KR200469036Y1 - water supplying apparatus for crop plant - Google Patents

Abstract

The purpose of the present invention is to allow the drip lake to go out to one line when passing between fruit trees and fruit trees such as fruit trees, and to give a sufficient watering effect evenly in a short time in all directions of the root source. In addition, it is possible to connect the circular irrigation around the crops with a double ring so that the inner fruit drop can only be used for young fruit trees, and after two or three years only the outer circular drop hose or both lines can be used to give sufficient watering effect to the root zone. It was. The main configuration of the present invention is characterized in that the circular hose (5) is formed in concentric circles around the crop, the circular hose (5) is formed with a water supply hole (2) for supplying water, the circular hose ( 5) the inner circular hose 10 having a smaller diameter than the circular hose (5) is further installed, the irrigation hole (2) is a cover (7) that can block the irrigation hole (2) Or it is characterized in that any one of the control valve 25 made of a screw, characterized in that connecting the connecting pipe 20 between the circular hose 5 and the inner circular hose 10, the circular hose (5) is provided with a shutoff valve 11 and an outlet side shutoff valve 14 at the inlet and outlet of the water, and an inner shutoff valve 12 and an outlet side shutoff valve 16 at the connection pipe 20. It is characterized by the installation.

Description

Water supplying apparatus for crop plant

The present invention relates to a drip irrigation system that supplies water to crops but supplies water through a hole formed in a hose or pipe.

[Patent 1] Patent Publication No. 10-2011-0056756 (2011.05.31)

[Patent 2] Patent Publication No. 10-2003-0004743 (2003.01.15)

The position of the conventional drip irrigation water piped through a hose or pipe should be the same as the overall position of the fruit tree (crop) so that the fruit tree (crop) can be cultivated as desired with uniform watering.

In other words, the water supply is different depending on the location of the drop and the fruit (crop) when irrigation in the same amount, the growth can be different even in the same orchard (harvest if the drop hole location of the drip irrigation is uniformly placed in the plant location Reports of this increase have already been published)

In the soil water supply of drip irrigation, the soil surface oozes into the soil in the form of △ from the soil layer (typically 30 cm deep).

This is because the drip irrigation form through the hose 1 descends into the soil in the form of △, between the two drip irrigation holes △△, as shown in Figure 1, there is a gap that can not be watered in part (A) Occurs. Therefore, if the drip interval is less than 10cm or a certain time is required, the watering effect can be seen throughout the capillary effect, but a large amount of water is required and it is difficult to achieve the watering effect in a quick time during drought.

Root root zone, which actively absorbs nutrients and moisture of the fruit tree, depends on the characteristics of the fruit tree, but is widely spread around 30cm, which is the soil layer, and as shown in FIG. This distribution is characteristic.

As shown in the figure of Fig. 1, the water of the drip hose 1 is in the form of?, But the root zone that absorbs water is distributed in the shape of?, Which can be said to be in a staggered form. In this case, supplying a gap and abundant quantity is not a big problem, but most of the orchards in the environment that is not so much in the location of Korean orchards in the spring season when irrigation frequently in a wide orchard is not reasonable.

In order to compensate for this, two rows of drip lakes are laid between the trees, but this also requires a large amount of water, and in the summer, it is an obstacle and hassle in mechanical weeding. Alternatively, the conventional injection irrigation has a disadvantage in that waste of water is inefficient.

Therefore, the purpose of the present invention is to allow the drip lake to go to the outer line when passing between fruit trees and fruit trees, and to pass circularly in crops such as fruit trees, so as to give sufficient watering effect evenly in all directions of the root source.

In addition, by connecting the double irrigation line around the crop with double rings, only the inner round drip hose can be used for young fruit trees, and after two or three years only the outer round drip hose or both lines can give sufficient watering effect to the root zone. It was configured to be.

The main constitution of the present invention is to form a circular hose (5) in concentric circles around the crop, the circular hose (5) to form a water supply hole (2) for supplying water, the circular hose (5) The inner side circular hose 10 having a smaller diameter than the circular hose (5) is further installed on the inside, and the connection pipe 20 is connected between the circular hose 5 and the inner circular hose 10, the water supply hole (2) is characterized in that any one of a cover (7) or a screw control valve (25) formed to block the water hole (2), characterized in that the circular hose (5) in the inlet and outlet of the water In addition, the shutoff valve 11 and the outlet side shutoff valve 14 are installed, and the connection pipe 20 connecting the circular hose 5 and the inner circular hose 10 has an internal shutoff valve 12 at the inlet side of the water. It is characterized in that, the outlet side of the water outlet side is provided with an internal shut-off valve (16).

According to the present invention, water is irrigated in an inverted triangular shape with respect to the root, and water can be reached in a sufficiently large area quickly in a short time according to the structure of the root.

In addition, according to the present invention, in case of young seedlings, water may be selectively supplied by a method such as supplying water to the inner circular hose 10 and supplying water to the circular hose 5 when the tree grows more.

In addition, since the inner circular hose 10 and the circular hose 5 can be supplied with water at the same time, the supply of water to the root has an effect that can be efficiently supplied with a small amount of water consumption.

In addition, the amount of water supplied in the configuration of the cover 7 or the control valve 25 can be more finely adjusted, so that the plant can be grown in an optimal state.

1 is a diagram illustrating a conventional watering method.
2 illustrates the growth of the roots of crops;
3 illustrates the installation of a circular hose.
4 is another configuration example of the present invention
5 is another configuration example of the present invention
6 is a configuration example of a connector
7 is a configuration example of a control valve installed in the hose

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

3 illustrates a watering structure according to the present invention.

As shown in the present invention, the watering hose 1 is installed in a straight line, and the hose is configured to surround the tree by forming a circular hose 5 in a circular shape in the part where the tree is located.

On the outer surface of the hose, that is, on one side of the hose, a watering hole 2 is formed, and the watering hole 2 can form a cover 7 if necessary. The cover 7 may be configured in all the water holes 2 or optionally at regular intervals of the water holes 2. Thus, if necessary, the water pipe 2 may be closed. This configuration allows watering at regular intervals, allowing more precise control of watering.

4 is another embodiment of the present invention.

In this embodiment, the inner circular hose 10 is further configured inside the circular hose 5.

And several valves were installed as needed.

The shutoff valve 11 is installed in the circular hose 5 to prevent water from entering the circular hose 5. And the hose 1 is also connected to the inner circular hose 10 in a straight line, in this case to install the internal shut-off valve 12. Then, water can be selectively supplied to the circular hose 5 and the inner circular hose 10.

When the shutoff valve 11 and the outlet side shut-off valve 14 are locked, water flows out of the inner circular hose 10 and, on the contrary, when the inner shutoff valve 12 and the outlet side shut-off valve 16 are locked, the circular hose 5 is closed. Only water turns around and exits.

With this configuration, the irrigation can be selectively irrigated according to the size of the tree and the growth and growth of the roots.

5 is a modified embodiment of the present invention.

As shown in FIG. 5, the inner circular hose 10 and the circular hose 5 were connected in all directions by several connecting pipes 20. In this configuration, the supply of water between the inner circular hose 10 and the circular hose 5 is faster, and the water penetrates into the water pipe formed in the connecting pipe 20 therebetween, so that water is more evenly distributed to the roots. Can supply In addition to the embodiment of FIG. 5, the inner circular hose 10 may be provided with one more inner circular hose having a smaller diameter. That is, up to three circular concentric circular hoses may be provided.

6 is a view illustrating a connection between the inner circular hose 10 and the circular hose (5).

As shown, the connection between the two members is connected to the connecting pipe 20, which can be connected using the saddle (21). Of course, it can be connected in many other configurations.

7 is a reference to another embodiment of the cover 7 of FIG. 3, a control valve 25 is installed in the irrigation hole 2 instead of the cover 7.

The control valve 25 is processed in the form of a screw, and the female thread is also machined in the hose 1. In this case, it is more preferable that the hose 1 be made of a metal material or a hard plastic material. The control valve 25 is configured to be narrower toward the bottom of the lower, it is possible to adjust the amount of water leakage according to the degree of loosening the adjustment screw. At the bottom, a blocking plate 27 is installed to prevent the control valve 25 from being completely released.

According to the above configuration, in the case of young seedlings, water can be selectively supplied by a method of intensively supplying water to the inner circular hose 10 and supplying water to the circular hose 5 when the tree grows more. .

In addition, since the inner circular hose 10 and the circular hose 5 can be supplied with water at the same time, the supply of water to the root has an effect that can be efficiently supplied with a small amount of water consumption.

In addition, the amount of water supplied in the configuration of the cover 7 or the control valve 25 can be more finely adjusted, so that the plant can be grown in an optimal state.

1 hose 2 irrigation
3 water 5 round hose
7 Cover 10 Inner Round Hose
11 Shut-off valve 12 Shut-off valve
14 Outlet side shutoff valve 16 Outlet side shutoff valve
20 connector 21 saddle
25 Control valve 27 Block plate

Claims (1)

The circular hose (5) is formed in concentric circles around the crop, and the circular hose (5) forms an irrigation hole (2) for supplying water,
An inner circular hose 10 having a smaller diameter than the circular hose 5 is further installed inside the circular hose 5, and a connection pipe 20 is provided between the circular hose 5 and the inner circular hose 10. Connect the
The circular hose (5) is provided with a connection valve for connecting the circular hose (5) and the inner circular hose (10) by installing a shutoff valve (11) and an outlet side shut-off valve (14) in the inlet and outlet of the water ( 20) an inner shutoff valve 12 is installed on the inlet side of the water, and an outlet inner shutoff valve 16 is installed on the outlet side of the water,
The watering hole (2) is a drop irrigation device for crops, characterized in that any one of a cover (7) or a screw control valve (25) formed to block the watering hole (2).

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