KR102447036B1 - Fumigation Apparatus - Google Patents

Abstract

In the present invention, a fumigation apparatus comprises: a coil unit wound in a coil form to allow a fumigant and carbon dioxide coming out from a storage tank in which the fumigant in a liquid state and carbon dioxide in a liquid state are stored together to pass through; and a heater unit heating the heating medium oil. The heat of the heating medium oil heated by the heater unit is transferred to the coil unit, and the fumigant and carbon dioxide passing through the inside of the coil unit are vaporized and discharged as fumigation gas, and by arranging a plurality of multi-stage coil units inside and outside in the form of concentric circles, and arranging the heater unit in the center of the coil unit, the heat transfer efficiency is improved and space utilization is maximized.

Description

Fumigation Apparatus

The present invention relates to a fumigation apparatus of a heat transfer method through thermal oil, and more particularly, when fumigation is carried out by importing fruits or vegetables, etc. It relates to a fumigation device that can increase efficiency compared to the case of use and maximize heat exchange and space utilization through arrangement of a coil part and a heater part.

When importing agricultural products, wood products, fruits, vegetables, etc., according to the import and export plant quarantine and disinfection treatment regulations, the relevant imported and exported plants must be inspected for pests and treated by fumigation, heat treatment, and drug immersion.

Fumigation means that after placing agricultural products in a space such as a warehouse, vaporizing a liquid fumigant into a gaseous state, and spraying a fumigant with a high-pressure inert gas to kill pests and pests.

Methyl bromide products based on MB as a fumigant for wood, Epifume or Vivakill products based on PH3 (hydrogen phosphine, phosphine) for grains and tobacco, and EF (ethyl formate) for bananas, etc. Vapormate products are mainly used, and nitrogen is mainly used as an inert gas.

However, since the fumigant contains toxic substances harmful to the human body, in order to carry out fumigation and disinfection, the requirements prescribed in the disinfection treatment standards must be satisfied. Fumigation must be carried out in the presence of a control engineer with certain qualifications, and there are restrictions on the treatment temperature, treatment time, and amount of fumigant for fumigation.

According to the conventional fumigation method, the fruit box is partially opened and loaded in the warehouse, the fruit box is wrapped with a tent and a plastic sheet, and a gaseous fumigant is sprayed inside the tent to perform fumigation for a certain period of time.

In order to make a liquid fumigant into a gaseous state, water is boiled with a burner, and fumigation gas is produced through heat exchange between hot water and a liquid fumigant, and this is sprayed into the inside of a tent or the like. Vapormate products used for fumigation such as bananas, EF (ethyl formate) vaporized through heat exchange with hot water boiling at 100 °C because the vaporization temperature was about 57 °C.

This method is quite conventional, and the point is that water has to be boiled and filled as much as it evaporates, there is a risk of fire due to use of fire, and heat exchange efficiency is not very high because of using hot water, and it may cause burns to the operator. There was a problem in that it was difficult to use the fumigant vaporized at a temperature higher than that due to heat exchange with water at 100°C.

In order to solve this problem, the technique disclosed in FIG. 1 has been developed. 1 is disclosed in Korean Patent No. 10-1416299, a vaporizer body 600 in which water is stored, an electric heater 610 provided in the lower portion of the vaporizer body 600 to heat water, a plurality of An inlet valve 510 connected to the high-pressure gas cylinder 500 to introduce a fumigant into the carburetor body 600, an inlet header 520 that integrates the inlet valve 510 and connects to the carburetor body 600, the carburetor A heating pipe 570 built into the body 600 and heated by high-temperature water, an outlet valve 550 provided on one side of the carburetor body 600 to discharge vaporized fumigation gas, the carburetor body 600 ) and the outlet header 540 for connecting each outlet valve 550 is disclosed.

On the other hand, the technology disclosed in FIG. 2 is also a conventional one, which includes a device body 110 filled with thermal oil, an inner housing 150 disposed in the device body 110, and a fumigant filled in the fumigant filling space. A heater 140 for heating the filled fumigant to generate a fumigation vaporized material, and a non-explosive gas tank 170 provided on the outside of the device body, wherein the inner housing 150 is within the device body 110 . discloses a configuration in which the diameter becomes narrower toward the heater side.

However, this method replaces the conventional method of boiling water with a burner with only an electric heater method, and the problem of separately preparing gas and liquid fumigants, and heat exchange efficiency because the liquid fumigant in the barrel is heated through heat exchange There was still a problem that this was not so high.

In addition, due to the installation of the heater, the overall volume is increased, and the heat exchange efficiency between the thermal oil and the fumigant is not high, so there are quite a number of problems such as the need to enlarge the device in order to increase the efficiency.

(Prior Art 001) Registered Patent Publication No. 10-1416299

(Prior Art 002) Registered Patent Publication No. 10-1441653

The present invention is to solve the problems of the prior art described above, and the liquid fumigant and gas are used as one, not separate, to efficiently make fumigation gas, and to heat the heating medium oil and the arrangement of the coil part through which the fumigant passes. The purpose of this is to provide a fumigation device that can increase heat exchange efficiency and maximize device utilization.

In order to solve the above problems, the present invention includes a coil part wound in a coil shape so that the fumigant and carbon dioxide from a storage tank in which a fumigant in a liquid state and carbon dioxide in a liquid state are stored together, and a heater part for heating the heating medium, Provided is a fumigation device in which the heat of the thermal oil heated by the heater unit is transferred to the coil unit, and the fumigant and carbon dioxide passing through the coil unit are vaporized and discharged as a gas,

In the present invention, it is preferable that the coil part wound in the coil shape is positioned in the vertical direction, and the fumigant and carbon dioxide flow in the vertical direction while rotating in the horizontal direction along the coil shape.

In addition, in the present invention, a plurality of coil parts wound in a coil shape form a concentric circle, and it is preferable that the innermost coil part is located inside the outermost coil part.

In addition, according to the present invention, it is preferable that the heater unit is positioned in the vertical direction, and the upper 1/3 is not heated and the remaining 2/3 is heated based on the length in the vertical direction.

The fumigation device of the present invention uses a liquid fumigant and a liquid carbon dioxide contained in the storage bin, so that the inert gas in the gaseous state and the liquid fumigant contained in the storage bin are not separately used, thereby simplifying the fumigation operation. .

In addition, by arranging the plurality of multi-stage coil units inside and outside in a concentric circle shape and arranging the heater unit at the center of the coil unit, heat transfer efficiency can be increased and space utilization can be maximized. In addition, it can be used as a fumigant that vaporizes at a temperature of 100° C. or higher using heat-retaining oil, so there is no restriction on the fumigant.

However, the effect of the present invention is not limited to such verbal descriptions, and includes all things that those skilled in the art can infer through the present invention.

1A and 1B are diagrams of a vaporization apparatus using a conventional electric heater.
Figure 2 is a schematic diagram of a fumigation device according to an embodiment of the present invention.
3 is a view of a coil unit mounted on a fumigation device according to an embodiment of the present invention.
4 is a top perspective view of a fumigation device according to an embodiment of the present invention.
5 is an external assembly view of a fumigation device according to an embodiment of the present invention.

Embodiments of the present invention will be described with reference to the accompanying drawings. The examples are provided to easily explain the present invention, and the present invention is not limited to these examples. The terminology used in the present application is used to describe a specific embodiment, and “includes” or “has”, etc. The term means that the composition, etc. exists.

2 is a schematic diagram of a fumigation apparatus according to an embodiment of the present invention is shown, and will be described based on this.

Under a certain pressure in the reservoir 600, liquid carbon dioxide and liquid fumigant are stored. Carbon dioxide becomes a liquid at -50 ℃ or less depending on the pressure, and since the fumigant is usually in a liquid state, the storage tank is -50 ℃ or less and at the pressure at which the carbon dioxide is liquefied, both the fumigant and carbon dioxide are liquefied.

Conventionally, a method of spraying vapormate in atmospheric pressure liquid state using high-pressure nitrogen was used. There was a risk of fire due to heat, and the present invention solves all of these problems by using liquid carbon dioxide and a fumigant.

The present invention uses carbon dioxide in a liquid state. In the case of nitrogen, the liquefaction temperature is -196° C. or less, so the present invention uses carbon dioxide having a higher liquefaction temperature than that.

The reservoir in which the liquid fumigant and carbon dioxide are stored, in combination or disassembly with the fumigation device, is made through the quick coupler 170 . The reservoir 600 has a discharging pipe, and the fumigation device has an inflow pipe, and there are male and female parts at each end of the discharging pipe and the inflow pipe to enable quick coupler coupling.

The quick coupler 170 is a one-touch coupler and is used to connect the fumigant and carbon dioxide in a liquid state under a certain pressure to the reservoir 600 and the fumigation device. Since the storage tank 600 needs to be replaced when it is used up, it can be easily replaced when using a quick coupler, and when a fumigation device is not used, the fumigation device can be separated from the storage tank 600 and placed there is an advantage. .

The fumigation device 100 of the present invention is a coil part wound in a coil shape so that the liquid fumigant and carbon dioxide from the storage bin 600 pass inside the frame 400 in the form of a square column or column having a thermal oil therein ( 200) is present, and includes a heater unit 300 for heating the thermal oil.

The heat of the thermal oil heated by the heater unit 300 is transferred to the coil unit 200, and by the heat, the fumigant and carbon dioxide passing through the interior are vaporized and discharged as fumigation gas.

The coil unit 200 wound in the coil form is a form in which a plurality of circular coils are vertically stacked, and the fumigant and carbon dioxide gradually flow in the vertical direction while rotating in the horizontal direction along the coil form.

It is preferable that a plurality of coil units 200 wound in a coil form exist in consideration of thermal efficiency and vaporization, and are preferably located in concentric circles. 3 and 4 exemplify the existence of three coil units 200 , when described using them, the external coil unit 210 , the intermediate coil unit 220 , and the internal coil unit 230 form concentric circles with each other. The intermediate coil unit 220 is located in the outer coil unit 210 , and the inner coil unit 230 is located in the intermediate coil unit 220 .

The diameters of the outer coil unit 210 , the intermediate coil unit 220 , and the inner coil unit 230 are D1 > D2 > D3 in D1 , D2 , and D3 , respectively. In FIG. 3 , three coil units 200 are shown separately, which is for explanation, and the three coil units 200 are superimposed on each other as in FIG. 2 .

When explaining the flow of the fumigant and carbon dioxide in the coil unit 200, the liquid fumigant and carbon dioxide are supplied through the pipe 110 on the upper portion of the frame 400 in the form of a square column or column in which thermal oil is stored, through the external coil unit ( 210) is introduced into the upper part,

Thereafter, while rotating in the horizontal direction along the coil shape at the upper portion of the external coil unit 210, it gradually flows in the vertical direction and reaches the lower portion. As shown in FIG. 4 , the lower portion of the external coil unit 210 is connected to the lower portion of the intermediate coil unit 220 , so that the fumigant and carbon dioxide rotate in a horizontal circular direction along the shape of the intermediate coil unit 220 . rise again in the vertical direction.

And since the upper part of the intermediate coil part 220 and the internal coil part 230 is connected, the fumigant and carbon dioxide descend in a vertical direction while rotating in a horizontal circular direction along the shape of the internal coil part 230 . And it is discharged immediately after the descent is completed, or is discharged as fumigation gas through the discharge pipe 120 from the upper portion of the frame 400 as shown in FIGS. 4 and 5 by ascending.

In the present invention, the liquefied fumigant and liquefied carbon dioxide are vaporized through a multi-stage coil unit forming concentric, a secondary intermediate coil unit is located in the primary external coil unit, and a tertiary internal coil unit is located in the secondary intermediate coil unit, and the primary In the coil part, the fumigant and carbon dioxide move from top to bottom, in the secondary coil from bottom to top, and in the tertiary coil from top to bottom, and the last thing on the bottom comes up, heat-exchanging enough, and through this, liquid fumigant and liquid carbon dioxide It is vaporized and discharged as fumigation gas.

In addition, since the vaporization temperature of carbon dioxide is much lower than that of the fumigant, the carbon dioxide is vaporized first, followed by the fumigant. It can also be said that the carbon dioxide vaporized first serves to spray the vaporized fumigant later.

The reason why the fumigant and carbon dioxide move in this way is because sufficient heat is applied to the liquefied fumigant and the liquefied carbon dioxide, heat transfer is maximized to increase the efficiency, and the space utilization of the fumigator is excellent.

The present invention includes a heater unit 300 for heating the thermal oil, and the heater unit 300 is preferably installed in a vertical direction. This can be said to be in the same direction as the direction in which the fumigant and carbon dioxide move, and it can be said to maximize heating efficiency by heating the thermal medium as a whole in the vertical direction.

In the present invention, as shown in FIG. 2 , by positioning the heater unit 300 in the vertical direction inside the cylinder of the coil unit 230 which is the innermost of the coil unit 200, the heating efficiency of the heating medium is increased. and maximize space utilization.

On the other hand, although two heaters are shown in FIG. 3, the quantity is determined in consideration of the capacity of the heater and the size of the fumigation apparatus, and is not necessarily limited to two.

Thermal oil is contained in the frame portion 400 of the present invention, but it cannot be contained in the entirety due to overflowing or boiling phenomenon and connection with an external pipe, etc., only the lower 2/3 is contained. Accordingly, in the heater unit 300, it is preferable that the upper 1/3 is not heated on the basis of the vertical length, and only the remaining 2/3 is heated so that heat is transferred to the thermal medium.

In addition, the present invention may be provided with a level switch 150 that sounds a warning according to the water level by checking the height of the oil, which is a thermal medium.

The method of operation of the present invention will be described.

The liquid fumigant and carbon dioxide from the reservoir 600 are introduced into the fumigation device through the flow control valve 160 .

The fumigation device of the present invention is provided with a pressure gauge 130 on the inlet pipe 110 and a thermometer 170 on the outlet pipe 120, and is installed in the inlet pipe 110 as a rear end of the flow rate control valve 120 during initial operation. While watching the state of the pressure gauge 130 and the thermometer 170 installed in the outlet pipe 120 of the vaporization fumigation device, the flow control valve 120 is adjusted.

Since carbon dioxide and fumigant are liquid in the initial operating state, when the opening degree of the flow control valve 120 is opened a lot, the liquid carbon dioxide and fumigant can be discharged and sprayed on fruits, etc., so to prevent such a phenomenon, the opening degree of the flow control valve 120 It is to adjust according to the pressure of the pressure gauge and the temperature of the thermometer in the state of making it small.

Specifically, through the control of the flow control valve 120, finally, the pressure in the pressure gauge 130 is approximately 10 kgf / ㎠, and the temperature is adjusted to the vaporization temperature according to the fumigant. In the case of EF (ethyl formate), it can be 57 ° C. have. Since the temperature of the thermometer 140 is important among the pressure gauge 130 and the thermometer 140 , if the temperature is correct, the pressure may be appropriately increased or decreased.

This adjustment can be done manually by the operator while looking at the pressure gauge 130 and the thermometer 170 , but it is a switch method that emits a signal to the pressure gauge 130 and the thermometer 170 , and the signal is transmitted from the flow control valve 120 . It can also be done in an automatic way by receiving and adjusting the opening degree.

The fumigation device according to the present invention has insecticidal, sterilization, herbicidal effects, etc., and is sprayed after vaporization by using liquefied carbon dioxide and a fumigant together. be able to do

An assembly in which each component of the present invention is combined will be described.

4 and 5 are assembly views according to the vaporizer of the present invention. The frame part 400 is located at the outermost part, the liquid fumigant and carbon dioxide are introduced in the upper side of the side, and the fumigation gas outlet is located in the upper part of the other side,

There is a tank containing thermal oil in the frame part 400, and a tank having a rectangular or cylindrical shape may be located in the frame part 400, and FIG. 4 shows a separate cylindrical shape inside the frame part 400 of the square pillar. Shows an example where the tank is located,

An operation panel is positioned on the front of the frame unit 400 to display the temperature of the thermal oil, the temperature of the fumigation gas, and the like, and a heater on-off switch, etc. may also be located to operate the fumigation device of the present invention.

The fumigation device of the present invention achieves maximum space utilization through the arrangement of the heater unit and the coil unit, and may be used not in a fixed type but as a movable type, and for this purpose, a wheel may be mounted on the fumigation unit.

The present invention is not limited by the disclosed embodiments and the accompanying drawings and can be variously modified by those skilled in the art within the scope without departing from the technical spirit of the present invention. In addition, the technical ideas described in the embodiments of the present invention may be implemented independently, or two or more may be implemented in combination with each other.

100: fumigation device 110: inlet pipe
120: outlet pipe 130: pressure gauge
140: thermometer 150: level switch
160: flow control valve 170: quick coupler
200: coil unit 210: external coil unit
220: middle coil part 230: internal coil part
300: heater unit 400: frame unit

Claims (5)

delete delete a coil unit 200 wound in a coil shape so that the fumigant and carbon dioxide from the storage tank in which the liquid fumigant and the liquid carbon dioxide are stored together; and a heater unit 300 for heating the thermal oil.
The heat of the thermal oil heated by the heater unit 300 is transferred to the coil unit 200, and the fumigant and carbon dioxide passing through the coil unit 200 are vaporized and discharged as fumigation gas,
The coil unit 200 wound in the coil shape is positioned in a vertical direction, so that the fumigant and carbon dioxide flow in the vertical direction while rotating in the horizontal direction along the coil shape,
A plurality of coil units 200 wound in the coil shape form concentric circles, and the innermost coil unit 230 is located inside the outermost coil unit 210 . 4. The method of claim 3,
The heater unit 300 is a fumigation device, characterized in that it is positioned in the vertical direction 5. The method according to claim 4,
Based on the vertical length of the heater unit 300, the upper 1/3 is not heated, and the other 2/3 is heated.

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