KR20140132268A - medicinal fluid spray - Google Patents

Abstract

The present invention relates to a spray for chemicals having a novel structure. According to the present invention, a chemicals supply pipe for chemicals supply can be washed with ease. According to the spray for chemicals of the present invention, a water supply means (60) is connected to a chemicals supply pipe (41), water is supplied to the chemicals supply pipe (41) via a water supply pipe (61) after spray of chemicals is completed, and the chemicals remaining in the chemicals supply pipe (41) and a spray nozzle (30) can be washed. Accordingly, clogging of the chemicals supply pipe (41) or the spray nozzle (30) due to hardening of the chemicals remaining in the chemicals supply pipe (41) or the spray nozzle (30) can be prevented. The chemicals sprayed from the spray nozzle intersects and clashes with the each other and chemicals particles are atomized so that a spray distance can be lengthened and uniform spraying can be performed. Opening and closing of an electric valve is controlled by a program-executing controller, and thus spray of chemicals, water-based washing, and air drying can be performed alternately even during a spraying operation as well as after spraying operation completion. Also, ozone and carbon dioxide can be sprayed along with the chemicals.

Description

Medicinal fluid spray}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a chemical liquid sprayer of a novel structure capable of easily cleaning a chemical liquid supply pipe to which a chemical liquid is supplied.

Generally, when cultivating a crop in a large-scale vinyl house, a chemical solution such as pesticide or nutrient is sprayed at a proper time by using a chemical sprayer as shown in a plurality of precedent documents including a registered utility model 20-0192487 , Preventing the occurrence of insect pests in the crops, and providing proper nutrition to the crops.

Generally, a conventional chemical liquid sprayer is provided with a spray nozzle for spraying a chemical liquid and a chemical liquid tank connected to the spray nozzle through a chemical liquid supply pipe, so that the chemical liquid stored in the chemical liquid tank is supplied to the spray nozzle through the chemical liquid supply pipe and sprayed. However, in the conventional chemical liquid sprayer having such a constitution, there is a problem that the chemical liquid supply pipe and the spray nozzle are clogged by the chemical liquid remaining inside the chemical liquid supply pipe and the spray nozzle after the chemical liquid spray is finished. A new method for solving these problems has become necessary.

On the other hand, in recent years, a chemical liquid sprayer using a spray type spray nozzle in which an air compressor 50 is connected to a spray nozzle other than a chemical liquid supply pipe via a gas engine 51 is widely used. When the high-pressure air is supplied to the spray nozzle through the air supply tube 51, the chemical solution sprayer sucks the chemical solution inside the chemical liquid tank by the negative pressure generated as the air flows inside the spray nozzle, Is mixed with air inside the nozzle and is injected at a high pressure through the injection nozzle.

Even if the chemical liquid is sprayed by the high-pressure air, since the chemical liquid spraying operation using the chemical liquid sprayer is continuously performed for several hours (for example, 3 to 5 hours), it is possible to completely prevent accumulation of the chemical liquid in the chemical liquid supply pipe and the spray nozzle I can not. As the spraying operation proceeds, the amount of the chemical solution residue accumulated in the chemical liquid supply pipe and the spray nozzle is increased. If it is left to dry without removing it in time, it will narrow or obstruct the liquid supply pipe or the nozzle hole, thereby giving a serious hindrance to the subsequent use.

To prevent this problem, the spray nozzle is simply cleaned after spraying, but it is not a fundamental solution to the problem. Particularly, in the case of a chemical solution diluted with water in the water, the chemical powder clogged the spray nozzle due to the spray which lasted for a long time. The problem of clogging of the injection nozzle can occur during spraying, so it can not be solved only by "washing after use".

In the case of spraying a chemical into a vinyl house, it is necessary to spray the entire inside of the house at a time. Therefore, it is preferable to spray the medicine sprayed from the chemical liquid sprayer as far as possible. If the size of injected drug particles is large, they can not fly away because of their weight. It is necessary to make the particle size of the sprayed drug as small as possible.

On the other hand, carbon dioxide (CO ₂ ) is a necessary factor for photosynthesis of plants. When a sufficient amount of carbon dioxide is supplied to crops, the thickening of the foliage and the absorption of nutrients are improved. It has been known that it has effects such as increase of flowering and sharpness, prolongation of cut flower life, and can improve early harvest and quality due to increase of photosynthesis amount, decrease pests and reduce use of pesticide. The required CO ₂ requirement for plants to achieve sufficient photosynthesis is known to be about 1,000 to 1,500 ppm, which causes plant growth to be retarded when CO _{2 is} inadequate, causing deterioration in yield and yield. Crops inside a sealed vinyl house consume a lot of CO ₂ in a short time during photosynthesis. Therefore, it is necessary to supply CO ₂ effectively to crops in greenhouses. Although a device for separately supplying CO ₂ is commercially available, the cost of purchasing and maintenance is high. If the chemical spray and the supply of CO ₂ can be carried out simultaneously through the chemical sprayer, it will be beneficial to the farmers in terms of cost and working efficiency.

Ozone (O ₃ ) also has a germicidal function against bacteria and fungi which are harmful to crops, so that it is desirable to supply an appropriate amount. It is effective to inject this ozone into the vinyl house together with the chemical solution spray as in the case of carbon dioxide.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a chemical liquid sprayer having a novel structure that can easily wash a chemical liquid supply pipe and a spray nozzle to which chemical liquid is supplied by water.

In particular, the present invention can be used to wash water of the chemical liquid supply pipe and the spray nozzle during the chemical liquid spraying operation, and after the completion of the chemical liquid spraying operation, the chemical liquid supply pipe or the spray nozzle is blocked It is another object of the present invention to provide a chemical liquid sprayer.

It is another object of the present invention to provide a chemical liquid sprayer capable of spraying a chemical liquid sprayed from a spray nozzle into a nano-fog atomized state and uniformly spreading the chemical liquid to a maximum extent to obtain a best control effect .

It is another object of the present invention to provide a chemical liquid sprayer configured to simultaneously spray chemical liquid and supply of carbon dioxide and / or ozone.

According to an aspect of the present invention, there is provided an injection apparatus including at least one injection nozzle; A chemical liquid supply pipe for connecting the chemical liquid supply means containing the chemical liquid to be injected to the injection nozzle; and a chemical liquid supply control valve provided on the channel of the chemical liquid supply pipe for opening / closing the chemical liquid supply pipe, A chemical liquid supply unit which supplies or blocks the chemical liquid supplied from the chemical liquid supply unit; And a water supply pipe connecting the water supply means for supplying water to one point of the chemical liquid supply pipe, a pump provided on the pipe of the water supply pipe for pumping water stored in the water supply means, And a water supply unit provided with a water supply control valve for opening and closing a pipeline of the chemical liquid supply control valve and for allowing or blocking water to be supplied to the injection nozzle via the chemical liquid supply pipe, The water in the water supply means is supplied to the chemical liquid supply pipe and the spray nozzle to clean the chemical liquid remaining in the chemical liquid supply pipe and the spray nozzle.

According to another aspect of the present invention, there is provided a mist sprayer comprising: a gas supply system for connecting an air compressor that supplies pressurized air to the injection nozzle; a supply air supply unit provided on a channel of the gas supply system, And a supply unit that is provided with a control valve and allows the chemical liquid of the chemical liquid supply unit to be sucked into the injection nozzle by a negative pressure generated by flowing the pressurized air to the injection nozzle.

The supply unit includes an auxiliary supply pipe branched from the supply pipe and connected to the water supply pipe or the chemical liquid supply pipe, and an auxiliary supply control valve provided on the pipe of the auxiliary supply pipe for opening and closing the pipe of the auxiliary supply pipe When the auxiliary air supply control valve is opened, pressurized air of the air compressor is supplied to the chemical liquid supply pipe and the injection nozzle through the auxiliary supply air pipe to dry the remaining water in the chemical liquid supply pipe and the spray nozzle .

According to another aspect of the present invention, the chemical liquid sprayer may further include a connection pipe connected to the supply pipe, and an ozone generator connected to the connection pipe for supplying ozone into the supply pipe, It is preferable that the ozone is sprayed through the spray nozzle.

According to another aspect of the present invention, the chemical liquid sprayer may further include a connection pipe connected to the supply pipe, and a carbon dioxide generator connected to the connection pipe for supplying carbon dioxide into the supply pipe, The carbon dioxide promoting the photosynthetic action of the photocatalyst is sprayed through the spray nozzle.

According to another aspect of the present invention, the water supply unit further includes an auxiliary water supply pipe branched from the water supply pipe and connected to a point between the air supply control valve and the spray nozzle of the air supply source, It is preferable that water is supplied to the inside of the air supply tube and the injection nozzle through the auxiliary water supply pipe to clean the inside of the air supply tube and the injection nozzle when the pump is operated.

According to another aspect of the present invention, it is preferable that the water supply pipe is connected between the chemical liquid supply control valve and the injection nozzle.

According to another aspect of the present invention, the chemical liquid sprayer includes a main body that houses the chemical liquid supply unit, the water supply unit, and the injection nozzle, and an opening is formed at the tip end in the injection direction, And a spray duct coupled to the main body and configured to guide the chemical liquid sprayed from the spray nozzle to be discharged through the opening, the spray duct being formed in a closed cylindrical shape with the outlet of the nozzle penetrated therethrough.

According to another aspect of the present invention, it is preferable that the injection nozzle is constituted by a plurality of injection nozzles, and the chemical liquid injected from each injection nozzle is arranged so that the chemical liquid collides with each other. It is more preferable that the plurality of injection nozzles are arranged in the upper and lower rows divided into two groups so that the chemical liquid injected from the injection nozzle arranged in the upper row and the chemical liquid injected from the injection nozzle arranged in the lower row cross each other and collide with each other Do.

According to another aspect of the present invention, the spray duct is inclined such that the opening faces in an oblique direction, and the tip end of the lower plate of the spray duct extends longer toward the spray direction than the tip end of the upper plate, And the lower plate is formed with a drain port for discharging the drug solution that has been collected therein to be recovered to the chemical solution supply unit.

According to another aspect of the present invention, it is preferable that the chemical liquid sprayer further includes a coupling portion provided on the upper side of the main body, the coupling portion being detachably fitted and supported by the spray duct.

According to another aspect of the present invention, it is preferable that the spray duct includes a plurality of spray ducts spaced apart from each other in a vertical direction.

According to another aspect of the present invention, it is preferable that the chemical liquid supply control valve, the water supply control valve, the air supply control valve, and the auxiliary air supply control valve are electric valves operated by an electrical signal. The chemical liquid sprayer further includes a controller for executing a program and automatically controlling the chemical liquid supply control valve, the water supply control valve, the air supply control valve, and the auxiliary air supply control valve in accordance with operating conditions set by a user .

According to another aspect of the present invention, the controller is configured to perform the steps of: spraying the chemical solution, cleaning the water, cleaning the chemical solution according to the chemical solution spraying time, the water washing time per cycle, and the air drying time Air drying " is repeatedly performed during the set total chemical spray time. In this case, the chemical liquid spraying is performed while opening both the supply control valve and the chemical liquid supply control valve, and closing the water supply control valve and the auxiliary air supply control valve. The water cleaning opens the water supply control valve, Wherein the air supply control valve and the auxiliary air supply control valve are opened while the chemical liquid supply control valve and the water supply control valve are in a closed state, .

According to still another aspect of the present invention, it is preferable that the controller controls the water washing and the air drying to be performed immediately after the chemical solution spraying is stopped and the chemical solution reaches the total chemical solution spraying time or exhausts the prepared chemical solution .

According to another aspect of the present invention, it is preferable that the chemical liquid sprayer further includes a blowing means for blowing air to one side of the main body 10 in the chemical liquid spraying direction of the spray duct.

According to another aspect of the present invention, there is provided a spraying apparatus comprising: a plurality of spray nozzles arranged so that spray directions cross each other; A chemical liquid supply pipe for connecting the chemical liquid supply means containing the chemical liquid to be injected to the injection nozzle; and a chemical liquid supply control valve provided on the channel of the chemical liquid supply pipe for opening / closing the chemical liquid supply pipe, A chemical liquid supply unit for supplying or shutting off each of the spray nozzles; A water supply pipe connecting water supply means for supplying water to one point of the chemical liquid supply pipe; a pump provided on the pipe of the water supply pipe for pumping water stored in the water supply means; and a water supply pipe provided on the pipe of the water supply pipe, A water supply unit provided with a water supply control valve for opening and closing a pipeline to supply or block water to each of the plurality of injection nozzles via the chemical liquid supply pipe; And an air supply control valve provided on a duct of the air supply pipe and responsible for the channel interruption of the air supply duct, wherein the air supply control valve is provided for each of the plurality of injection nozzles And a supply unit for causing the chemical liquid of the chemical liquid supply unit to be sucked into each of the plurality of injection nozzles by a negative pressure generated by flowing pressurized air into the plurality of injection nozzles, And atomized and atomized so as to be atomized.

According to a feature of the chemical liquid sprayer, the plurality of injection nozzles are divided into two groups and arranged in the upper row and the lower row, respectively. The chemical liquid injected from the injection nozzle arranged in the upper row and the chemical liquid injected from the injection nozzle arranged in the lower row cross So as to collide with each other.

In the chemical liquid spraying apparatus according to the present invention, since the water supply means is connected to the chemical liquid supply pipe, the chemical liquid remaining in the chemical liquid supply pipe and the spray nozzle can be cleaned by supplying water to the chemical liquid supply pipe through the water pipe after the chemical liquid injection, Or the chemical liquid remaining in the injection nozzle is hardened, thereby preventing the chemical liquid supply pipe or the injection nozzle from being clogged.

The chemical liquid spraying apparatus according to the present invention can perform this cleaning operation after the chemical liquid spraying operation is completed, and also spray, wash, and dry alternately in the middle of chemical liquid spray operation. Even if the chemical solution spraying operation continues for a long time, there is no problem that the chemical solution supply tube or the spray nozzle is clogged and the operation is stopped.

In the chemical liquid spraying apparatus according to the present invention, the spraying directions of the spraying nozzles are made to intersect with each other, so that the spraying liquid strongly collides with each other and is atomized. The chemical liquid is atomized into the nano-fog state and can fly far farther than the conventional liquid, so that the spraying distance of the chemical liquid can be greatly extended. It is also possible to control the chemical liquid evenly.

The ozone which functions as a sterilizing agent during the spraying of the chemical liquid and the carbon dioxide which is the raw material of the photosynthesis action of the plant can be supplied together and spraying of these substances is not required separately.

1 is a front perspective view showing a chemical sprayer according to the present invention,
2 is a rear perspective view showing a chemical liquid sprayer according to the present invention,
3 is a front view showing a chemical liquid spraying apparatus according to the present invention,
FIG. 4 is a side sectional view showing a chemical liquid sprayer according to the present invention,
5 is a reference view showing a state in which a spray duct of a chemical liquid sprayer according to the present invention is separated,
6 is a configuration diagram of a chemical liquid sprayer according to the present invention,
7 to 11 are reference views for explaining the action of the chemical liquid sprayer according to the present invention,
12 is a reference view showing a modified example of the chemical liquid spraying apparatus according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 to 11 show a chemical liquid spraying apparatus according to the present invention. The chemical liquid sprayer includes a main body 10, a spray duct 20 provided in the main body 10, a spray nozzle 30 provided in the main body 10 for spraying the chemical liquid into the spray duct 20, A chemical liquid supply means 40 connected to the injection nozzle 30 through the chemical liquid supply pipe 41 to supply the chemical liquid and an air compressor 50 connected to the injection nozzle 30 through the air supply line 51, A water supply means 60 connected to the chemical liquid supply pipe 41 through the water supply pipe 61 and supplying water to the chemical liquid supply pipe 41; And an ozone generator 80 connected to the air supply duct 51 to supply ozone into the inside of the air supply duct 51. [

The main body 10 is formed in the form of a rectangular box provided with a castor 11 on the lower side and has a storage section 12 on the lower side where the chemical liquid supply means 40 and the water supply means 60 are provided, A controller 13 is provided.

A coupling portion 14 to which the spray duct 20 is detachably coupled is formed in the upper internal space of the main body 10. The engaging portion 14 is fixed to the upper inner space of the main body 10 as a rectangular box-shaped cylinder having an outer end portion, that is, a side in the chemical liquid ejecting direction opened. The opposite side (inner end) of the opening side of the engaging portion 14 in the injection direction is provided with only a through hole 24a through which the injection nozzle 30 can pass. The outer end of the engaging portion 14 is disposed higher than the inner end of the engaging portion 14, that is, the entire engaging portion 14 is disposed obliquely upward and the diverging point of the injection direction opening side surface is inclined toward the direction.

The spray duct 20 includes upper and lower plates 21 and 22 spaced apart from each other in the vertical direction and a side plate 23 covering the left and right sides of the upper and lower plates 21 and 22 and upper and lower plates 21 and 22, And a blocking plate 24 for blocking the inner edge of the side plate 23 (that is, the side opposite to the spraying direction). The rectangular plate 24 has an opening 26 in which the spraying liquid is discharged at the outer end It is cylindrical. Is fitted into the coupling portion (14) by the length of the coupling portion (14) toward the injection direction at the inner end of the spray duct (20).

When the spraying duct 20 is inserted into the engaging portion 14, the opening portion 26 of the spraying duct 20 is also inclined upward toward the oblique direction. The spray duct 20 can be attached to or detached from the coupling portion 14 as needed or released.

In the spraying duct 20, the distal end of the lower plate 22 is longer than the distal end of the upper plate 21 toward the chemical liquid ejecting direction. An inclined portion 22a is formed at the end of the distal end of the lower plate 22 so as to be bent obliquely upward. So that the atomized chemical liquid microparticles can form an ascending flow so that they can spread to the far side.

Drain ports 15 and 25 are formed in the lower surface of the lower end of the spray duct 20 near the inner end of the coupling part 14 and through which the chemical solution is discharged into the spray duct 20. The drain ports 15 and 25 extend to the upper portion of the chemical liquid supply means 40 housed in the storage section 12 of the main body 10 so that the chemical liquid that has escaped through the drain ports 15 and 25 flows into the chemical liquid supply means 40 . The through hole 24a through which the injection nozzle 30 passes is formed in the blocking plate 24 of the spray duct 20 at a position corresponding to the through hole 24a at the inner end of the coupling portion 14. [

The injection nozzle 30 is disposed so as to correspond to the through hole 24a provided at the inner end of the coupling portion 14 and the spray duct 20 so that the injection port of the injection nozzle 30 passes through the through hole 24a. The chemical liquid injected from the injection nozzle 30 advances in the direction from the inner end of the spray duct 20 toward the opening 26 at the outer end and is ejected outward.

A spray nozzle (30) is disposed in the spray duct (20). It is preferable that a plurality of the injection nozzles 30 are provided. When a plurality of the injection nozzles 30 are formed, it is preferable that the chemical liquids injected from the respective injection nozzles 30 are arranged so as to cross each other and collide with each other. When the chemical liquids sprayed at a high speed and high pressure collide with each other, the chemical liquid particles are broken down due to the strong impact force, so that they are atomized, thereby increasing the spraying distance and spraying the large area uniformly.

One method of crossing the injection directions of the plurality of injection nozzles 30 is as follows. As shown in FIGS. 4 and 5, the entire injection nozzles 30 are divided into two groups, one group is arranged in the upper column, (Two rows of upper and lower rows). In this case, it is preferable that the injection nozzles 30 in the upper row and the injection nozzles 30 in the lower row are arranged to be inclined toward each other so that the injection direction of the electrons cross each other in the spray direction of the latter and the spray duct 20. According to the arrangement of the upper and lower rows in the crosswise direction, the chemical liquid injection flow jetted at the high-speed high-pressure from the injection nozzle 30 in the upper row and the chemical liquid injection flow jetted at the high- They cross each other and cause conflicts. By this collision, the two chemical liquid jet streams are finely divided into smaller size liquid chemical particles before the collision. Thereby, chemical fluid particles in the atomized mist state (nanofogg state) are formed in the spray duct 20, and the chemical fluid particles in the nano-fog state are injected into the atomizing duct 20 by the injection pressure continuously applied from the injection nozzles 30. [ And is discharged to the outside through the front opening portion 26 of the main body 20.

The chemical liquid particles colliding with the inner surface of the spray duct 20 flow down along the inner surface of the spray duct 20 and are recovered to the chemical liquid supply means 40 through the drain ports 15 and 25 through the bottom surface of the spray duct 20 . The nanofogg solution particles derived from the opening 26 are light in weight and spread evenly to the farthest away from each other, so that an effective and high-quality spray can be achieved.

The chemical liquid supply portion includes a chemical liquid supply means 40, a chemical liquid supply pipe 41, and a chemical liquid supply control valve 42. The chemical liquid supply means 40 is formed in a cylindrical shape having an upper surface opened and capable of storing the chemical liquid therein, and is stored in the storage portion 12 of the main body 10. The chemical liquid supply pipe 41 is connected at one end to the injection nozzle 30 and at the other end to the inside of the chemical liquid supply means 40 to suck the chemical liquid in the chemical liquid supply means 40. A chemical liquid supply control valve 42 is provided in the middle of the line of the chemical liquid supply pipe 41. The chemical liquid supply control valve 42 is opened or closed so that the chemical liquid in the chemical liquid supply means 40 is supplied to the injection nozzle 30 through the chemical liquid supply pipe 41 or the chemical liquid is not supplied to the injection nozzle 30 Can be blocked.

The supply portion includes a power supply 51, an air supply control valve 52, an auxiliary air supply 53, and an auxiliary air supply control valve 54. The supply portion may further include an air compressor (50) that provides pressurized air. However, the air compressor 50 may be provided as a part that is dedicated to the chemical liquid feeder, or may be a separate component not dedicated to the chemical liquid feeder. The air supply source 51 connects the air compressor 50 and the injection nozzle 30 so that the high pressure air generated by the air compressor 50 is supplied to the injection nozzle 30 through the air supply pipe 51 . An air supply control valve 52 is provided at an intermediate portion of the air supply line 51 to open and close the air supply control valve 52 to control the flow of air supplied to the injection nozzle 30 through the air supply line 51 . Further, the auxiliary classifying engine 53 is branched from the air supply pipe 51 and connected to the water supply pipe 61, and an auxiliary air supply control valve 54 is provided on the pipe. The auxiliary microcomputer 53 connects the air supply line 51 and the water supply pipe 61 so that the high pressure air generated in the air compressor 50 is supplied to the injection nozzle 30 through the water supply pipe 61 and the chemical liquid supply pipe 41, . Therefore, the air supply control valve 52 and the auxiliary air supply control valve 54 are opened and closed to control the flow of air passing through the air supply duct 51 and the auxiliary air supply duct 53.

According to such a chemical liquid supply unit and the air supply unit, when the chemical liquid supply control valve 42 is opened, the air supply control valve 52 is opened to supply the high pressure air generated in the air compressor 50 to the injection nozzle 30 7, the chemical liquid inside the chemical liquid supply means 40 is discharged through the chemical liquid supply pipe 41 due to the negative pressure generated as the air flows at high speed inside the injection nozzle 30 The chemical liquid thus sucked is mixed with high-velocity air in the injection nozzle 30 and injected at a high pressure through the injection nozzle 30. When the air supply control valve 52 is closed or the chemical liquid supply control valve 42 is shut off, the chemical liquid is not supplied to the injection nozzle 30 and the chemical liquid is stopped.

In this way, high-pressure air is supplied to the spray nozzle 30 to suck the chemical liquid, and the high-speed air flow and the chemical liquid are mixed in the spray nozzle 30 to be sprayed through the spray nozzle 30, Since it is generally used, detailed description is omitted.

The water supply section includes a water supply pipe 60 connecting the water supply means 60, the pump 70, the water supply control valve 62a, the water supply means 60 to the chemical liquid supply pipe 41, (61) branching from the supply pipe (61) and connected to the supply pipe (51). The water supply means 60 is formed in a cylindrical shape having an upper surface opened to store water therein, and is housed in the storage portion 12 of the main body 10. The water supply pipe (61) is connected between the chemical liquid supply control valve (42) and the injection nozzle (30) at one end and extends into the water supply means (60) at the other end. The auxiliary water supply pipe (62) branches from the water supply pipe (61) and is connected to the air supply pipe (51). The other end of the auxiliary water pipe 62 is connected to the rear end of the air supply control valve 52 in the air supply pipe 51 so as to be supplied through the pump 70, So that the water is supplied to the air supply pipe 51. A water supply control valve 62a is provided at a connection portion between the water supply pipe 61 and the auxiliary water supply pipe 62. This water supply control valve 62a can be configured by, for example, a three-way valve.

The water stored in the water supply means 60 is supplied through the water supply pipe 61 or the auxiliary water supply pipe 62 to the chemical liquid supply pipe 62a via the water supply control valve 62a while the pump 70 is operated, (41) or the air supply source (51).

The ozone generator 80 is connected to the ozone generator 80 at one point of the air supply tube 51 via the connection tube 81 so as to be able to spray the ozone O ₃ while spraying the chemical solution, And is connected between the injection nozzle 30 or between the air supply control valve 52 and the air compressor 50. The ozone generator 80 may be a general ozone generator 80 that generates ozone by using plasma.

As mentioned above, it is preferable to spray carbon dioxide while spraying the chemical liquid. To this end, a carbon dioxide generator (not shown) and a separate CO ₂ feed pipe (not shown) are provided to connect the carbon dioxide generator (not shown) to the feed pipe 51. The connection pipe 81 may be used as a CO ₂ supply pipe.

An unillustrated drawing 16 shows a drain pipe extending downward from the drain 15 of the joining portion 14. As shown in Fig.

The chemical liquid supply control valve 42 and the air supply control valve 52, the auxiliary air supply control valve 54 and the water supply control valve 62a are electrically operated valves (for example, solenoid valves Valve) is preferably used. When the user operates an operation switch, a timer or the like provided on the controller 13, the controller 13 controls the chemical liquid supply control valve 42, the air supply control valve 52, the auxiliary air supply control valve 54 ), The water supply control valve 62a, the pump 70, and the air compressor 50. The controller 13 also controls the operation of the ozone generator 80 and the carbon dioxide generator so that ozone or carbon dioxide is sprayed together while spraying the chemical liquid.

The operation principle of the chemical liquid dispenser configured as described above is as follows.

When the air supply control valve 52 is operated to open the air supply tube 51 in a state where a sufficient amount of chemical liquid and water are stored in the chemical liquid supply means 40 and the water supply means 60, Is supplied to the injection nozzle 30 through the air supply pipe 51. The negative pressure generated by the air flowing in the injection nozzle 30 at a high speed causes the chemical liquid supply means 40 is sucked into the injection nozzle 30 through the chemical liquid supply pipe 41. [ The thus sucked chemical liquid is mixed with high-speed air in the injection nozzle 30 and injected at a high pressure through the injection nozzle 30.

Since the injection nozzles 30 in the upper row and the injection nozzles 30 in the lower row are arranged so as to be inclined so that the injection directions intersect with each other, the chemical liquid injected from the injection nozzles 30 in the upper row is injected from the injection nozzles 30 in the lower row. And strongly collides with the drug solution. By the pulverization due to the collision of the two chemical liquid jet streams, the chemical liquid particles are atomized into a smaller size (nano-size), sprayed outward through the openings 26 of the spray duct 20 and spread far away, The chemical solution is uniformly adhered.

Some of the chemical liquid sprayed from the spray nozzle 30 can not be discharged to the outside of the spray duct 20 but adheres to the inner side surface of the spray duct 20 and drops downward in the form of droplets. The drug solution thus dropped flows downward along the lower plate 22 of the spray duct 20 and is recovered to the chemical liquid supply means 40 through the drain ports 15 and 25.

When the supply air control valve 52 is locked after a sufficient amount of the chemical liquid is sprayed, the flow of the air supplied to the spray nozzle 30 is stopped and the chemical liquid is no longer sprayed through the spray nozzle 30, It can be stopped. At this time, the operation of the air compressor 50 may also be stopped.

After the spraying of the chemical liquid is completed, the chemical liquid supply control valve 42, the auxiliary air supply control valve 54, the air supply control valve 52, the pump 70 and the water supply control valve 62a are opened and closed, The injection nozzle 30, and the inside of the air supply duct 51 can be cleaned and dried.

When the supply control valve 52 is closed and the chemical solution spraying operation is stopped, the chemical solution supply control valve 42 is closed, the pump 70 is operated, and the water supply control valve 62a is closed The water in the water supply means 60 is supplied to the chemical liquid supply pipe 41 through the water supply pipe 61 as shown in FIG. And the chemical liquid remaining in the chemical liquid supply pipe 41 and the spray nozzle 30 are discharged through the spray nozzle 30 after being supplied to the spray nozzle 30.

When the operation of the pump 70 is stopped and the auxiliary air supply control valve 54 is opened after cleaning the chemical solution remaining in the chemical liquid supply pipe 41 and the injection nozzle 30 through the above-described process, The high pressure air is supplied to the water supply pipe 61, the chemical liquid supply pipe 41 and the injection nozzle 30 through the auxiliary air supply line 53 and then discharged through the injection nozzle 30 so that the chemical liquid supply pipe 41, And the remaining water inside the injection nozzle 30 is dried.

When the ozone generator 80 is operated while the air supply control valve 52 is closed, as shown in Fig. 10, the ozone is supplied into the air supply duct 51 and then discharged through the injection nozzle 30 The inside of the air supply source 51 and the injection nozzle 30 can be sterilized. However, ozone is much more likely to be used because of the sterilizing action on the crop growing space than the sterilization of the inside of the chemical sprayer. Therefore, the ozone is sprayed with the chemical liquid while spraying the chemical liquid. In this case, the ozone generator 80 may be operated while the air supply control valve 52 and the chemical liquid supply control valve 42 are opened. Then, the ozone is mixed with the pressurized air to be introduced into the injection nozzle 30, mixed with the chemical liquid, and injected in the form of ozone gas or ozone water. Carbon dioxide can also be sprayed with the chemical solution in the same way as ozone. Ozone and carbon dioxide may be sprayed together with the chemical solution at the same time. When carbon dioxide is sufficiently supplied to the crop cultivation space, the photosynthesis action of plants becomes more active.

11, when the pump 70 is operated and the water supply control valve 62a is controlled to supply water to the air supply duct 51 in a state in which the air supply control valve 52 is closed, The water can be supplied to the air supply duct 51 and then discharged to the injection nozzle 30 to clean the inside of the air supply duct 51. [

The operation of supplying ozone to the air supply source 51 to sterilize the air supply source 51 and the operation of supplying water to the air supply source 51 to clean the air supply source 51 can be alternately performed have.

In the chemical liquid sprayer thus constructed, the water supply means 60 is connected to the chemical liquid supply pipe 41 to supply water to the chemical liquid supply pipe 41 through the water supply pipe 61 after the chemical liquid injection, It is possible to prevent the chemical liquid remaining in the chemical liquid supply pipe 41 or the injection nozzle 30 from hardening after the chemical liquid is sprayed and clogging the chemical liquid supply pipe 41 or the injection nozzle 30 There is an advantage to be able to do.

The auxiliary water supply pipe 53 branched from the water supply pipe 51 is connected to the water supply pipe 61 to supply water to the chemical liquid supply pipe 41 to clean the chemical liquid supply pipe 41 and the injection nozzle 30 Pressure air to the chemical liquid supply pipe 41 and the spray nozzle 30 to rapidly dry the remaining water in the chemical liquid supply pipe 41 and the spray nozzle 30. [

The ozone generator 80 is connected to the air supply source 51 to supply ozone to the air supply source 51 so that the inside of the air supply source 51 can be effectively sterilized.

The water supply pipe 61 is provided with an auxiliary water supply pipe 62 branched from itself and connected to the water supply pipe 51 so that water is supplied to the inside of the water supply pipe 51 via the auxiliary water supply pipe 62, 51).

The chemical liquid sprayer according to the present invention includes a main body 10 and a spray duct 20 which is formed in a tubular shape having an opening 26 at its tip and guides the chemical liquid sprayed from the spray nozzle 30, 30 are arranged so that the chemical liquid injected from the injection nozzle 30 cross each other and collide with each other, so that the chemical liquid injected by the spray duct 20 collides with each other, And then discharged through the opening 26 of the spray duct 20 to the outside. Therefore, the particles of the atomized chemical liquid can reach the far site effectively, and the spraying distance of the chemical liquid distributor can be improved.

The spray duct 20 includes upper and lower plates 21 and 22 spaced apart from each other in the vertical direction so that the opening 26 is disposed obliquely upward and the tip end of the lower plate 22 is connected to the upper plate 21 And the inclined portion 22a, which is inclined upward, is formed at the distal end of the lower plate 22. The upper end of the lower plate 22 is inclined upward. This structure of the spray duct 20 also contributes to increasing the spray distance by raising the flow of the chemical liquid sprayed particles obliquely.

In addition, the lower plate 22 of the spray duct 20 is formed with a drain port 25 through which a drug solution is discharged. Therefore, even if the chemical solution formed in the form of water droplets falls on the tip of the upper plate 21 of the spray duct 20, the chemical solution is collected in the lower plate 22 and then discharged to the chemical liquid supply means 40 through the drain port 25 and recycled. There is an advantage that it is possible to prevent contamination of the soil around the periphery of the chemical liquid sprayer.

The main body 10 is provided at one side thereof with a coupling portion 14 to which the spraying duct 20 is detachably coupled and the spraying duct 20 is detachably fitted to the coupling portion 14, 14). Therefore, as shown in FIG. 5, after the spraying of the chemical liquid is completed, the spray duct 20 can be separated and cleaned or cleaned, thereby easily cleaning or cleaning the spray duct 20.

In the present embodiment, the auxiliary microcomputer 53 connects the microcomputer 51 and the water feed pipe 61, but the auxiliary microcomputer 53 connects the microcomputer 51 and the chemical liquid feed pipe 41 Lt; / RTI >

A water supply control valve 62a is provided at a connection portion between the water supply pipe 61 and the auxiliary water supply pipe 62 so that water supplied through the pump 70 by operating the water supply control valve 62a is supplied to the chemical solution supply pipe 41 The supply pipe 61 and the auxiliary water pipe 62 are provided with separate control valves so that the control valves are separately controlled so that the pump 70 ) To be selectively supplied to the chemical liquid supply pipe 41 and the air supply pipe 51. [0064]

Particularly, the chemical liquid supply control valve 42 and the air supply control valve 52, the auxiliary air supply control valve 54 and the water supply control valve 62a are electrically operated valves (for example, The chemical feed control valve 42 and the air supply control valve 52, the auxiliary air supply control valve 54 and the water supply control valve 62a may be manually operated manually by the user .

Also, cleaning of the chemical solution supply pipe 41 and the spray nozzle 30 using water, and drying of the chemical solution supply pipe 41 and the spray nozzle 30 using high-pressure air can also be performed during chemical solution spraying. That is, when the chemical liquid spraying amount is large and the chemical liquid spraying machine must be operated for a long time, the chemical liquid supply pipe 41 and the spray nozzle 30 may be clogged with the chemical liquid during the chemical liquid spraying. In order to prevent such a problem, spraying of the chemical liquid and washing-drying (water washing-air washing and drying) may be carried out alternately for a predetermined time.

A program for performing chemical solution spraying and cleaning-drying on the controller 13 alternately and performing a final cleaning-drying operation immediately after the spraying is completed to finish the chemical solution spraying operation may be provided to automatically control such operations. That is, by using the timers provided in the controller 13, the user can set the total chemical solution spraying time, chemical solution spraying time per cycle, water washing time per cycle, air drying (air cleaning) time per cycle, Reads a user's setting values and repeats a series of one cycle of operations, which is followed by "chemical solution spraying-> water washing-> air drying", repeatedly for the total chemical solution spraying time, When all of them have been exhausted, the chemical solution spraying mode is stopped, and immediately the water washing mode and the air drying mode are sequentially performed so that the chemical solution sprayer is also cleanly cleaned with the completion of the chemical solution spraying. Here, the chemical liquid spraying is performed while opening both the air supply control valve and the chemical liquid supply control valve, and closing the water supply control valve and the auxiliary air supply control valve. The water cleaning opens the water supply control valve, Wherein the air supply control valve and the auxiliary air supply control valve are opened and the chemical liquid supply control valve and the water supply control valve are closed while the valve, the air supply control valve and the auxiliary air supply control valve are closed, do.

The supply of ozone and / or carbon dioxide can be automatically controlled together.

Although the water supply means 60 is formed in a cylindrical shape with its top opened, water can be stored therein. However, the water supply means 60 may be a connection pipe connecting the water pipe and the water pipe 61.

12, an air blowing fan 90 blowing air in the chemical solution spraying direction of the opening portion 26 of the spray duct 20 is further provided on one side of the main body 10, The chemical liquid discharged into the opening portion 26 of the spray duct 20 can be dispersed farther.

The air compressor 50 is connected to the injection nozzle 30 so that the chemical liquid can be sucked by using the high pressure air supplied to the injection nozzle 30. However, the structure of the air compressor 50 is omitted, A separate pump may be connected to the middle portion of the chemical liquid supply pipe 41 and the chemical liquid may be forcibly supplied to the injection nozzle 30 by the force of the pump.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention. For example, the outlet through which the chemical liquid is sprayed may be provided in plural stages. To this end, a plurality of spray ducts 20 may be provided and arranged in multi-stages spaced apart from each other in the vertical direction, and the arrangement of the spray nozzles 30 may be changed according to the number of the spray ducts 20. The spraying duct 20 at the lower end is responsible for the spraying of the near region and the spraying duct 20 at the upper end is sprayed to the spraying duct 20 at a position corresponding to the spraying angle and size of each spraying duct 20 You can.

10: Main body 20: Spray duct
30: injection nozzle 40: chemical liquid supply means
50: Air compressor 60: Water supply means
70: Pump 80: Ozone generator

Claims (24)

One or more spray nozzles;
A chemical liquid supply pipe for connecting the chemical liquid supply means containing the chemical liquid to be injected to the injection nozzle; and a chemical liquid supply control valve provided on the channel of the chemical liquid supply pipe for opening and closing the chemical liquid supply pipe, A chemical liquid supply unit which supplies or blocks the chemical liquid supplied from the chemical liquid supply unit; And
A water supply pipe connecting water supply means for supplying water to one point of the chemical liquid supply pipe; a pump provided on the pipe of the water supply pipe for pumping water stored in the water supply means; and a water supply pipe provided on the pipe of the water supply pipe, And a water supply portion provided with a water supply control valve for opening and closing the pipeline so as to allow or block water to be supplied to the injection nozzle via the chemical liquid supply pipe,
When the pump is operated in a state in which the chemical liquid supply control valve is closed, water in the water supply means is supplied to the chemical liquid supply pipe and the injection nozzle to clean the chemical liquid remaining in the chemical liquid supply pipe and the injection nozzle Wherein the chemical liquid sprayer is a chemical liquid sprayer. The air conditioner according to claim 1, further comprising: a supply air line connecting the air compressor for supplying pressurized air to the injection nozzle; and an air supply control valve provided on a duct of the air supply line, Further comprising a supply portion for allowing the chemical liquid of the chemical liquid supply means to be sucked into the injection nozzle by a negative pressure generated by flowing air that is pressurized to the injection nozzle. [3] The apparatus according to claim 2, wherein the supply unit comprises: an auxiliary supply system branching from the supply system and connected to the supply pipe or the chemical liquid supply pipe; And the auxiliary air supply control valve is opened so that when the auxiliary air supply control valve is opened, the pressurized air of the air compressor is supplied to the chemical liquid supply pipe and the injection nozzle through the auxiliary supply air pipe, So as to dry the remaining water in the chemical liquid sprayer. The ozone generator according to claim 2, further comprising: a connection pipe connected to the supply pipe; and an ozone generator connected to the connection pipe for supplying ozone into the inside of the supply pipe, And sprayed through the spray nozzle. [3] The apparatus of claim 2, further comprising: a connection pipe connected to the supply pipe; and a carbon dioxide generator connected to the connection pipe for supplying carbon dioxide into the supply pipe, And sprayed through the spray nozzle. The air conditioner according to claim 2, wherein the water supply unit further includes an auxiliary water supply pipe branched from the water supply pipe and connected to a point between the air supply control valve and the spray nozzle of the air supply unit, Wherein when the pump is operated, water is supplied to the inside of the air supply tube and the spray nozzle through the auxiliary water supply pipe to clean the inside of the air supply tube and the spray nozzle. The chemical liquid sprayer according to claim 1, wherein the water supply pipe is connected between the chemical liquid supply control valve and the spray nozzle. The apparatus of claim 1, further comprising: a main body for containing the chemical solution supply unit, the water supply unit, and the injection nozzle; And an opening formed at the tip of the spraying direction, the opposite side surface of the opening being formed in a cylindrical shape closed with an outlet of the spraying nozzle being passed therethrough, the spraying nozzle being coupled to the main body, And a spray duct for guiding the air to be sprayed through the spray nozzle. 9. The chemical liquid sprayer according to any one of claims 1 to 8, wherein the injection nozzles are constituted by a plurality of nozzles, and the plurality of injection nozzles are arranged such that the chemical liquid injected from each of the injection nozzles cross each other while crossing each other. The apparatus according to claim 9, wherein the plurality of injection nozzles are divided into two groups and arranged in the upper row and the lower row, respectively, wherein the chemical liquid injected from the injection nozzle arranged in the upper row crosses the chemical liquid injected from the injection nozzle arranged in the lower row, Wherein the sprayer is disposed so as to be spaced apart from the sprayer. 9. The spraying apparatus according to claim 8, wherein the spray duct is inclined such that the opening faces in an oblique direction upward, the tip end of the lower plate of the spray duct extends longer toward the spray direction than the tip end of the upper plate, Wherein the lower plate is formed in a shape of an inclined portion lifted at an angle, and a drain port is formed in the lower plate so that the drug solution which has been collected therein is discharged and recovered to the chemical solution supply means. The chemical liquid sprayer according to claim 8, further comprising an engaging portion provided on the upper side of the main body, the engaging portion being detachably fitted and supported by the spray duct. 9. The chemical liquid sprayer according to claim 8, wherein the spray duct includes a plurality of spray ducts spaced apart from each other in a vertical direction, 4. The apparatus according to claim 3, wherein the chemical liquid supply control valve, the water supply control valve, the air supply control valve, and the auxiliary air supply control valve are electric-
Further comprising a controller for executing a program and automatically controlling the chemical solution supply control valve, the water supply control valve, the air supply control valve and the auxiliary air supply control valve in accordance with an operation condition set by a user by an electric signal Chemical solution sprayer. 15. The method according to claim 14, wherein the controller is further configured to perform the steps of: spraying the chemical solution, washing the water, drying the air, and air drying according to the chemical solution spraying time, the water washing time per cycle, , Wherein the chemical liquid spray opens both the supply control valve and the chemical liquid supply control valve and the water supply control valve and the auxiliary supply control valve Wherein the water washing is performed while the water supply control valve is opened and the chemical liquid supply control valve, the air supply control valve and the auxiliary air supply control valve are closed, and the air drying is performed while the air supply control valve and the auxiliary Wherein the supply control valve is opened and the chemical liquid supply control valve and the water supply control valve are closed. 16. The chemical liquid sprayer according to claim 15, wherein the controller controls to stop the spraying of the chemical liquid and immediately perform the water washing and the air drying when the chemical liquid spraying time reaches or is exhausted, . The chemical liquid sprayer according to claim 8, further comprising a blowing means for blowing air to one side of the main body in a chemical liquid spray direction of the spray duct. A plurality of injection nozzles arranged so that injection directions intersect with each other;
A chemical liquid supply pipe for connecting the chemical liquid supply means containing the chemical liquid to be injected to the injection nozzle; and a chemical liquid supply control valve provided on the channel of the chemical liquid supply pipe for opening / closing the chemical liquid supply pipe, A chemical liquid supply unit for supplying or shutting off each of the spray nozzles;
A water supply pipe connecting water supply means for supplying water to one point of the chemical liquid supply pipe; a pump provided on the pipe of the water supply pipe for pumping water stored in the water supply means; and a water supply pipe provided on the pipe of the water supply pipe, A water supply unit provided with a water supply control valve for opening and closing a pipeline to supply or block water to each of the plurality of injection nozzles via the chemical liquid supply pipe; And
And an air supply control valve provided on a duct of the air supply line and performing a line interruption of the air supply line, wherein the air supply control valve is connected to each of the plurality of injection nozzles And an air supply unit for causing the chemical liquid of the chemical liquid supply unit to be sucked into each of the plurality of injection nozzles by a negative pressure generated by flowing pressurized air,
Wherein the chemical liquid sprayed from the plurality of spray nozzles at a high pressure collides with each other while being crossed with each other to be atomized and sprayed. The apparatus according to claim 18, wherein the plurality of injection nozzles are divided into two groups and arranged in the upper row and the lower row, respectively, wherein the chemical liquid injected from the injection nozzle arranged in the upper row crosses the chemical liquid injected from the injection nozzle arranged in the lower row, Wherein the sprayer is disposed so as to be spaced apart from the sprayer. 20. The apparatus according to claim 18 or 19, further comprising: a main body for containing the chemical solution supply unit, the water supply unit, the supply unit, and the plurality of injection nozzles; And an opening portion formed at a tip end of the spraying direction, the opposite side surface of the opening portion being formed in a cylindrical shape closed while allowing the outlet of the plurality of spraying nozzles to pass therethrough, the spraying means being coupled to the main body, Further comprising a spray duct for guiding the sprayed air to be discharged through the opening. 19. The apparatus according to claim 18, wherein the supply unit comprises: an auxiliary supply system branched from the supply system and connected to the supply pipe or the chemical liquid supply pipe; And the auxiliary air supply control valve is opened so that when the auxiliary air supply control valve is opened, the pressurized air of the air compressor is supplied to the chemical liquid supply pipe and each of the plurality of injection nozzles through the auxiliary supply air pipe, And the remaining water in the spray nozzles can be dried. 22. The apparatus according to claim 21, wherein the chemical liquid supply control valve, the water supply control valve, the air supply control valve, and the auxiliary air supply control valve are electric-
Further comprising a controller for executing a program and automatically controlling the chemical solution supply control valve, the water supply control valve, the air supply control valve and the auxiliary air supply control valve in accordance with an operation condition set by a user by an electric signal Chemical solution sprayer. 23. The method of claim 22, wherein the controller is further configured to perform the steps of: spraying the chemical solution, cleaning the water, drying the air, and drying the chemical solution according to the chemical solution spraying time, the water washing time per cycle, , Wherein the chemical liquid spray opens both the supply control valve and the chemical liquid supply control valve and the water supply control valve and the auxiliary supply control valve Wherein the water washing is performed while the water supply control valve is opened and the chemical liquid supply control valve, the air supply control valve and the auxiliary air supply control valve are closed, and the air drying is performed while the air supply control valve and the auxiliary Wherein the supply control valve is opened and the chemical liquid supply control valve and the water supply control valve are closed. The method as claimed in claim 18, wherein, when the pump is operated in a state in which the chemical liquid supply control valve is closed, water in the water supply means is supplied to the chemical liquid supply pipe and the injection nozzle to remain in the chemical liquid supply pipe and the plurality of injection nozzles Wherein the chemical liquid sprayer is configured to clean the chemical liquid.

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