KR101747210B1 - Apparatus and method for generating 1-MCP - Google Patents

Abstract

An apparatus and a method for generating a 1-MCP are disclosed. The 1-MCP generator according to the present invention comprises a first inlet through which a first additive containing distilled water is introduced and a second additive including 1-methylcyclopropene (1-MCP) A heating unit for heating the mixture of the first additive and the second additive to gasify the 1-MCP, the heating unit being provided on a bottom surface of the inside of the main body, A fan for discharging the gasified 1-MCP to the outside of the main body, and a controller for controlling the inflow amount of the first additive and the second additive and controlling the heating temperature of the heating unit, And a control unit for controlling the rotation of the fan.

Description

[0001] Apparatus and method for generating 1-MCP [0002]

The present invention relates to a 1-MCP generator, and more particularly, to a 1-MCP generator that increases the storage period of crops by generating 1-MCP that inhibits the action of ethylene, which is a vegetable hormone, ≪ / RTI >

Ethylene (C ₂ H ₄ ) is a plant hormone that regulates various physiological responses in horticultural products, including respiration, ethylene production, pigment destruction, synthesis, tissue softening, It is an aging-promoting substance that accelerates aging and aging process during storage period or distribution period.

Ethylene can be beneficial or disadvantageous to the quality of horticultural products depending on when and where it occurs. In other words, the treatment of aged agricultural products and fruits that are not aged will complete the aging process, but on the contrary, it accelerates the aging process, which also reduces the productivity of agricultural products. Several methods have been tried to control the action of ethylene.

The most commonly used substance to generate ethylene is Ethephon, which is a colorless solid with a melting point of 74-75 ° C. It rapidly decomposes under basic aqueous solution to produce ethylene, thereby promoting the coloration of fruit and vegetables And acts to promote maturity.

Conversely, cyclopropene derivatives, including 1-methylcyclopropene (1-MCP), inhibit the action of ethylene, a plant hormone that promotes the ripening process of crops such as fruits, flowers and vegetables, It is known that the effect of the substance is noble. In particular, since 1-MCP exists in a gaseous state at room temperature, coating treatment can be easily performed in the agricultural warehouse.

Therefore, there is a growing need for a device capable of easily producing 1-MCP when packing crops such as fruit-producing farms using 1-MCP.

Korean Patent Laid-Open Publication No. 10-2012-0111994 (Oct. 11, 2012)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a 1-MCP generator and a method for gasifying 1-MCP, which reacts with distilled water to increase the storage period of a crop.

It is another object of the present invention to provide a 1-MCP generator and method for controlling the temperature of an environment where 1-MCP is gasified to shorten the process time.

To achieve the above object, a 1-MCP generator according to the present invention comprises a first inlet through which a first additive containing distilled water flows, and a second inlet through which 1-methylcyclopropene (1-MCP) A main body in which a second inlet portion into which the included second additive flows is formed; a main body provided on the bottom of the inside of the main body and heating the mixture in which the first additive and the second additive are mixed to gasify the 1-MCP A heating unit, a fan disposed at an upper portion of the main body for discharging the gasified 1-MCP to the outside of the main body, and a control unit for controlling the inflow amount of the first additive and the second additive, And a control unit for controlling the heating temperature of the heating unit and controlling the rotation of the fan.

The first additive and the second additive are contained in the main body and arranged so as to be in contact with the upper part of the heating part, the first additive and the second additive are mixed and contained, And a reaction vessel for transferring heat to gasify the 1-MCP.

The second inlet may include a storage container for storing the introduced second additive and a control valve installed at a lower portion of the storage container to control the outflow of the stored second additive.

Further, the heating unit is characterized in that it is heated to 30 캜 to 40 캜.

The control unit is characterized in that the mixture contains 75 wt% to 95 wt% of the first additive and 5 wt% to 25 wt% of the second additive.

Also, the controller may control the gasified 1-MCP to flow out of the main body for 12 to 36 hours.

The first additive is a mixture of 80 wt% to 98 wt% of distilled water and 2 wt% to 20 wt% of vitamin. The second additive is a mixture of distilled water, powdered 1-MCP, vitamin and fluorine By weight of the composition.

A method for generating 1-MCP according to the present invention includes the steps of introducing a first additive containing distilled water into a main body of a main body using a first inlet formed in the main body, Introducing a first additive comprising 1-MCP into the body using a second inlet formed in the body, mixing the first additive and the second additive in the body, Reacting the 1-MCP to gasify the 1-MCP, and discharging the gasified 1-MCP to the outside using a fan provided on the main body.

The 1-MCP generating apparatus and method according to the present invention can gasify 1-MCP, which increases the storage period of a crop, by reacting with distilled water.

Further, by controlling the temperature of the environment in which the 1-MCP is gasified, the process time can be shortened, and the cost reduction effect can be obtained.

1 is a schematic view for explaining a low temperature reservoir to which a 1-MCP generator according to an embodiment of the present invention is applied.
2 is a schematic view for explaining a low temperature reservoir to which a 1-MCP generator according to another embodiment of the present invention is applied.
3 is a block diagram illustrating a 1-MCP generator according to an embodiment of the present invention.
4 is a schematic view for explaining a 1-MCP generator according to an embodiment of the present invention.
5 is a flowchart illustrating a 1-MCP generation method according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals as used in the appended drawings denote like elements, unless indicated otherwise. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather obvious or understandable to those skilled in the art.

FIG. 1 is a schematic view for explaining a low-temperature storage tank to which a 1-MCP generator according to an embodiment of the present invention is applied, FIG. 2 is a view for explaining a low-temperature storage tank to which a 1-MCP generating apparatus according to another embodiment of the present invention is applied Fig.

Referring to FIGS. 1 and 2, the cold storage 400 stores crops such as fruits, vegetables, flowers, and the like, and increases the storage period of the stored crops. The cold storage 400 includes a 1-MCP generator 100, a crop storage 200, and a cooling system 300.

The 1-MCP generator 100 is generated by gasifying 1-MCP which suppresses the generation of ethylene gas. Thus, the 1-MCP generator 100 applies 1-MCP coating to the outer surface of the crop stored in the cold storage 400. Crops coated with 1-MCP can be lengthened by one week to six months.

1, the 1-MCP generator 100 may be disposed inside the low temperature reservoir 400 or may be disposed outside the low temperature reservoir 400 as shown in FIG. When the 1-MCP generator 100 is disposed outside the low-temperature storeroom 400, the 1-MCP generator 100 has a connection pipe 150 connecting the low-temperature storeroom 400 and the 1-MCP generator 100, The generated 1-MCP is introduced into the cold storage 400.

The crop storage box 200 is disposed inside the cold storage 400 and stores the crops. The crop storage box 200 may be structured such that the area of contact between the crops and the gasified 1-MCP is increased in all directions. The crop storage box 200 can be standardized so that bundles of boxes or crops containing crops can be arranged at regular intervals.

The cooling device 300 is disposed inside the low temperature storage 400 and regulates the internal temperature of the low temperature storage 400. Preferably, the cooling apparatus 300 can maintain the inside of the low-temperature reservoir 400 at -5 ° C to 10 ° C. Through this, crops can be stored at a constant temperature.

FIG. 3 is a block diagram illustrating a 1-MCP generator according to an embodiment of the present invention, and FIG. 4 is a schematic diagram illustrating a 1-MCP generator according to an embodiment of the present invention.

3 and 4, the 1-MCP generator 100 includes a main body 10, a heating unit 40, a fan 50, and a control unit 60. At this time, the 1-MCP generator 100 may further include a reaction vessel 70 and a power supply unit 80.

The main body 10 is a space in which the first inlet 20 and the second inlet 30 are formed and the first additive and the second additive are mixed and reacted to gasify the 1-MCP. Here, the first inlet 20 and the second inlet 30 are spaced apart from each other by a predetermined distance. Further, the main body 10 may be opened or closed with a hinge provided on one side thereof, or may be opened or closed in a sliding manner.

The first inlet (20) receives the first additive containing distilled water. Here, the first additive is a composition comprising 80% by weight to 98% by weight of distilled water and 2% by weight to 20% by weight of vitamin, preferably 95% by weight of distilled water and 5% by weight of vitamin Lt; / RTI > In this case, the first additive can use vitamin C, and vitamin C can be absorbed on the surface of the crop during the coating process to maintain freshness. The first inlet portion 20 is formed with a funnel-shaped first injection portion 21 into which a first additive is injected at one end.

At this time, the first injection part 21 may be connected to a first container (not shown) outside the main body 10. The first container may store a first additive, supply the stored first additive to the main body 10, and may include a first valve (not shown) between the first injection part 21 and the first injection part 21. Here, the first valve can be controlled to be opened and closed by the control unit 60. [

The second inlet 30 introduces a second additive containing 1-MCP. The second additive is a mixture of distilled water, 1-MCP in powder form, vitamin and fluorine. Preferably, the second additive controls the amount of 1-MCP in the powdered state depending on the amount of the crop to be coated with 1-MCP. At this time, vitamins can use vitamin C, and vitamin C can be absorbed on the surface of crops during coating process to maintain freshness. In addition, fluorine can be added to a very small amount to stabilize the composition. Here, the fluorine is an alkyl or aryl ammonium salt such as Bu ₄ NF, Pr ₃ NF, Me ₄ NF Et ₄ NF Pentyl ₄ NF, Hexyl ₄ NF, BnBu ₃ NF, BnPr ₃ NF, BnMe ₃ NF, BnEt ₃ NF, A flame, or an inorganic fluoride salt in the form of NaF, LiF or KF may be used. The second inflow part 30 is formed with a funnel-shaped second infusion part 31 into which a second additive is injected at one end.

At this time, the second injection part 31 may be connected to a second container (not shown) outside the main body 10. The second container may store a second additive, supply the stored second additive to the main body 10, and may include a second valve (not shown) between the second injection part 31 and the second injection part 31. Here, the second valve can be controlled to be opened or closed by the control unit 60. [

The second injection unit 31 is connected to the storage container 33 inside the main body 10. The storage container 33 is a container in which the second additive is temporarily stored, preferably a container having a capacity of 10 ml to 20 ml. The storage vessel (33) is provided with a control valve (35) at the bottom. The control valve 35 controls the flow rate of the second additive stored in the storage container 33, and can be controlled to be opened or closed by the control unit 60. That is, the flow rate of the second additive can be controlled to a double structure.

The heating unit 40 is provided on the bottom surface of the inside of the main body 10 to heat the first additive and the second additive. The heating section 40 may be formed in a flat plate shape and heated to 30 to 40 占 폚. At this time, the 1-MCP contained in the second additive is gasified due to the heating of the heating unit 40, and becomes a gaseous state.

Here, when the heating temperature of the heating unit 40 is less than 30 ° C, the amount of gas generated by the 1-MCP is so small that the coating process can not be effectively performed on the surface of the crop. When the heating temperature of the heating unit 40 exceeds 40 ° C , 1-MCP is easy to coat due to an increase in the amount of gas generated, but the coating time is reduced so that the life extension time of the crop can be shortened.

The fan 50 is provided at an upper portion of the main body 10 and allows the gasified 1-MCP to flow out of the main body 10. The fan 50 rotates the propeller so as to discharge the gasified 1-MCP to the outside due to the heating portion 40. At this time, the shape of the pro-peller can be formed such that the gas flows out from the inside of the main body 10.

The control unit 60 is provided in the main body and controls the inflow amount of the first additive and the second additive. The control unit 60 adjusts the flow rate of the first additive by controlling the opening and closing of the first valve of the first inlet 20 and adjusts the opening and closing of the second valve of the second inlet 30, Adjust the flow rate.

Here, the controller 60 may control when the second additive introduced into the second inlet 30 is mixed with the first additive. That is, the control unit 60 opens the control valve 35 at a time when the heating temperature of the heating unit 40 is 30 ° C to 40 ° C, and causes the second additive temporarily stored in the storage container 33 to flow out.

At this time, the control unit 60 controls the inflow amount such that the mixture of the first additive and the second additive contains 75 wt% to 95 wt% of the first additive and 5 wt% to 25 wt% of the second additive . Preferably, 90% by weight of the first additive and 10% by weight of the second additive may be used.

The control unit 60 controls the heating temperature of the heating unit 40 and controls the rotation of the fan 50. [ The controller 60 controls the heating temperature and the propeller rotation according to the inflow amount of the first additive and the second additive and the coating time. Preferably, the controller 60 controls the gasified 1-MCP to flow out of the main body 10 for 12 to 36 hours. More preferably, the control unit 60 can control the gasified 1-MCP to flow out of the main body 10 for 24 hours.

The reaction vessel 70 is provided inside the main body 10 and is disposed in contact with the upper portion of the heating section 40. The reaction vessel 70 is mixed with the first additive and the second additive, and the heat generated in the heating unit 40 is transferred to the mixed first additive and the second additive so that the 1-MCP is gasified. Therefore, the reaction vessel 70 can be formed of a metal material having high thermal conductivity. The bottom surface of the reaction vessel 70 is formed in the shape of a flat plate so that an area of the bottom surface of the reaction vessel 70 in contact with the top of the heating unit 40 becomes maximum. The reaction vessel 70 is inserted into the reaction vessel 70 when the side of the body 10 is opened before the process starts. When the side of the body 10 is opened after the process is finished, the reaction vessel 70 can be removed and washed. That is, the reaction vessel 70 is a structure for convenience of maintenance. In the absence of the reaction vessel 70, the first additive and the second additive can be mixed and heated inside the body 10.

The power supply unit 80 may include a power switch (not shown) and a power cable (not shown). The power switch is provided in the main body 10 to control ON / OFF of power. At this time, the power switch may be formed in a switch shape so that the user can easily control on / off of the power source. The power cable is provided in the main body 10 and can be connected to an external power source through a wire. The power cable may also be formed in battery form depending on the installation situation.

5 is a flowchart illustrating a 1-MCP generation method according to an embodiment of the present invention.

Referring to FIGS. 2 and 5, 1-MCP is produced by reacting 1-MCP, which increases the storage period of crops, with distilled water and gasifying the crops.

In step S510, the 1-MCP generator 100 introduces the first additive. The 1-MCP generator 100 introduces the first additive through the first inlet 20 and regulates the amount of the first additive introduced into the first valve 23 of the first inlet 20. Here, the first additive is a composition comprising 80% by weight to 98% by weight of distilled water and 2% by weight to 20% by weight of vitamin, preferably 95% by weight of distilled water and 5% by weight of vitamin Lt; / RTI > In this case, the first additive can use vitamin C, and vitamin C can be absorbed on the surface of the crop during the coating process to maintain freshness.

In step S530, the 1-MCP generator 100 heats the first additive. The 1-MCP generator 100 heats the first additive through the heating unit 40. At this time, the heating section 40 can be heated to 30 to 40 占 폚. Here, when the heating temperature of the heating unit 40 is less than 30 ° C, the amount of gas generated by the 1-MCP is so small that the coating process can not be effectively performed on the surface of the crop. When the heating temperature of the heating unit 40 exceeds 40 ° C , 1-MCP is easy to coat due to an increase in the amount of gas generated, but the coating time is reduced so that the life extension time of the crop can be shortened.

In step S550, the 1-MCP generator 100 introduces the second additive. The 1-MCP generator 100 introduces the second additive through the second inlet 30 and regulates the amount of the second additive introduced into the second valve 33 of the second inlet 30. Here, the second additive is a mixture of distilled water, 1-MCP in powder form, vitamin and fluorine. Preferably, the second additive controls the amount of 1-MCP in the powdered state depending on the amount of the crop to be coated with 1-MCP. At this time, vitamins can use vitamin C, and vitamin C can be absorbed on the surface of crops during coating process to maintain freshness. In addition, fluorine can be added to a very small amount to stabilize the composition.

At this time, the 1-MCP generator 100 can control the first valve 23 and the second valve 33 such that the composition ratio of the first additive and the second additive is 90:10.

In step S570, the 1-MCP generator 100 gasifies the 1-MCP included in the second additive. The 1-MCP generator 100 heats the mixed mixture of the first additive and the second additive by the heating unit 40, and in this process, the 1-MCP contained in the second additive is gasified into a gaseous state . At this time, gaseous 1-MCP contains not only 1-MCP but also vitamin components, so that crops can be supplied with vitamins in the process of coating crops.

In step S590, the 1-MCP generator 100 discharges the gasified 1-MCP to the outside of the main body 10. The 1-MCP generator 100 causes the gasified 1-MCP present in the main body 10 to flow out through the fan 50 to the outside. At this time, the 1-MCP generator 100 controls the rotation speed of the fan 50 according to the amount of the gasified 1-MCP, so that the coating time can be controlled to be 12 to 36 hours.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation in the embodiment in which said invention is directed. It will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the scope of the appended claims.

10: main body 20: first inlet
21: first injection part 30: second inlet part
31: second injection part 33: storage container
35: control valve 40: heating section
50: fan 60:
70: Reaction vessel 80: Power source
100: 1-MCP generator 150: connector
200: Crop storage box 300: Low temperature storage bin

Claims (8)

A first inlet portion into which a first additive containing distilled water flows and a second inlet portion into which a second additive containing 1-methylcyclopropene (1-MCP) is introduced;
A heating unit provided on a bottom surface of the main body and gasifying the 1-MCP by heating a mixture of the first additive and the second additive;
A fan provided on the main body to discharge the gasified 1-MCP to the outside of the main body; And
The control unit controls the flow rate of the first additive and the second additive, controls the heating temperature of the heating unit, controls the rotation of the fan, A controller for controlling the mixing of the first additive and the second additive;
And a 1-MCP generator. The method according to claim 1,
The first additive and the second additive being contained in the main body and being mixed with the first additive and the second additive, and heat To allow the 1-MCP to be gasified;
And a 1-MCP generator. The method according to claim 1,
The second inlet
A storage container in which the introduced second additive is stored; And
A control valve installed at a lower portion of the storage container to regulate the flow of the stored second additive;
And a 1-MCP generator for generating the 1-MCP. 3. The method of claim 2,
The main body includes:
Wherein one side of the side face is opened and closed to insert the reaction vessel into the inside. The method according to claim 1,
Wherein,
Wherein the mixture contains 75 wt% to 95 wt% of the first additive and 5 wt% to 25 wt% of the second additive. The method according to claim 1,
Wherein,
And controls the gasified 1-MCP to flow out of the main body for 12 to 36 hours. The method according to claim 1,
Wherein the first additive is a mixture of 80 wt% to 98 wt% of distilled water and 2 wt% to 20 wt% of vitamin,
Wherein the second additive is a mixture of distilled water, powdery 1-MCP, vitamin, and fluorine. Introducing a first additive containing distilled water into the body using a first inlet formed in the body;
Heating the introduced first additive using a heating unit provided on a bottom surface of the inside of the main body;
Introducing a second additive comprising 1-MCP into the body using a second inlet formed in the body;
Mixing the first additive and the second additive in the main body to gasify the 1-MCP; And
And discharging the gasified 1-MCP to the outside by using a fan provided on an upper portion of the main body,
Wherein the step of introducing the second additive into the body comprises:
Wherein the second additive is introduced at a time when the heating temperature is 30 ° C to 40 ° C.

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