KR20210088234A - A storage warehouse that allows you to control the amount of charge emitted to suit the type of storage being stored - Google Patents

Abstract

The present invention relates to a refrigerating or freezing storage warehouse, which comprises: a control panel formed with a menu button to specify the type of a stored product stored inside an inner space; a microcomputer for controlling an electric field to be formed by applying a high voltage to correspond to the type of the stored product set through the menu button; a transformer for boosting a commercial power to a high voltage; a voltage adjusting unit for adjusting an output voltage in accordance with an instruction of the microcomputer; and an oscillation unit for applying the high voltage adjusted by the voltage adjusting unit to a discharge plate to provide vibration to the discharge plate when emitting charges so as to allow the charges to be evenly distributed in the inner space. Accordingly, each stored product stored in the inner space can be stored to be fresh to correspond to the type/characteristics of each stored product, and charges are evenly distributed to form a maximally uniform electric field.

Description

A storage warehouse that can control the amount of radiated charge according to the type of storage stored in the space. {A storage warehouse that allows you to control the amount of charge emitted to suit the type of storage being stored}

The present invention relates to a storage warehouse that can keep the stored goods stored in the internal space fresh while making the internal space of the storage warehouse into an electric field by electric charges emitted while applying vibration during refrigeration or freezing storage,

More specifically, it is possible to adjust the amount of electric charge emitted according to the type/characteristics of each stored object stored in the inner space, and the electric charge emitted by the discharge plate is uniformly sprayed so that the electric field is as uniform as possible. It relates to a storage warehouse that can form a

In general, a storage warehouse is a structure manufactured to safely store stored goods such as various agricultural products, livestock products, fish and shellfish, food, medicines, etc., and in particular, a condenser for freezing or refrigeration to maintain the freshness of the stored goods. do.

However, these storage warehouses can be kept fresh by inhibiting the growth of bacteria as the stored materials are refrigerated or frozen by the condenser, but there is a risk of deterioration after a certain period of time because it cannot prevent oxidation.

Therefore, as in the conventional Korean Patent Publication No. 10-1173641, a discharge plate is installed inside the inner space, and the discharge plate radiates a large amount of electric charge into the inner space to make it an electric field,

Storage warehouses have appeared in which positive or negative charges existing inside the inner space react with the stored material to delay oxidation or, conversely, to reduce oxidation.

However, in the storage warehouse as described above, not only one type of storage is stored inside the inner space, but various types of storage such as agricultural products (eg, apples, pears, etc.) as well as livestock products or food are stored,

At this time, the moisture content contained in each storage is also different, so it is necessary to keep it according to the characteristics/type of the storage,

In particular, as the emitted charges were concentrated only around the discharge plate, the electric field was formed unevenly.

US 20-0350163 Y1

Therefore, according to the present invention, when making the inner space of the storage warehouse into an electric field, it is possible not only to adjust the amount of electric charge radiated according to the type/characteristics of the storage stored in the inner space, but also

The purpose of the storage warehouse is to have the electric field formed as uniformly as possible by evenly distributing the electric charges radiated inside the inner space.

Therefore, in order to achieve the above object, the present invention provides a storage warehouse configured to store freshly stored items by making the inner space in which various types of stored items are stored refrigerated or frozen into the full length,

The storage warehouse includes: a control panel formed with a menu button that can designate the type of storage stored in the inner space;

a microcomputer connected to the control panel and controlling the entire inner space to become a battlefield by applying a vibration while applying a high voltage to the discharge plate according to the type of storage set through the menu button;

a transformer in which the primary coil and the secondary coil are magnetically coupled to boost commercial power to a high voltage;

a voltage adjusting unit connected to the microcomputer and connected to the secondary coil of the transformer to control the high voltage adjusted according to the instruction of the microcomputer to be applied to the discharge plate;

When the discharge plate connected to the voltage adjusting unit emits electric charges, it is characterized in that the storage is composed of an oscillation unit that applies vibration to the discharge plate so that the electric charges are evenly spread and dispersed in the inner space.

In addition, in the present invention, when the electric charge is radiated through the discharge plate, the oscillation unit vibrates the water molecules contained in the stored material accommodated inside the inner space so that the water in the stored material is not frozen even in the range of -4°C to 0°C. It is characterized in that it is kept refrigerated in a state of not being

In addition, the discharge plate of the present invention is characterized in that one or more discharge plates connected in series are connected in parallel in a paired state.

And at this time, each discharge plate is installed in a dispersed state inside the inner space, and each discharge plate is driven according to a pattern (eg, sequentially one by one) set according to the microcomputer,

It is characterized in that the electric charge is evenly radiated throughout the inner space to form a uniform electric field as much as possible, and the stored object is prevented from being damaged by the electric charge radiated in one direction.

In addition, when each discharge plate is operated according to the pattern set by the microcomputer, it is characterized in that a high voltage higher than usual is applied to a specific discharge plate or all of the discharge plates.

In addition, the discharge plate has an inner inlet portion and a continuous protrusion, and a perforated hole for emitting electric charge is formed in each inner inlet portion and protruding portion.

Therefore, according to the present invention, a high voltage electric field can be formed according to the type of the stored material, and it can be stored freshly according to the characteristics of each stored material.

In addition, according to the present invention, it is possible to form an electric field as uniformly as possible while the electric charge radiated in the inner space is widely spread.

In addition, in the present invention, the moisture of the stored product is kept refrigerated without freezing even in the sub-zero region of -4°C to 0°C by the electric charge radiated while applying vibration, and the tissue is not destroyed, so that the yield during thawing is increased. It was able to retain the taste and flavor,

In particular, even without a separate quick-freezer, when the temperature drops below -5°C, it is automatically rapidly frozen.

1 is a perspective view and a cross-sectional view of a storage warehouse according to an embodiment of the present invention.
Figure 2 is an operational state diagram of a storage warehouse according to an embodiment of the present invention.
3 is a state diagram of a storage warehouse according to an embodiment of the present invention;
4 is a block diagram of a storage warehouse according to an embodiment of the present invention.
Figure 5 is an operational state diagram of a storage warehouse according to an embodiment of the present invention.
6 is a plan view and a cross-sectional view of a discharge plate of a storage warehouse according to an embodiment of the present invention.

First, the terms used in the specification and claims of the present invention should not be construed as being limited in the dictionary meaning, and based on the principle that the inventor can appropriately define the concept of the term to describe his invention in the best way. Therefore, it should be interpreted as meaning and concept consistent with the technical idea of the present invention.

Therefore, the configurations shown in the embodiments and drawings described in the specification are only preferred embodiments of the present invention, and do not express all the technical ideas of the present invention, so they can be substituted for these configurations at the time of filing. It should be understood that various implementations may be made by means of equivalents and modifications.

Hereinafter, specific details for carrying out the present invention will be described with reference to the accompanying drawings.

1 shows a state in which electric charges are uniformly radiated into the inner space of a storage warehouse according to an embodiment of the present invention and made into a full-length, and FIG. 2 shows a state in which water molecules of stored water that are not frozen during refrigeration are separated. , FIG. 3 shows a state of storing according to the type/characteristic of each storage by pressing the menu button of the control panel, and FIG. 4 briefly shows the configuration of the storage warehouse.

Referring to this, in the present invention, when a plurality of discharge plates 60 are inserted into the storage warehouse 1 for refrigeration or frozen storage and are fixedly installed, the discharge plates are stored in each storage unit containing moisture. According to the type/characteristic of the water 3, the inner space is made into an electric field.

At this time, the storage warehouse 1 vibrates the discharge plate 60 so that the electric charges are evenly distributed inside the inner space 2 to make the electric field as uniform as possible, so that each storage 3 is stored uniformly. let it go,

In particular, with the vibration formed by the discharge plate 60, the water molecules contained in each storage 3 are released or vibrated so that the stored material is not frozen even in the range of -4°C to 0°C. to be kept refrigerated. At this time, water molecules are suddenly frozen rapidly when the temperature drops below -5℃.

And the storage warehouse 1 includes a control panel 10 having a menu button 11 formed on a door or an outer wall surface so as to specify the type of storage 3 stored inside the inner space 2, and the menu button Instruction of a micom 20 that controls to form an electric field while applying a high voltage according to the type of storage 3 set through 11, a transformer 30 for boosting commercial power to a high voltage, and the micom 20 A voltage adjusting unit 40 that adjusts the voltage output according to the voltage control unit 40, and a high voltage adjusted by the voltage adjusting unit 40 is applied to the discharge plate 60 to radiate electric charges by giving vibration to the discharge plate 60. It is composed of an oscillation unit 50 for uniformly distributing the charged charges inside the inner space.

Hereinafter, referring to each configuration of the storage warehouse according to an embodiment of the present invention in more detail, the control panel 10 is a panel in which a menu button is formed on a door or an outer wall surface of the storage warehouse,

It is configured to be able to set (designate) the type of storage (eg, meat, vegetables, seafood, etc.) stored in the storage warehouse by pressing the menu button 11 .

In this case, the control panel 10 further includes a temperature setting button 13 for refrigerated or frozen storage according to an embodiment, and a timer setting button 12 capable of setting the time to form an electric field, and the timer setting The button 12 and the temperature setting button 13 designate the year, month, and day through the buttons located at the upper and lower parts centering on the confirmation button formed in the center, and set the period through the left and right movement buttons. The period, temperature, and type of storage are displayed through the display window so that the administrator can check it from the outside even if he does not enter the inner space.

In addition, the microprocessor 20 is a microprocessor that stores the high voltage value applied to the discharge plate 60 in the memory 21 according to the concentration of moisture contained in each storage 3 .

At this time, the microcomputer controls the voltage adjusting unit 40 and the oscillation unit 50 when the type of storage 3 is designated through the menu button 11 so that a high voltage corresponding to the set storage is applied to the discharge plate 60 . Control to form an electrostatic field filled with electric charges inside the inner space (2).

At this time, the microcomputer 20 can operate all of the plurality of discharge plates installed inside the inner space at the same time, but any one or part of the plurality of discharge plates is operated in a certain pattern (eg, after operating the left discharge panel for 10 minutes, the right discharge panel 10 By driving it according to the operation of the minute),

It is configured to allow the electric charge to be evenly radiated throughout the inner space, while the electric charge continues to be radiated in only one direction to prevent damage to the stored object by being affected by it.

In addition, the microcomputer 20 instantaneously applies a higher voltage than usual to a specific plate or all of the discharge plates after the operation of each of the discharge plates 61 , 61a , 62 and 62a is completed according to the set pattern or oscillates. Control.

In addition, the microcomputer 20 is configured to control the amount of discharge of electric charges radiated through the discharge plate 60 while the operating time is set through the timer setting button 12 according to an embodiment.

In addition, the transformer 30 is to step-up the commercial power to a high voltage by magnetically coupling the primary coil 31 and the secondary coil 32, and boosts the commercial power of AC 220V to a high voltage of 5000V.

At this time, the transformer 30 includes a switch controlled ON/OFF by the microcomputer together with a fuse to prevent damage when counter electromotive force occurs.

In addition, the voltage adjusting unit 40 is a part that sets a high voltage applied to the discharge plate 60 according to the storage 3 , and is connected to the microcomputer 30 and the secondary coil 32 of the transformer 40 . It is connected to and is configured to be able to adjust the high voltage output through the discharge plate 60 according to the instruction of the microcomputer 30 .

At this time, the voltage adjusting unit 40 is configured with a plurality of drop units 42 that drop the voltage output for each menu (eg, drop part 1: apple-5000V, drop part 2: shrimp-4000V, drop part 3: potatoes - 2000V, etc.),

When the instruction of the microcomputer 30 to apply a corresponding high voltage to the discharge plate 60 is received when the type of storage 3 is specified through the menu button 11,

The switching unit 41 is selectively connected to any one of the plurality of descending units 42 and the secondary coil 32 of the transformer 30 based on the instruction of the microcomputer 30 , and is output through the discharge plate 60 . It is configured to be able to adjust the high voltage.

In addition, the oscillation unit 50 applies vibration when the discharge plate 60 emits electric charges so that the electric charges are evenly distributed inside the inner space 2 to form a uniform electric field as possible, so that a predetermined voltage is stored in the storage. It is applied to (3) to delay the oxidation reaction or reduce the oxidized fat by charging a - charge or a charge of + charge.

And, the oscillation unit 50 continuously gives a wavelength to release or vibrate the moisture contained in the stored object 3, so that even in the sub-zero region of -4 ° C to 0 ° C, the stored water is stored in a refrigerator in a state in which it is not frozen. By becoming

Not only is the structure of the stored material not destroyed, but it is aged so that the taste and flavor are maintained, and it is possible to minimize the decrease in yield during thawing.

At this time, the oscillator 50 and the voltage adjuster 40 feed back the voltage output to the transformer through a feedback circuit according to an embodiment to adjust the voltage applied to the discharge plate, and automatically vibrate the discharge plate by the delay difference. can be configured,

In some embodiments, the oscillation unit 50 may be configured as a separate oscillation circuit to vibrate at 2,540Mh so that the water molecules contained in the storage 3 resonate.

In addition, the discharge plate 60 radiates electric charges into the inner space 2 when a high voltage is applied, and is made of a conductive material on the inner side and finished with an insulator on the lower end and the rim.

And the discharge plate 60 is preferably a pair of discharge plates 61 and 61a connected in series are connected in parallel (62, 62a) at least,

In particular, as shown in FIG. 5 , each of the discharge plates 61 , 61a , 62 and 62a is driven according to a pattern set by any one or some of the plurality of discharge plates installed at various angles inside the inner space. while losing,

It is preferable to configure the internal space 2 so that charges are radiated evenly throughout the entire inner space 2 , and when the electric charges are continuously radiated in only one direction, it is preferable to prevent the storage 2 from being partially damaged by the influence thereof.

In addition, Figure 6 shows the appearance of the discharge plate according to the embodiment of the present invention,

Referring to this, the discharge plate 60 forms convex protrusions 60b protruding upward at regular intervals on the flat metal plate 60a, and at the same time, concave downwardly between adjacent protrusions and protrusions 60c. to form At this time, a perforated hole 60d is formed inside the inner inlet portion 60c during drawing with a press, and the edge of the metal plate 60a is closed with an insulating frame 60e and a current terminal 60f. formed and installed in the inner space of the storage warehouse.

At this time, the protrusion 60b and the inner portion are embossed and punched in the shape of a circular cone at the same time, so that the perforated end is formed to have a sharp edge, so as to improve the straightness and movement distance of the charges emitted by the protrusion. The charge radiated by the negative spreads widely from side to side and is dispersed.

Therefore, the present invention can make the inner space (2) into an electric field according to the moisture contained in each stored object (3), and at this time, the radiated charge is evenly dispersed into the inner space (2) to be as uniform as possible. It can form a battlefield.

Although the present invention has been described with reference to the accompanying drawings, this is merely exemplary, and those of ordinary skill in the art can easily implement various modifications and equivalents therefrom. There will be. Therefore, the true technical protection scope of the present invention should be defined by the claims.

1: Storage warehouse 2: My space
3: storage
10: Control panel 11: Menu button
12: Timer setting button 13: Temperature control button
20: micom
21: memory 30: trans
31: primary coil 32: secondary coil
40: voltage adjustment unit 41: switching unit
42: descent part 50: oscillation part
60: discharge plate 60a: metal plate
60b: protrusion
60c: interior 60d: perforated hole
60e: Finish
60f: current terminal

Claims (6)

In a storage warehouse configured to store freshly stored items by making the inner space in which various types of stored items are stored refrigerated or frozen,
The storage warehouse includes: a control panel formed with a menu button that can designate the type of storage stored in the inner space;
a microcomputer connected to the control panel and controlling the entire inner space to become a battlefield by applying vibration while applying a high voltage to the discharge plate according to the type of storage set through the menu button;
a transformer in which the primary coil and the secondary coil are magnetically coupled to boost commercial power to a high voltage;
a voltage adjusting unit connected to the microcomputer and connected to the secondary coil of the transformer to control the high voltage adjusted according to the instruction of the microcomputer to be applied to the discharge plate;
an oscillation unit for applying vibration to the discharge plate when the discharge plate connected to the voltage adjusting unit emits electric charges so that the electric charges are evenly spread and dispersed in the inner space; Storage warehouse, characterized in that consisting of. According to claim 1,
When the electric charge is radiated through the discharge plate, the oscillation unit vibrates the moisture contained in the stored material contained inside the inner space, so that the water in the stored product is kept refrigerated without being frozen even in the range of -4°C to 0°C. Storage warehouse, characterized in that it is configured According to claim 1,
The discharge plate is a storage warehouse, characterized in that one or more of a pair of discharge plates connected in series are connected in parallel. 4. The method of claim 3,
The discharge plate is installed at a certain angle and direction inside the inner space, and each discharge plate is driven according to a certain pattern by a microcomputer,
A storage warehouse, characterized in that the electric charge is evenly radiated throughout the inner space to form a uniform electric field as much as possible while preventing damage to the stored object by the electric charge radiated in one direction. 5. The method of claim 4,
Storage warehouse, characterized in that after each discharge plate is operated according to a certain pattern by the microcomputer, a high voltage higher than usual is applied to a specific discharge plate or all of the discharge plates momentarily. According to claim 1,
The discharge plate protrudes upward in a cone shape at regular intervals on a flat metal plate to form a protrusion for improving the straightness and movement distance of the emitted charges, but is recessed downwardly between the adjacent protrusions and protrusions at the same time A storage warehouse, characterized in that a perforated hole is formed to form an inner portion for discharging the emitted charges to the left and right, and the edge of the metal plate is finished with an insulating frame.

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