chamber. Low-temperature storage and aging cell where quantum energy is irradiated.
8. The method of any one of claims 1, 2, 4 and 7, wherein the first method of removing oxygen and oxygen active species (ROS) inside the body and inside the chamber comprises the body 110 and the chamber. (120) carbon (C), aluminum (Al), manganese (Mn), magnesium (Mg), titanium (Ti), zirconium (Zr), calcium (Ca) in the interior of any one or more materials of metal powder for oxygen removal A method of removing the metal powder by reacting with the oxygen removal metal powder in contact with the supported interior material,
The second method is reduced glutathione, 1,1,3,3-tetramethylurea, 1,1,3,3-tetramethyl-2-thiourea, sodium thiosulfate, silver thiosulfate, betaine, N,N-dimethyl Formamide, N-(2-mercaptopropionyl)glycine, β-mercaptoethylamine, selenomethionine, thiourea, propylgallate, dimercaptopropanol, ascorbic acid, cysteine, sodium diethyl dithiocarbonate , spermine, spermidine, ferroic acid, sesamol, resorcinol, propyl gallate, cadaverine, putrescine, 1.3-diaminopropane, 1,2-diaminopropane, deoxyglucose, uric acid, salicylic acid, Any one of 3-amino-1,2,4-triazole, benzoic acid, hydroxylamine, and combinations and derivatives thereof is selected and stored in the additive supply tank 421a and distilled water and purified water in the aqueous solution storage tank 421 , mixed with any one of the ionized water and then sprayed in a mist state in which the additive is mixed in the air that is pressurized by the pump 423 and circulated, or heated and vaporized in the heater 430, and the neck 415a of the venturi ejector 415 After mixing with the air supplied and circulated to the air and the steam containing additives, pulsating quantum energy is irradiated from the first quantum energy generator and high voltage discharge unit, and activated during the high voltage discharge process, the storage rack and chamber 120 inside the body 110 ) a second method that is removed by the removal of oxygen or oxygen active species (ROS) supplied to the stored material or reduction reaction of the antioxidant;
In the third method, the first and second quantum energy generating coils and discharge electrodes 443 are supplied with power in the form of a pulsed electromagnetic field (PEMF) from the power supply 445 of the first quantum energy generator and high voltage discharge unit 440 . , 444), a magnetic field in the form of a pulsed electromagnetic field (PEMF) is irradiated, and pulsating quantum energy generated in a state in which the magnetic fields in the form of a pulsed electromagnetic field (PEMF) in opposite directions overlap and disappear are irradiated The dissociation, excitation, ionization, and redox reactions are applied to the dissociation, excitation, ionization, and redox reactions to dissociate hydrogen cations generated by dissociation of water molecules and cations generated by dissociation of some of the additive material. Low-temperature storage and aging storage irradiated with quantum energy, characterized in that it is a third method removed by reduction reaction.

13. The method of any one of claims 8, 9, 10, 11 and 12,
The activation of the ethylene biosynthesis inhibitor, the ethylene action inhibitor, the freezing point depressant, the browning inhibitor, and the water fluctuation inhibitor is first mixed with the dry or superheated steam and the active gas in the humidifying unit 400, and the first quantum energy generator and high voltage discharge unit 440 A pulsed electromagnetic field (PEMF) form while passing through the first and second quantum energy generating coils and discharge electrodes 443 and 444 receiving power in the form of a pulsed electromagnetic field (PEMF) from the power supply 445 of the The magnetic field is irradiated, the pulsed electromagnetic field (PEMF) type magnetic fields in opposite directions overlap and disappear, and pulsating quantum energy generated in the state is irradiated, and high electric field electron energy generated in the discharge process and the discharge process is applied Activated by dissociation, excitation, ionization, and redox reactions, and oxygen or oxygen active species is removed A low-temperature storage and aging chamber irradiated with quantum energy, characterized in that it is activated by irradiating a pulsed electromagnetic field (PEMF) form magnetic field and pulsating quantum energy irradiated from the first and second quantum energy generating coils installed inside the chamber .
In claim 1,
The pressure reducing unit 600 is composed of an exhaust pipe 611 connected to the body interior 110 and the chamber 120, a vacuum pump 612, a discharge pipe 613, and an electromagnetic valve 613a, the body interior 110 and Bacteria are sterilized by hydroxyl ions (OH ⁻ ) generated in the active gas generator 300 by the circulation FAN 212 of the air circulation system 200 inside the chamber 120, and the first quantum energy generator and high voltage In the discharge unit 400, the superheated steam of the humidifying aqueous solution is added to and mixed with the air purified by the active gas generator 300, and the clean air whose temperature and humidity are adjusted in the cooler is supplied to the body inside 110 and the chamber 120. When power is supplied to the vacuum pump 612 and the solenoid valves 611a, 611b, and 611c for a predetermined time by the control program of the control panel 900 from the control panel 900, the solenoid valves 611a, 611b, 611c are As soon as the vacuum pump 612 is opened, the vacuum pump 612 operates to suck and pressurize the air inside the body 110 and the chamber 120 through the suction pipe 611 and open the solenoid valve 613a on the discharge pipe 613 to discharge it. The suction pipe 201 connected to the body 110 is electrically operated after a certain period of time while evacuating to the atmosphere through the pipe 613, air washing the inside of the body and the inside of the chamber at the beginning of storage, sterilizing bacteria in the air, and controlling the appropriate humidity. After opening the damper (205a), the electric damper (205b) of the branch pipe (203) is closed to stop the suction of external air, and the vacuum pump is continuously operated while continuing to circulate the air inside the body (110) and the chamber (120). Low-temperature storage and maturation chamber to which quantum energy is irradiated, characterized in that the pressure in the main body 110 and the chamber 120 is reduced to a range of 20 mmhg to 550 mmhg, and then the reduced pressure is maintained for a certain period of time. In claim 1,
The inert gas supply unit 700 is
Gas detector 717 and nitrogen (N ₂ ) gas is filled with high pressure (120kg/cm2) container (711a), pressure and flow regulator (711b), nitrogen (N ₂ ) consisting of a solenoid valve (711c) gas supply (711) and;
Alternatively, an argon (Ar) gas supply 712 comprising a vessel (bombe) 712a, a pressure and flow regulator 712b, and a solenoid valve 712c filled with argon (Ar) gas high pressure (120 kg/cm2) and an argon (Ar) gas supply 712,
Hydrogen (H 2 ) consisting of a vessel (bombe) (713a), a pressure and flow regulator (713b), a solenoid valve (713c) filled with hydrogen (H ₂ ) gas high pressure (120 kg/cm2) and a hydrogen (H ₂ ) gas supply (713) and ,
Carbon dioxide (CO 2 ) consisting of a container (bombe) 714a, a pressure and flow regulator (714b), and a solenoid valve (714c) filled with carbon dioxide (CO ₂ ) gas high pressure (120 kg/cm2) of the carbon dioxide (CO ₂ ) gas supply 714 Each of the supply pipes is connected to one end of the main supply pipe in which the solenoid valve 715 is installed, and the other end is connected to a plurality of branch pipes connected to the inside of the main agent and the chamber 120 to provide a nitrogen (N ₂ ) gas supply 711, Argon (Ar) gas supply unit 712, hydrogen (H ₂ ) gas supply unit 713, carbon dioxide (CO ₂ ) any one of the gas supply unit 714 is selected from the selected inert gas (nitrogen, argon, carbonic acid) gas) or hydrogen gas is supplied to the inside of the storage body and the chamber 120 to replace the inside with an inert gas or hydrogen gas to relieve the oxidative stress of the stored product and reduce the oxygen concentration to suppress the growth of microorganisms and hydrogen gas In the case of , quantum energy is irradiated, characterized in that the oxygen active species (ROS) of the hydroxyl ions (OH-) and oxygen ions (O) inside the main body 110 and the plurality of chambers 120 are removed by a reducing action. cold storage and maturation. In claim 1,
The pulsating quantum energy generator 800 includes a step-down transformer 811 , a rectifier circuit 812 , an input module 813a , an operation module 813b , a PWM (pulse width modulation) control method and a pulse frequency modulation PFM Power supply ( 810), a first quantum energy generating coil 815a, and a second quantum energy generating coil 815b, and the power supply in the form of a pulsed electromagnetic field (PEMF) generated by the power supply 810 is converted to the first quantum energy When supplied to the generating coil 815a and the second quantum energy generating coil 815b, a magnetic field in the form of a pulsed electromagnetic field (PEMF) opposite to each other at an angle of 90 degrees to the current flow direction is generated and pulsed (Pulsed electromagnetic field) ; PEMF) type magnetic field is superimposed and extinguished, and in the state of zero magnetic field, pulsating quantum energy is irradiated to the storage rack inside the body and the storage stored inside the chamber. . In claim 17, the first quantum energy generating coil (815a) and the second quantum energy generating coil (815b) installed inside the main body 110 and outside the chamber 120 are pulsed (Pulsed electromagnetic) generated by the power supply 810 When power in the form of field (PEMF) is supplied, a magnetic field in the form of a pulsed electromagnetic field (PEMF) in opposite directions is generated at an angle of 90 degrees to the direction of current flow, and a magnetic field in the form of a pulsed (PEMF) is superimposed. In the state of zero magnetic field, the pulsating quantum energy is irradiated to the storage rack and the storage inside the chamber, which causes electrical disturbance to the water molecules contained in the storage and causes electrical polarization, resulting in a quantum wave field. Induces (generates) and partially dissociates hydrogen bonds and covalent bonds between water dipoles to form a 'microcluster structure of subgroups, forming a coherent domain, maintaining freshness and aging Low-temperature storage and aging storage irradiated with quantum energy, characterized in that the quality of the

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