KR200152741Y1 - Nozzle - Google Patents

Abstract

[Technical field to which the invention described in the claims belong]

Nozzle

[Technical challenges that drafts try to solve

The conventional nozzle is a structure that directly injects the chemical liquid depending on the pumping pressure of the pump, so that the injection distance is short, the waste of the chemical liquid is large, and the drug effect is uneven depending on the location of the crop.

[Summary of solution of draft]

The nozzle of the present invention is a structure capable of injecting the chemical liquid and air together, so that the chemical liquid of finer particles is sprayed onto a wider range of crops than the conventional chemical liquid spray by the conventional nozzle, so there is less concern of crops and less chemical liquid. This is a very economical nozzle that can achieve the same effect.

[Important Uses of Design]

Spraying of pesticides and liquids

Description

Nozzle

1 is an exploded perspective view of the nozzle of the present invention.

Figure 2 is a longitudinal cross-sectional view of the combined state of the present invention.

Figure 3 is a perspective view for showing the state of use of the nozzle of the present invention.

* Explanation of symbols for main parts of the drawings

1: nozzle 10: body

11: nipple insertion hole 12: chemical liquid inlet

12a: chemical liquid injection hole 12b: chemical liquid injection hole

13: air inlet port 13a: air injection hole

13b: air injection port 20: nozzle cap

21 nozzle nozzle 30 cap coupling hole

40: nipple 50: nozzle coupling port

60: locking jaw 70: space

80: pipe and nozzle connector 90: hose

The present invention relates to a nozzle, and more particularly to a nozzle that allows to spray the pesticide and air at the same time.

The conventional nozzle structure is composed of a nozzle injection port formed in the body and the nozzle cap, pumped into the pesticide solution by a pump having a configuration that simply injects the chemical through the nozzle injection port after the chemical solution is introduced into the nozzle through a pipe or hose. will be.

Therefore, the conventional nozzle which is discharged by increasing the expansion pressure of the chemical liquid in the pipe by the pump of the pump is sprayed through the nozzle injection port and then dispersed into small particles by the resistance of the air in the air is sprayed on the crop. However, the chemical liquid sprayed in this way is sprayed onto crops without securing the distance and time necessary for finer dispersion, and thus the chemical liquid has a closed end that is concentrated only in the direction of the nozzle injection port, so that the waste of chemical liquid is larger than the sprayed area. For example, crops near the nozzles may be sprayed with a large amount of chemical liquid, and the crops in the distant area may be sprayed with too small amount of chemical liquid, resulting in a poor effect. In addition, the conventional nozzle has a disadvantage in that the chemical liquid is injected only by the pumping pressure by the pump, so that the distance at which the chemical liquid can be injected is limited to the pumping pressure.

As such, the present invention is designed to solve the disadvantage that the conventional liquid injection distance of the nozzle is short, the waste of the chemical liquid is greater than the chemical effect, and the spreading amount of the chemical liquid is uneven depending on the position of the crop. By supplying and spraying the chemical liquid to be ejected by the pumping pressure of the pump by the nozzle of the present invention and the air injected by the air ejecting means such as the compressor at the same time, the chemical liquid can be injected far farther than the conventional nozzle, Since the chemical liquid is already dispersed by the pressure of the air injected in the nozzle, the chemical liquid is sprayed again through the nozzle injection port, so that the chemical liquid is more finely dispersed by the resistance of the air, thereby preventing the chemical liquid from being concentrated in one place. It is evenly spread on the surface of the crop.

As such, the nozzle of the present invention is widely spread in the form of fine particles while passing through the nozzle injection port of the chemical liquid, and thus the chemical liquid spraying range is increased, and the difference in the weakness and the effect due to the distance from the nozzle is reduced, and even with a smaller amount of the chemical liquid than the conventional nozzle. The same effect can be obtained.

Such a configuration of the present invention will be described in detail with reference to the accompanying drawings as follows.

The nozzle 1 of the present invention has a nipple 40 to which a hose 90 is connected to a middle portion of the body 10 and a nipple insertion hole 11 into which the nipple 40 can be inserted. Therefore, the chemical liquid inlet 12 is formed on the outer circumferential surface of the body 10 by the nipple 40, and the chemical liquid inlet 12 is formed at the center of the tip of the body 10 and the chemical liquid injection hole 12b. Through 12a), the through hole is formed at a right angle. At this time, it is preferable that the chemical liquid injection port 12b protrudes slightly ahead of the air injection port 13b in order to facilitate the injection of the chemical liquid.

In addition, two to six air injection holes 13a formed in a state surrounding the chemical injection hole 12a are formed to penetrate from the end of the body 10 to the body 10.

That is, the air injection hole 13a of the end of the body 10 connected to the pipe or the nozzle connector 80 by the nozzle coupling port 50 becomes the air inlet 13 and the air injection hole 13a of the tip is air It becomes the injection port 13b. Therefore, the air injection port 13b is to discharge the air to the space portion 70 once.

In addition, the nozzle cap 20 formed at the front end of the body 10 is coupled to the body 10 directly to the body 10 or by a cap coupling port 30, the nozzle cap 20 is a nozzle nozzle ( 21, and since the cross-sectional shape is tapered in the rear of the nozzle injection port 21, the space 70 between the nozzle cap 20 and the body 10 when the nozzle cap 20 and the body 10 are combined. ) Can be formed.

Therefore, the air of the strong pressure introduced through the air inlet 13 is ejected to the air ejection opening 13b through the air ejection hole 13a penetrated to the space 70, and the ejected air is the space 70 Is ejected to the nozzle injection port 21 again.

At the same time, the chemical liquid introduced into the chemical liquid inlet 12 is ejected to the chemical liquid ejection port 12b through the chemical liquid injection hole 12a and ejected to the nozzle ejection port 21 again. At this time, the air is once again dispersed by the air being ejected. With the jet to the atmosphere.

Therefore, the supply of air and chemical liquid to the present invention nozzle (1) having the structure as described above is a nozzle coupling port (3) to the pipe or nozzle connector (80) for supplying air to the nozzle (1) as shown in FIG. In the coupled state by 50), the pipe is supplied with air of a strong pressure generated by a compressor or an air generating device, so that the air is introduced through the air inlet 13 of the nozzle 1, and the chemical liquid is pumped. The pump has a configuration that is introduced into the chemical liquid inlet 12 through the hose (90).

As such, the present invention has a structure capable of simultaneously injecting chemical liquid and air, and thus the chemical liquid is dispersed in fine particles by the pressure of air in the nozzle before passing through the nozzle nozzle, so that the chemical liquid is in a wider range than the conventional nozzle. It can spray finer chemicals, so it can be sprayed with a smaller amount of chemicals, and it can spread chemicals to far-field crops, but the chemicals sprayed on the surface are not concentrated in one place. There is little fear of wearing, and it is a very economical design that can obtain the same effect with less chemical liquid than the conventional nozzle.

Claims (2)

In the nozzle 1 for injecting the air and the chemical solution together, the chemical liquid inlet 12 is formed at the outer circumferential surface of the body 10, and the chemical liquid inlet 12 is formed at the center of the tip of the body 10. (12b) and through the chemical injection hole (12a), the air injection hole (13a) formed in a state surrounding the chemical injection hole (12a) is penetrated from the end of the body 10 to the tip of the body (10) And a nozzle cap (20) having a nozzle injection port (21) and a space portion (70) is formed directly on the body (10), or is coupled and configured by a cap coupling port (30). The nozzle according to claim 1, wherein the chemical liquid injection port (12b) formed at the center of the front end of the body (10) is projected slightly further forward than the air injection port (13b).