JP2016185082A - Plasma sterilization extermination device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an agricultural plasma sterilization extermination device capable of fully ensuring the safety of operators against ozone generated with OH radicals.SOLUTION: The agricultural plasma sterilization extermination device includes: a frame structure 11 installed in a state across a direction orthogonal to the longitudinal direction of a cultivation shelf; a generation unit 21 mounted on the frame structure with a plasma reaction container 21a for generating OH radicals; covering means fitted to the frame structure and including a curtain for restricting diffusion of ozone originated from the OH radical generation unit; and ozone removal means 22 for decomposing and removing the ozone enclosed in the covering means.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a plasma sterilizing / disinfecting apparatus, and more particularly to a plasma sterilizing / disinfecting apparatus that uses a plasma discharge to generate hydroxyl radicals and uses the hydroxyl radicals to sterilize pathogens or pests attached to agricultural products.

  For example, in the field of agriculture, by using an appropriate amount of pesticides conventionally, crop pathogens and pests have been controlled, thereby increasing the efficiency of crop cultivation. However, in recent years, social adverse effects such as crops and residues on soil due to the use of agricultural chemicals have become a problem, and efforts to grow crops such as vegetables without agricultural chemicals have been repeated.

  Therefore, focusing on the use of hydroxyl radicals (hereinafter also referred to as OH radicals), which are highly effective in sterilization and pest control effects, in the agricultural field, OH radicals can be efficiently generated, causing pathogens and pests in crops. Patent Document 1 proposes a plasma sterilizing / disinfecting apparatus that can effectively eliminate the disinfectant.

  The plasma sterilizing / disinfecting apparatus disclosed in Patent Document 1 generates OH radicals having strong oxidizing power by introducing water mist or water droplets into, for example, air plasma. According to this, OH radicals having excellent bactericidal effects and pest control effects can be generated efficiently, so that sterilization of crops and soils or control of pests can be performed in a short time without using agricultural chemicals. It becomes possible.

International Publication No. WO2014 / 104350

According to the plasma sterilization extinguishing apparatus disclosed in Patent Document 1 described above, for example, water mist is introduced into the reaction vessel in which the electrode and the ground-side electrode are arranged, and a gas serving as plasma is also introduced from the gas supply unit. The In this state, by applying a predetermined high voltage between the electrode and the ground side electrode to cause a discharge in the reaction tube, OH radicals can be efficiently generated by the water mist and the plasma gas.
Therefore, using the plasma sterilizing / disinfecting apparatus including the reaction vessel, it is possible to realize a disinfecting operation for pathogenic bacteria or pests on agricultural products and the like.

By the way, in the above-described plasma sterilization control apparatus, plasma is generated by discharge in the reaction vessel, oxygen and water are decomposed by electrons in the plasma, and ozone (O ₃ ) is generated as a by-product.
Therefore, since this ozone is derived together with the OH radicals, it is necessary to take measures against ozone for the operator in order to use the above-described plasma sterilizing / disinfecting apparatus.

  The present invention has been made on the basis of the technical background described above, and an object of the present invention is to provide a practical plasma sterilizing / disinfecting apparatus in which measures against ozone are added to workers.

  A plasma sterilization and extermination apparatus according to the present invention, which has been made to solve the above-described problems, includes a frame structure installed at least above an object to be sterilized, and a plasma reaction vessel mounted on the frame structure. A hydroxyl radical generating unit; a covering means attached to the frame structure for limiting the diffusion of ozone from the generating unit; and the frame attached to the frame structure and confined in the covering means And ozone removing means for decomposing and removing ozone.

According to the plasma sterilizing / disinfecting apparatus according to the present invention, the hydroxyl radical generating unit including the plasma reaction vessel is mounted on at least the frame structure installed above the object to be sterilized.
Thereby, OH radicals can be supplied to the object to be sterilized from above the object to be sterilized. For example, without using chemicals such as agricultural chemicals, Disinfection can be done effectively.

On the other hand, the diffusion of ozone generated as a by-product by the hydroxyl radical generating unit is limited by the covering means attached to the frame structure.
Since the ozone trapped in the covering means is decomposed and removed by the ozone removing means, the operator can prevent the influence of the ozone as much as possible, and sufficiently ensure the safety of the worker. it can.

Here, it is preferable that the hydroxyl radical generating unit is configured to be movable with respect to the frame structure.
Thus, when the hydroxyl radical generation unit is configured to be movable with respect to the frame structure, the generation unit moves over the object to be sterilized while sterilizing the object to be sterilized. Or pests can be controlled.

Further, the object to be sterilized is a crop cultivated on a cultivation shelf, the frame structure is installed in a longitudinal direction of the cultivation shelf, and the hydroxyl radical generation unit is attached to the frame structure. It is desirable to be configured to be movable.
Thus, when the frame structure is installed in the longitudinal direction of the cultivation shelf and the hydroxyl radical generating unit is configured to be movable with respect to the frame structure, the frame structure is cultivated on the cultivation shelf. Also for crops, the generation unit can efficiently sterilize or pest control while moving above the object to be sterilized.
Therefore, the above-mentioned plasma sterilization control apparatus according to the present invention is a high-cultivation apparatus that, for example, targets crops such as strawberries and vegetables, or plants such as flowers, and raises the cultivation shelf at an appropriate height from the ground. It can be suitably introduced into the facility.

Further, the object to be sterilized is a crop cultivated on a cultivation shelf, the frame structure is formed in a gate shape, and the frame structure is in a direction perpendicular to the longitudinal direction of the cultivation shelf. It may be installed across the cultivation shelf, and either the frame structure or the cultivation shelf may be moved.
Thus, the frame structure is installed in a state straddling the cultivation shelf in a direction orthogonal to the longitudinal direction of the cultivation shelf, and either the frame structure or the cultivation shelf is configured to move. Therefore, even with respect to the crops cultivated on the cultivation shelf, sterilization or pest control can be efficiently performed while moving above the object to be sterilized.
Therefore, the above-mentioned plasma sterilization control apparatus according to the present invention is a high-cultivation apparatus that, for example, targets crops such as strawberries and vegetables, or plants such as flowers, and raises the cultivation shelf at an appropriate height from the ground. It can be suitably introduced into the facility.
In addition, a moving means such as a caster may be attached to the frame structure, and the frame structure may move with respect to the cultivation shelf. Alternatively, the cultivation shelf is configured to be movable by a transport device, and the cultivation shelf is You may comprise so that it may move with respect to a frame structure.

The covering means is preferably a curtain in which a flexible material is suspended, an air curtain formed by blowing gas, or a mist curtain formed by spraying liquid.
Diffusion of ozone can be limited by a curtain in which a flexible material is suspended, an air curtain formed by blowing gas, or a mist curtain formed by spraying a liquid.

Further, it is desirable that the ozone removing means is decomposed and removed by using a ventilation filter having a catalyst supported on a carrier.
Since ozone can be decomposed and removed by using a ventilation filter having a catalyst supported on a carrier and passing through the ventilation filter, the influence of the ozone on the operator can be suppressed as much as possible.

  In addition, it is desirable that the ozone removing means has the ventilation filter accommodated in a case in which a suction port and a discharge port are formed, and a suction / discharge fan is disposed in the suction port or the discharge port. By comprising in this way, ozone can be decomposed | disassembled and removed by making a ventilation filter pass efficiently.

  Furthermore, it is desirable that the suction port formed in the case is formed toward the inside of the covering means, and the discharge port formed in the case is formed toward the outside of the covering means. By comprising in this way, the air from which the ozone was removed can be discharged outside.

  ADVANTAGE OF THE INVENTION According to this invention, the practical plasma sterilization extermination apparatus which added the countermeasure against ozone with respect to an operator can be obtained.

It is the front view of the state which looked at the whole structure of the plasma sterilization extermination apparatus for agriculture concerning this invention toward the longitudinal direction of a cultivation shelf. It is the side view of the state which looked at the whole structure from the direction orthogonal to the longitudinal direction of a cultivation shelf. It is the schematic diagram which showed the basic composition of the production | generation unit which produces | generates a hydroxyl radical.

A plasma sterilizing / disinfecting apparatus according to the present invention will be described based on an embodiment shown in the drawings. In this embodiment, a case will be described in which the plasma sterilization control apparatus is used in an upland cultivation facility for cultivating a cultivation shelf on which seedlings such as strawberries are house-grown at an appropriate height from the ground. .
As shown in the figure, the cultivation shelf 1 used for the tall cultivation is installed in a long shape so as to be in a substantially horizontal state at an appropriate height from the ground using, for example, an iron pipe 2 or the like. And in the cultivation shelf 1 installed in the elongate shape, many cultivation trays 3 are arrange | positioned along a longitudinal direction, A culture medium is accommodated in this cultivation tray 3, This is seedling S of a crop (strawberry). Is planted.

  The plasma sterilization and extermination apparatus is provided with a frame structure 11 that is installed in a state straddling a direction orthogonal to the longitudinal direction of the cultivation shelf 1. As shown in FIG. 1, the frame structure 11 is arranged in a horizontal state in which the cultivation shelf 1 is at the center and the left and right frame bodies 12 are vertically arranged on both outer sides and the left and right frame bodies 12 are connected. And a connecting member 13 made of a metal angle member or a metal panel.

The left and right frame bodies 12 are each assembled in an isosceles trapezoidal shape as shown in FIG. 2, and casters 14 are attached to the respective ends of the lower base of the isosceles trapezoidal shape. . That is, the casters 14 are similarly attached to both the left and right frame bodies 12, and therefore the frame structure 11 uses four casters 14 in a state of straddling the long cultivation shelf 1. Thereby, it can move along the longitudinal direction of the cultivation shelf 1.
That is, the frame structure 11 is formed in a so-called gate shape, and the frame structure 11 is installed in a state straddling the cultivation shelf 1 in a direction orthogonal to the longitudinal direction of the cultivation shelf 1. 11 is comprised so that it can move along the longitudinal direction of the cultivation shelf 1 in the state straddling the elongate cultivation shelf 1.

On the other hand, as shown in FIG. 2, the OH radical generating unit 21 and the case constituting the ozone removing means 22 are arranged so as to hang down from the upper bottom of the frame 12 assembled in an isosceles trapezoidal shape. Has been.
A transparent resin plate 15 is attached between the OH radical generating unit 21 and the ozone removing means 22 so as to correspond to each frame body 12. Thereby, the worker P shown in FIG. 1 can see through the transparent resin plate 15 of the crop seedling S planted in the cultivation tray 3 immediately below the OH radical generation unit 21.

Further, as shown in FIG. 2, the curtain 16 is attached to the frame structure 11 and hangs down so as to cover the front and rear of the left and right transparent resin plates 15. The front and rear curtains 16 form an enclosure with the left and right transparent resin plates 15 and function to efficiently apply the OH radicals from the OH radical generation unit 21 to the crop seedlings S located immediately below the curtains 16.
Further, the front and rear curtains 16 surrounding the OH radical generation unit 21 are enclosed by the left and right transparent resin plates 15 to cover the ozone (O ₃ ) described later generated from the OH radical generation unit 21. It also serves as a part of

  FIG. 3 is a schematic diagram showing a basic configuration of the OH radical generation unit 21. In the OH radical generation unit 21, a reaction vessel 21a made of an insulating material such as quartz glass is arranged vertically, and a water mist supply pipe 21b formed of a metal material serving as an electrode is arranged in the reaction vessel 21a. Yes. The water mist supplied from the water mist supply source 21c is sent out into the reaction vessel 21a via the supply pipe 21b.

Further, gas (in this example, air) is supplied into the reaction vessel 21a by a blowing means such as a fan or a compressor as the gas supply source 21d.
A coiled ground side electrode 21e is wound around the outside of the reaction vessel 21a, and a high voltage power source is provided between the ground side electrode 21e and the water mist supply pipe 21b serving as the electrode. 21f is connected.

  With this configuration, a discharge occurs between the tip of the water mist supply pipe 21b serving as an electrode and the ground side electrode 21e, and the gas (atmosphere) sent into the reaction vessel 21a is in a plasma state. The water mist supplied from the water mist supply pipe 21b is introduced into the air plasma, so that OH radicals are generated in the reaction vessel 21a, and the OH radicals react as indicated by the white arrows. Derived from the lower end of the container 21a.

  In this embodiment, there are three reaction vessels 21a, and the frame structure is positioned directly above the crop (strawberry seedling S) arranged on the cultivation shelf 1 as shown in FIG. 11 are attached in a state of being arranged horizontally. The constituent elements other than the plasma reaction vessel 21a shown in FIG. 3 constituting the OH radical generation unit 21 are the same as the panel members (the same as the OH radical generation unit 21) arranged above the three reaction vessels 21a. (Indicated by the reference numeral).

Incidentally, ozone (O ₃ ) is generated in the reaction vessel 21a of the OH radical generation unit 21 together with the generation of the OH radical. In order to avoid the adverse effect on the operator P due to the ozone, the plasma sterilizing and extinguishing apparatus is provided with an ozone removing means 22.
The ozone removing means 22 is accommodated in a case (indicated by the same reference numeral as the ozone removing means 22) formed in an L shape as shown in FIG. The left and right frame bodies 12 are respectively attached.

  The horizontal portion of the L-shaped case 22 is disposed toward the center side of the frame structure 11 at the lower end portion of the transparent resin plate 15 described above, and a suction port 22a is formed at the tip thereof. Therefore, the suction port 22a is arranged at a position slightly below the cultivation shelf 1. The vertical portion of the L-shaped case 22 is attached to the frame structure 11 along the outer side of the transparent resin plate 15, and a discharge port 22b is formed at the top end portion of the vertical portion.

That is, the suction port 22a of the L-shaped case 22 is formed toward the inside of the transparent resin plate 15 and the curtain 16 forming the covering means, and the discharge port 22b of the L-shaped case 22 forms the covering means. It forms toward the outside of the transparent resin plate 15 and the curtain 16 and above the suction port 22a.
In this embodiment, a suction / discharge fan 22c is disposed in a vertical portion of the case 22 immediately below the discharge port 22b, and a ventilation filter is provided in the vertical portion of the case 22 immediately below the suction / discharge fan 22c. 22d is accommodated.

  According to the ozone removing means 22 described above, the ozone coming down from the transparent resin plate 15 and the curtain 16 is efficiently sucked from the suction port 22a by driving the suction / discharge fan 22c disposed in the outer case. be able to. The ozone sucked into the case can be decomposed and removed through the ventilation filter 22d and discharged to the outside of the covering means by the transparent resin plate 15 and the curtain 16 through the discharge port 22b.

  In addition, as the ventilation filter 22d used for the ozone removing means 22 described above, for example, a honeycomb carrier having inorganic fiber or aluminum foil or the like as a skeleton and supporting manganese dioxide or the like as a catalyst is used. According to this, it is possible to use a catalytic decomposition method in which ozone is effectively decomposed and removed by a catalyst, and it is possible to set the running cost as an ozone removing means at a low cost.

  According to the plasma sterilization control apparatus according to the present invention described above, it is possible to effectively perform sterilization or pest control action on crops without using agricultural chemicals. Furthermore, it is possible to sufficiently ensure the safety of workers against ozone generated with OH radicals.

In the above-described embodiment, a curtain in which a flexible material is suspended is used as a covering means for limiting the diffusion of ozone generated together with OH radicals. Instead of this, an air curtain formed by blowing out gas can be used, and a mist curtain formed by spraying liquid can also be used.
Moreover, as an example of utilizing the catalytic decomposition method as a means for decomposing and removing ozone confined in the covering means, a known ultraviolet irradiation method can be used instead of the catalytic decomposition method.

  Furthermore, in the above-described embodiment, the frame structure 11 is configured to move in the longitudinal direction of the cultivation shelf 1 in a state of straddling the cultivation shelf 1 in one row, but this has two or more rows. By setting it as the wide frame structure 11 which can straddle the cultivation shelf 1 of multiple rows, it becomes possible to provide the plasma sterilization extermination apparatus which improved work efficiency.

  In addition, in the said embodiment, although demonstrated about the case where seedlings, such as a strawberry, were applied to the cultivation shelf by which house cultivation was carried out, this invention is not limited to this, It can be applied to various objects such as agricultural products, plants such as flowers and trees, and marine products such as seafood.

  In the embodiment, the frame structure is formed in a so-called gate shape, and the frame structure is installed in a state straddling the cultivation shelf in a direction perpendicular to the longitudinal direction of the cultivation shelf, Although the said frame structure demonstrated the case where it moves along the longitudinal direction of the said cultivation shelf, it comprises the said cultivation shelf so that a movement is possible, and the said cultivation shelf moves with respect to a frame structure. It may be configured.

In the present invention, it is not necessary to form the frame structure in a so-called gate shape, and a rail-like frame structure is installed above the object to be sterilized, and the frame structure is The generation unit may be movably attached.
Moreover, it is preferable that the rail-shaped frame structure extends in the longitudinal direction of the cultivation shelf, and the hydroxyl radical generation unit is configured to be movable with respect to the frame structure.

DESCRIPTION OF SYMBOLS 1 Cultivation shelf 2 Iron pipe 3 Cultivation tray 11 Frame structure 12 Frame 13 Connection material 14 Caster 15 Transparent resin plate (covering means)
16 Curtain (covering means)
21 OH radical generation unit 21a Plasma reaction vessel 21b Water mist supply pipe (electrode)
21c Water mist supply source 21d Gas supply source 21e Earth side electrode 21f High voltage power supply (high frequency power supply)
22 Ozone removal means (outer case)
22a Suction port 22b Discharge port 22c Suction / discharge fan 22d Ventilation filter P Worker S Crop seedling

Claims (8)

A frame structure installed at least above the object to be sterilized;
A hydroxyl radical generation unit comprising a plasma reaction vessel mounted on the frame structure;
Covering means attached to the frame structure for limiting the diffusion of ozone from the generating unit;
Ozone removing means attached to the frame structure and decomposing and removing the ozone trapped in the covering means;
A plasma sterilization and extinguishing apparatus comprising:   The plasma sterilization extinguishing apparatus according to claim 1, wherein the hydroxyl radical generating unit is configured to be movable with respect to the frame structure. The object to be sterilized is a crop cultivated on a cultivation shelf,
The frame structure is installed in the longitudinal direction of the cultivation shelf,
The plasma sterilization extinguishing apparatus according to claim 1, wherein the hydroxyl radical generating unit is configured to be movable with respect to the frame structure. The object to be sterilized is a crop cultivated on a cultivation shelf,
The frame structure is formed in a gate shape, and the frame structure is installed across the cultivation shelf in a direction orthogonal to the longitudinal direction of the cultivation shelf,
The plasma sterilization extermination device according to claim 1, wherein either the frame structure or the cultivation shelf moves.   The said covering means is a curtain in which a flexible material is suspended, an air curtain formed by blowing gas, or a mist curtain formed by spraying liquid. Plasma disinfection device.   2. The plasma sterilizing and extinguishing apparatus according to claim 1, wherein ozone is decomposed and removed by using a ventilation filter having a catalyst supported on a carrier as the ozone removing means.   7. The ozone removing means is characterized in that the ventilation filter is accommodated in a case in which a suction port and a discharge port are formed, and a suction / discharge fan is disposed in the suction port or the discharge port. The plasma sterilization extermination device described in 1.   The suction port formed in the case is formed toward the inside of the covering means, and the discharge port formed in the case is formed toward the outside of the covering means. 7. The plasma sterilization extermination device described in 7.

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