KR20220084706A - Fixed quantitative spraying system of chemical liquid with dual-fluid jet nozzle - Google Patents

Abstract

The present invention relates to a chemical liquid quantitative injection system having a two-fluid injection nozzle such that the amount of chemical sprayed from each of the two-fluid injection nozzles installed in a plurality of injectors arranged to be spaced apart from each other in a greenhouse or the like is equally and quantitatively injected. is about
The present invention is a plurality of injector bodies disposed spaced apart from each other at a selected location of the greenhouse (10); The injection guide tube 20 installed in the injector body 10, and formed by separating the chemical liquid transfer tube 21 and the high-pressure air passage 22 so that the high-pressure air and the chemical liquid are introduced and moved into different passages therein; A chemical liquid injection hole 31 is provided at the end of the injection guide tube 20 and has a chemical liquid injection hole 32 communicating with the chemical liquid transfer tube 21, and the high-pressure air is provided around the chemical liquid injection hole 31. a two-fluid jet nozzle 30 having a high-pressure air discharge hole 34 communicating with the moving passage 22; The chemical solution is stored, and the chemical solution tank 40 connected to the chemical solution supply pipe 41 to supply the stored chemical solution to the plurality of chemical solution tanks (45); a chemical liquid container 45 installed on one side of the inner side of the plurality of injector bodies 10 to store the chemical solution supplied from the chemical solution supply pipe 41, and to store only a set amount by the water level valve 46; a chemical liquid inlet pipe 50 connected between the chemical liquid container 45 and the injection guide tube 20 to introduce the chemical stored in the chemical liquid container into the chemical liquid moving tube 21; An air compressor (55) connected to the injection guide tube (20) and a high-pressure air supply tube (56) to supply high-pressure air to the high-pressure air passage (22); As the chemical liquid stored in the chemical liquid container 45 installed in the air is drawn out by the discharge pressure of the high-pressure air and is sprayed, it is characterized in that all the chemical liquid is sprayed in a fixed quantity without limiting the distance from the chemical liquid tank 40.

Description

Fixed quantitative spraying system of chemical liquid with dual-fluid jet nozzle}

The present invention is a chemical liquid quantitative injection system having a two-fluid injection nozzle in which the amount of chemical liquid injected from each of the two-fluid injection nozzles installed in a plurality of injectors disposed to be spaced apart from each other in a greenhouse, etc. is about

The injector that sprays the fluid can be divided into a single-fluid spraying method and a double-fluid spraying method depending on the number of branches of the fluid to be used. It is a method widely used in labor-intensive farming in the past by directly spraying through the As the liquid is sucked out by the Bernoulli principle, it breaks down and can be sprayed in the form of mist together with the air.

In addition to the two-fluid spray method, the rotary type fluid sprayer receives the fluid from the fluid supply means and supplies it to the rotating nozzle to be sprayed, thereby extending the spraying range of the fluid and evenly spraying it. There is an advantage that it can be replaced, so research is being done on it. Since the rotating type air atomizer has to solve the problem of twisting while rotating the two fluids, various developments are being made to solve the problem of twisting the air pipe.

The Republic of Korea Patent No. 1462622 discloses a first housing in which a medicine barrel and an injection nozzle are installed, and a second housing in which a compressor for supplying compressed air from an upper portion of the first housing is connected, and the first housing is rotated 360 degrees to the second housing. A drive motor, a gear coupled to the drive shaft, a drive chain mounted on the drive shaft gear to rotate, a gear portion rotated by the drive chain, and a rotary shaft having one end mounted with the gear portion and the other end mounted on the first housing is configured to rotate the first housing, and the first housing is provided with a medicine supply pipe, a compressed air supply pipe for transporting compressed air supplied from the second housing, and a plurality of nozzles connected thereto, the compressed air supplied from the second housing The first housing provided with the medicament barrel and the injection nozzle is rotated by air and rotational force so that the medicament is sprayed.

In the patent, in order to prevent the two fluids from being twisted with each other, compressed air from the second housing enters the first housing through the drive shaft and rotates together with the medicine container in the first housing so that the medicine is sprayed. It is configured to prevent twisting and spraying, but because the heavy chemical container must be rotated together to prevent twisting, energy is excessively entered, and the place where it can be installed is limited due to the large volume, while due to the weight of the medicine box There is a problem in that it is difficult to achieve the basic purpose of remote injection because the rotation of the injection nozzle is not smooth.

In particular, when only one drug spreading device is installed as in the above patent, it can be said that there is no problem in rotation, but when a plurality of drug spreading devices are installed at regular intervals, each drug spreading device in the method of the above patent There is a problem in that it is quite difficult or impossible to rotate all of them.

In addition, the drug dispensing device of the patent has a structure provided with a medicament container, but if you want to install a plurality of medicament spraying devices, a structure that can supply drugs to the medicament container of each drug spraying device is separately implemented. However, in a structure that rotates together with the drug container, the twisting phenomenon of the supply pipe for supplying the drug is inevitable, so there is a problem that it is difficult or impossible to construct.

And in Patent Registration No. 1964640, a blower fan is provided inside each body housing that is installed to be spaced apart from each other, and the chemical solution stored in a chemical solution storage tank provided separately is pumped with the chemical solution pump, and supplied to the body housing through the chemical solution hose and blown. Disclosed is a technique for spraying a chemical solution supplied by the blowing pressure of a fan.

According to the above patent, since the chemical solution stored in the chemical solution storage tank is supplied to each body housing through the chemical solution hose, the supply pressure is different depending on the distance from the chemical solution storage tank. There is a problem in that the amount of the chemical sprayed from the main housing of the body has to be different depending on the distance.

Therefore, the control effect on pests and diseases of crops is not high because the spraying amount of the chemical is different, and even when the nutrient is sprayed, it is not sprayed in a uniform amount as a whole, so the expected effect was not satisfied.

Republic of Korea Patent Publication No. 1462622 (November 11, 2014, mist-type drug spraying device) Republic of Korea Patent Publication No. 1964640 (Mar. 27, 2019, ceiling-mounted chemical liquid spraying device)

The present invention has been devised to solve the above problems, and by providing a chemical container in each of a plurality of injector bodies spaced apart from each other inside the greenhouse to receive the chemical from the chemical tank, regardless of the distance from the chemical tank. An object of the present invention is to provide a chemical liquid quantitative injection system having a two-fluid injection nozzle in which the amount of chemical liquid injected through the two-fluid injection nozzle installed in the injector body is sprayed in the same quantity as each other.

In addition, the present invention enables the two-fluid jet nozzle to be rotated 360 degrees without twisting the chemical solution supply pipe and the high-pressure air supply pipe for supplying the chemical, and an air induction groove is formed on the inner surface of the jet nozzle for high-pressure air An object of the present invention is to provide a chemical liquid quantitative injection system having a two-fluid injection nozzle that induces rotation to inject the chemical to a longer distance.

Solving means of the present invention for solving the above problems, a plurality of injector bodies disposed spaced apart from each other at a selected position of the greenhouse (10); The injection guide tube 20 installed in the injector body 10 and formed by separating the chemical liquid transfer tube 21 and the high-pressure air passage 22 so that the high-pressure air and the chemical liquid are introduced into different passages and moved therein; It is installed at the end of the injection guide tube 20, and the chemical liquid injection hole 31 having a chemical liquid injection hole 32 communicating with the chemical liquid pipe 21 is provided, and the high-pressure air around the chemical liquid injection port 31 is provided. a two-fluid jet nozzle 30 having a high-pressure air discharge hole 34 communicating with the moving passage 22; The chemical solution is stored, and the chemical solution tank 40 connected to the chemical solution supply pipe 41 to supply the stored chemical solution to the plurality of chemical solution tanks (45); a chemical liquid container 45 installed on one side of the inside of the plurality of injector bodies 10 to store the chemical solution supplied from the chemical solution supply pipe 41, and to store only a set amount by the hydrostatic level valve 46; a chemical liquid inlet pipe 50 connected between the chemical liquid container 45 and the injection guide tube 20 to introduce the chemical stored in the chemical liquid container into the chemical liquid moving tube 21; An air compressor (55) connected to the injection guide tube (20) and a high-pressure air supply tube (56) to supply high-pressure air to the high-pressure air passage (22); As the chemical liquid stored in the chemical liquid container 45 installed in the air is drawn out by the discharge pressure of the high-pressure air and is sprayed, it is characterized in that all the chemical liquid is sprayed in a fixed quantity without limiting the distance from the chemical liquid tank 40.

Here, the driving motor 60 is installed inside the injector body 10, and the injection guide tube 20 is a first guide tube 20a fixedly installed inside the injector body 10, A rotation gear 26 connected to the first guide tube 20a by a first rotary joint 25 and gear-connected to the driving gear 61 of the driving motor 60 is provided on the outer surface of the driving motor 60 It is composed of a second guide tube 20b that is rotated by the driving force of desirable.

At this time, it is preferable that the end of the chemical liquid injection port 31 is provided to protrude from the high-pressure air discharge hole 34 to be exposed to the outside of the two-fluid injection nozzle 30 .

Meanwhile, a spiral air induction groove 36 may be formed on the inner surface of the air jet nozzle 30 so that the high-pressure air discharged through the high-pressure air discharge hole 34 is rotated and discharged.

According to the chemical liquid quantitative injection system having the two-fluid injection nozzle configured as described above, the expected control effect is provided by equalizing the injection amount of the chemical liquid injected through the two-fluid injection nozzles installed in all the injector bodies installed spaced apart from each other It has the effect of being able to do it.

1 is a configuration diagram of a chemical liquid quantitative injection system having a two-fluid injection nozzle according to the present invention;
2 is an internal structure diagram of the injector according to the present invention;
3 is an exploded view of the injection guide tube according to the present invention;
Figure 4 is a combined cross-sectional view of Figure 3;
5 is a cross-sectional perspective view of the air jet nozzle according to the present invention.

Hereinafter, with reference to the accompanying drawings, a chemical liquid quantitative injection system having a two-fluid injection nozzle according to a preferred embodiment of the present invention will be described in detail.

As shown, the chemical liquid quantitative injection system having a two-fluid injection nozzle according to the present invention includes an injector body 10, an injection guide tube 20 installed in the injector body 10, and the injection guide tube ( 20), a two-fluid injection nozzle 30 installed at the end, a chemical liquid tank 40 installed to be spaced apart from the injector body 10 on one side of the greenhouse, and a chemical liquid container installed in the injector body 10 ( 45), and a chemical liquid inlet pipe 50 and an air compressor 55.

The injector body 10 is to be installed at a selected position in the greenhouse, and may be provided with a ring to be hung on the upper portion, and a plurality of are provided so as to be spaced apart from each other at the selected position.

The number of injector bodies 10 may vary depending on the length of the greenhouse or the area to be controlled.

The injection guide tube 20 is installed in the injector body 10, and receives the high-pressure air supplied from the air compressor 55 and the chemical liquid through the chemical liquid inlet tube 50, and the two-fluid injection nozzle 30 is installed. It will guide you through the spray.

At the selected position of the injection guide pipe 20, the chemical liquid inlet pipe 50 and the chemical solution supply pipe 41 are connected for inflow of high-pressure air and chemical solution.

Then, inside the injection guide tube 20, the chemical liquid transfer tube 21 and the high-pressure air move so that the introduced chemical liquid and the supplied high-pressure air are moved to the two-fluid injection nozzle 30 through different passages without being mixed with each other, respectively. The furnace 22 is formed separately.

For example, the chemical liquid pipe 21 is provided in the inner center of the injection guide pipe 20, and the passage between the chemical liquid pipe 21 and the inner peripheral surface of the injection guide pipe 20 is the high-pressure air flow path 22. will form

The two-fluid injection nozzle 30 is spirally coupled to the injection guide tube 20, and a leakage preventing member such as a gasket or O-ring is provided at the coupling portion to prevent leakage of chemical or high-pressure air to the outside.

A chemical liquid injection port 31 having a chemical liquid injection hole 32 communicating with the chemical liquid pipe 21 is provided, and a high-pressure air discharge hole communicating with the high-pressure air passage 22 around the chemical liquid injection port 31 is provided. (34) is formed.

The two-fluid jet nozzle 30 is formed so that the inner diameter of the high-pressure air discharge hole 34 becomes smaller toward the forming portion.

And the chemical liquid injection port 31 is provided at the center of the two-fluid jet nozzle 30, and the chemical liquid injection port 31 is also formed to have a smaller inner diameter toward the end.

The two-fluid jet nozzle 30 may be formed to spray the chemical liquid downward, or may be formed to spray the chemical liquid to the side as shown in the accompanying drawings.

When formed to spray the chemical to the side, the air jet nozzle 30 is coupled to the end of the injection guide tube 20 and includes a connecting pipe 30a having an air flow path formed at the edge, and the connecting pipe 30a. It can be configured as a nozzle (30b) coupled to the side.

The nozzle 30b may be provided with only one or two or more at a set installation angle, and a chemical liquid injection port 31 is provided in the inner central portion of the nozzle 30b, and a high-pressure air discharge passage 33 is provided around the nozzle 30b. ) and a high-pressure air discharge hole 34 is formed to communicate with the high-pressure air discharge passage 33 .

At this time, it is preferable that the end of the chemical liquid injection port 31 is provided to protrude further than the high-pressure air discharge hole 34 to be exposed to the outside of the double-fluid injection nozzle 30 .

The reason for doing this is to minimize the collision of the high-pressure air discharged through the high-pressure air discharge hole 34 and to induce the chemical liquid drawn by the high-pressure air to be sprayed to a long distance, thereby increasing the spraying efficiency of the chemical solution. , to prevent the chemical liquid being injected from coming into contact with the vicinity of the high-pressure air discharge hole 34 .

The chemical liquid tank 40 in which the chemical liquid is stored is provided with a pump for supplying the chemical liquid to the chemical liquid container 45, and the pump is provided with a chemical liquid supply pipe 41 to be connected to the chemical liquid container.

The chemical container 45 is installed on one side of the inner side of the plurality of injector bodies 10 , and the chemical solution supplied from the chemical solution supply pipe 41 is stored. At this time, the water level valve 46 is provided inside to store only a set amount.

The chemical liquid inlet tube 50 is provided to be connected between the chemical liquid container 45 and the injection guide tube 20, and the chemical liquid stored in the chemical liquid container 45 is transferred to the chemical liquid transfer tube 21 of the injection guide tube 20. It plays a role in introducing The chemical liquid flows into the chemical liquid pipe 21 as the chemical liquid stored in the chemical liquid container is drawn out by the discharge pressure of the high-pressure air and flows into the chemical liquid pipe.

The air compressor 55 is connected to the injection guide pipe 20 and the high-pressure air supply pipe 56, and the high-pressure air passage 22 of the injection guide pipe 20 through the high-pressure air supply pipe 56 ) will be supplied.

In the present invention configured as described above, although the chemical liquid tank 40 and the chemical liquid container 45 are provided, the chemical liquid supplied from the chemical liquid tank is temporarily stored in the chemical liquid container 45, and then the chemical liquid container using the discharge pressure of high-pressure air. It is designed to suck the chemical liquid stored in the air conditioner and spray it to the outside through the air jet nozzle.

In particular, since the chemical liquid container 45 is installed inside each injector body 10, only a fixed amount of the chemical liquid is always stored in the chemical liquid container, so that all the injector bodies 10 without limiting the distance from the chemical liquid tank 40 ), the chemical sprayed through the two-fluid jet nozzle installed in the

Here, it is preferable that the two-fluid jet nozzle 30 is provided to spray the chemical in all directions, not in one direction, but 360 degrees in order to increase the control effect. To this end, the air jet nozzle 30 is provided to be rotatable 360 degrees.

Specifically, the driving motor 60 is installed inside the injector body 10 by means of a separate bracket or the like. A drive gear 61 is provided on the drive shaft of the drive motor 60 .

And, the injection guide tube 20 is connected to a first guide tube 20a fixedly installed inside the injector body 10, and a first rotary joint 25 to the first guide tube 20a, and The outer surface is composed of a second guide tube (20b) provided with a rotation gear (26) geared to the drive gear (61).

The rotation gear 26 may be provided on the outer peripheral surface of the second guide tube 20b or may be provided on the rotation portion of the first rotary joint 25 .

In addition, the chemical liquid pipe 21 is provided to be connected to the second guide pipe 20b or the air jet nozzle 30 and the second rotary joint 27 .

Accordingly, by the driving force of the driving motor 60, the second guide tube 20b and the air jet nozzle 30 rotate 360 degrees while the first guide tube 20a and the chemical liquid transfer tube 21 are fixed. As it rotates, the chemical is sprayed.

The first rotary joint 25 and the second rotary joint 27 may have the same structure as that of a conventional rotary joint.

Meanwhile, in the present invention, a spiral air induction groove 36 may be formed on the inner surface of the air jet nozzle 30 .

As the air induction groove 36 is formed, the high-pressure air introduced into the air jet nozzle 30 is rotated and discharged, thereby rotating the chemical to further disperse it in the air, as well as spraying it to a longer distance. will be able to do it.

As described above, although the present invention has been described with reference to limited embodiments and drawings, the scope of the present invention is not limited thereto, and the technical idea of the present invention by those of ordinary skill in the art to which the present invention belongs Modifications and variations that can be made within the equivalent range of may also be included.

10: injector body 20: injection guide tube
20a: first guide 20b: second guide
21: chemical liquid transfer pipe 22: high-pressure air transfer path
25: first rotary joint 26: rotary gear
27: second rotary joint 30: air jet nozzle
30a: connector 30b: nozzle
31: chemical liquid injection port 32: chemical liquid injection hole
33: high-pressure air discharge path 34: high-pressure air discharge hole
36: air induction groove 40: chemical liquid tank
41: chemical solution supply pipe 45: chemical solution container
46: water level valve 50: chemical liquid inlet pipe
55: air compressor 56: high pressure air supply pipe
60: drive motor 61: drive gear

Claims (4)

A plurality of injector bodies (10) disposed spaced apart from each other at selected positions of the greenhouse;
The injection guide tube 20 installed in the injector body 10, and formed by separating the chemical liquid transfer tube 21 and the high-pressure air passage 22 so that the high-pressure air and the chemical liquid are introduced and moved into different passages therein;
A chemical liquid injection hole 31 is provided at the end of the injection guide tube 20 and has a chemical liquid injection hole 32 communicating with the chemical liquid transfer tube 21, and the high-pressure air is provided around the chemical liquid injection hole 31. a two-fluid jet nozzle 30 having a high-pressure air discharge hole 34 communicating with the moving passage 22;
The chemical solution is stored, and the chemical solution tank 40 connected to the chemical solution supply pipe 41 to supply the stored chemical solution to the plurality of chemical solution tanks (45);
a chemical liquid container 45 installed on one side of the inner side of the plurality of injector bodies 10 to store the chemical solution supplied from the chemical solution supply pipe 41, and to store only a set amount by the water level valve 46;
a chemical liquid inlet pipe 50 connected between the chemical liquid container 45 and the injection guide tube 20 to introduce the chemical liquid stored in the chemical liquid container into the chemical liquid transfer tube 21;
An air compressor (55) connected to the injection guide pipe (20) and a high-pressure air supply pipe (56) to supply high-pressure air to the high-pressure air passage (22);
As the chemical liquid stored in the chemical liquid container 45 installed inside each injector body 10 is drawn out by the discharge pressure of the high-pressure air and is sprayed, all the chemical liquid is sprayed quantitatively without limitation in the distance from the chemical liquid tank 40 A chemical liquid quantitative injection system having a two-fluid injection nozzle, characterized in that it loses.
The method of claim 1,
A driving motor 60 is installed inside the injector body 10,
The injection guide tube 20 is connected to a first guide tube 20a fixedly installed in the interior of the injector body 10, and a first rotary joint 25 to the first guide tube 20a, and has an outer surface or a second guide tube 20b which is rotated by receiving the driving force of the driving motor 60 through the rotation gear 26 coupled to the first rotary joint 25,
The chemical liquid transfer tube 21 is connected to the second guide tube 20b or the two-fluid injection nozzle 30 and the second rotary joint 27. A chemical liquid metering system including a two-fluid injection nozzle.
The method of claim 1,
The two-fluid jet nozzle 30 includes a connection pipe 30a coupled to an end of the injection guide pipe 20 and having an air flow path formed at an edge thereof, coupled to a side surface of the coupling pipe 30a, and a central portion therein. One or more nozzles 30b provided with a chemical liquid injection port 31 and having a high-pressure air discharge passage 33 around it and a high-pressure air discharge hole 34 to communicate with the high-pressure air discharge passage 33,
An end of the chemical liquid injection port 31 protrudes more outward than the high-pressure air discharge hole 34 to be exposed to the outside of the nozzle 30b. .
According to any one of claims 1 to 3,
A two-fluid jet nozzle, characterized in that a spiral air induction groove (36) is formed on the inner surface of the air jet nozzle (30) so that the high-pressure air discharged through the high-pressure air discharge hole (34) is rotated and discharged. One chemical liquid metering system.

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