KR101390952B1 - drip irrigation nozzle and drip irrigation hose having the same - Google Patents

Abstract

The present invention is installed in the hose is formed in the discharge hole along the longitudinal direction, formed in the circumferential direction in the central portion in the longitudinal direction and having at least one inlet hole, the opening and closing valve for opening and closing the inlet hole with or without water pressure and And a hollow tube-shaped drop water supply nozzle having a discharge part formed at a position corresponding to the discharge hole and symmetrically spaced to both sides with respect to the inflow part, and symmetrically between the inflow part and both discharge parts. Each of the independent flow path is formed, characterized in that it comprises a pair of pressure-reduced flow passage formed on the entire circumferential peripheral surface to have a plurality of bending sections from the inlet to the discharge portion.
As a result, a water supply amount is uniform from a water supply start point to a distance, and a water supply nozzle and a water supply hose having the same, which can prevent the water supply blockage from being delayed due to residual water pressure when the water supply is interrupted, are provided.

Description

Drip irrigation nozzle and drip irrigation hose having the same

The present invention relates to a drip water supply nozzle and a drip water supply hose having the same, having a uniform water supply from a water supply starting point to a distance, and capable of preventing a water leakage phenomenon due to residual water pressure when the water supply is stopped, and a drip water supply hose having the same. It is about.

In order to grow a variety of plants, including crops, it is necessary to supply a certain amount of water repeatedly and continuously.

Recently, in order to make water supply for plant cultivation easier and more convenient, technologies for supplying water in a drip manner have been introduced.

As a drip-type water supply technology, as disclosed in Republic of Korea Utility Model Publication No. 20-0376067, as shown in Fig. 1 and 2, a drip irrigation structure for crop cultivation has been disclosed.

This crop cultivation drop irrigation structure has a cylindrical dropper 110, which is pressed around the entire circumference of the hose 120, the dropper 110 is a sealing portion 111 in contact with the inner surface of the hose 120 at the longitudinal end ), The inlet 113 perforated to take water on the outer circumferential surface, the bending decompression unit 115 for depressurizing the water, the dispensing unit 117 for dividing the depressurized water into both ends, and storing water for distribution. To this end, the sealing part 111 and the decompression part 115 have a storage part 118 formed along the circumferential surface. In addition, a plurality of micropores 121 are formed on the surface of the hose 120 surrounding both reservoirs 118.

The crop irrigation structure for crop cultivation moves water to the distribution unit 117 while water pressure is reduced in the decompression unit 115 through the inlet 113 of the dropper 110 through the water supplied through the hose 120. Water dispensed at 117 is discharged to the outside through the micro holes 121 of the hose 120 through both magnetic fields.

However, the drop irrigation structure for crop cultivation has no water blocking structure on the water flow path formed from the inlet of the dropper to the pressure reducing part and the storage part and the micropores of the hose. High water pressure is maintained, but in a dropper located remotely from the water supply start point, the water pressure decreases farther away. This causes a problem that the water supply amount decreases from the water supply start point to the distance.

In addition, as described above, since there is no water blocking structure on the movement path of the water, even if the water supply is blocked, the water pressure gradually decreases from the region located far from the water supply start point to the water supply start point, thereby delaying the water supply cutoff. There is a problem.

Accordingly, it is an object of the present invention to provide a drip water supply nozzle having a uniform amount of water from a starting point of water supply to a distance and preventing water supply from being delayed due to residual water pressure when the water supply is stopped.

The object is installed in the hose is formed in the discharge hole along the longitudinal direction, in accordance with the present invention is formed in the circumferential direction in the central portion in the longitudinal direction and having at least one inlet hole, the inlet hole depending on the presence or absence of water pressure In the hollow tube-shaped drop water supply nozzle having an opening and closing valve to be opened and closed and symmetrically spaced on both sides with respect to the inlet and formed in a position corresponding to the discharge hole, between the inlet and the both outlet It is formed by each of the flow path symmetrically independent from the inlet, the dropping water supply nozzle characterized in that it comprises a pair of pressure-reduction flow passage formed on the entire circumferential peripheral surface to have a plurality of bending sections from the inlet to the discharge portion Is achieved.

Here, an inflow groove recessed along the circumferential direction is formed in the center of the outer circumferential surface of the inflow portion, and it is preferable that a plurality of inflow holes are formed in the inflow groove along the circumferential direction.

In addition, the on-off valve is effectively an elastic tube that is elastically in close contact with the outer peripheral surface of the inlet.

At this time, the outer circumferential surface outer diameter of the on-off valve is more preferably equal to or smaller than the outer circumferential outer surface of the bottom of the pressure reducing passage and spaced apart from the inner circumferential surface of the hose.

In addition, it is more effective that the outer circumferential surface outer diameter of the inlet portion has a smaller outer diameter than that of the bottom outer circumferential surface of the decompression passage.

On the other hand, the object of the present invention, in the drop water supply hose having a hose for supplying water for plant cultivation, and a hollow tube-shaped drop water supply nozzle which is installed at intervals along the longitudinal direction inside the hose, The nozzle is provided with the above-mentioned drip water supply nozzle, and at least one discharge hole is formed in the hose in the region corresponding to the discharge portion of the drip water supply nozzle.

According to the present invention, a water supply amount is uniform from a water supply start point to a distance, and a water supply nozzle having a water supply nozzle and a water supply hose having the same which can prevent the water supply blockage from being delayed due to residual water pressure when the water supply is interrupted are provided.

1 and 2 are a perspective view of another conventional drip type hose and dropper,
3 is a perspective view of a drip water nozzle according to the present invention;
4 is a partial perspective view of the drip water supply hose having the drip water supply nozzle of FIG. 3;
5 is a cross-sectional view of the drip water supply hose of FIG.

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

As shown in Figures 3 to 5, the drop water supply nozzle 3 according to the present invention preferably has a hollow tube shape through both sides in the longitudinal direction, the interval in the longitudinal direction in the hose 5 to be described later It is inserted and left. At this time, the drop water supply nozzle (3) is preferably in the form of a circular tube, in some cases may be in the form of a square tube.

The drip water supply nozzle 3 has an inlet 10 through which water delivered to the outer periphery surface is introduced into the hose 5 and a discharge part 30 to be described later while reducing the water pressure of the water introduced into the inlet 10. It has a structure in which a decompression passage (20) for guiding to and a discharge portion (30) for discharging the water delivered from the decompression passage (20) to the outside of the hose (5).

The inflow portion 10 is formed along the circumferential direction with a predetermined width and depth on the outer peripheral surface of the longitudinal center portion of the dripping water supply nozzle 3, and the inflow groove recessed along the circumferential direction on the central portion of the outer peripheral surface of the inflow portion 10. (11) is formed. At least one (preferably plural) inflow holes 13 are formed in the bottom surface of the inflow groove 11 in the circumferential direction. The inflow hole 13 communicates with the inside of the drip water supply nozzle 3.

In addition, the inlet portion 10 is provided with an opening and closing valve 15 for opening and closing the inlet hole 13, the opening and closing valve 15 is elastic material such as rubber so as to be in close contact with the outer peripheral surface of the inlet portion (10) Produced in the shape of a tube is coupled to the inlet (10). The open / close valve 15 is elastically deformed according to the presence or absence of water pressure of the water flowing through the inlet hole 13 to open and close the inlet hole 13.

In consideration of the elastic deformation of the opening / closing valve 15, the opening / closing valve 15 should be spaced apart from the inner circumferential surface of the hose 5 into which the drip water supply nozzle 3 is inserted in the inlet 13 closed state. . The outer circumferential surface of the inlet 10 has a smaller outer diameter than that of the bottom outer circumferential surface of the decompression passage 20, and the outer circumferential surface of the open / close valve 15 is equal to or smaller than the outer circumferential outer surface of the bottom of the decompression passage 20. It is possible to.

The reduced pressure passage 20 is symmetrically formed to have a plurality of bending sections from both sides of the inlet portion 10 toward both discharge portions 30 to be described later. The decompression passage 20 is formed to have a labyrinth shape by a flow path forming rib 21 protruding from the outer circumferential surface of the drip water supply nozzle 3, and flow path forming ribs 21 adjacent to both sides in the width direction of the inflow part 10. Depressurization flow path inlet 23 is formed in one region of the inlet 10 and the decompression flow passage 20, and in one region of the flow path forming ribs 21 adjacent to both discharge portions 30, A reduced pressure passage 25 is formed to connect the flow path 20 and the discharge part 30. The outer circumferential end of the flow path forming rib 21 is hermetically attached to the inner circumferential surface of the hose 5 by inserting the drop water supply nozzle 3 into the hose 5.

The discharge part 30 is symmetrically spaced apart from the inlet part 10 with the decompression flow path 20 interposed between both sides of the droplet feed nozzle 3 in the longitudinal direction. These discharge parts 30 are spaces between the discharge part forming ribs 31 protruding in the circumferential direction on the outer circumferential surfaces of the longitudinal water supply nozzles 3 and the flow path forming ribs 21 adjacent to the discharge part 30 side. The discharge part forming rib 31 is hermetically attached to the inner circumferential surface of the hose 5 by inserting the drop water supply nozzle 3 into the hose 5.

On the other hand, as described above, the drip water supply nozzle 3 is inserted in the hose 5 for the water supply at intervals along the length direction, so that the drip water supply nozzle 3 is a combination of the nozzles and the hose (5) The hose 1 is formed. At this time, at least one (preferably plural) discharge holes 5a are formed in the surface of the hose 5 in the region corresponding to the discharge portion 30 of the drop water supply nozzle 3. The discharge hole 5a may be formed on the surface of the hose 5 corresponding to both discharge parts 30, and in some cases, may be formed only on the surface of the hose 5 corresponding to any one discharge part 30. have.

In the process of inserting the drip water supply nozzle 3 into the hose 5, the inlet 10 is formed at the central portion in the longitudinal direction of the drip water supply nozzle 3, and the pressure reducing passage 20 is formed at both sides of the inlet 10. Since the and the discharge part 30 are formed symmetrically, it can insert in the hose 5 irrespective of the insert direction of the drop water supply nozzle 3. Thereby, while providing the manufacturing convenience of the drop water supply hose 1, manufacturing defects can be prevented.

It looks at the process of watering the plant using a drop water supply hose (1) having a drop water supply nozzle (3) according to the present invention having such a configuration.

Water supplied from the water supply source moves along the hose 5 and is discharged to the outside of the hose 5 through the drop water supply nozzles 3, as shown in FIG. 5, the inlet hole (3) in the drop water supply nozzle 3. 13 is introduced into the inlet 10 through. At this time, the opening and closing valve 15 of the inlet 10 is opened by the inlet hole 13 while being elastically expanded by the water pressure, the water is introduced into the inlet (10).

Water flowed into the inlet 10 is moved along both decompression passages 20 through the decompression passage inlets 23 on both sides of the inlet 10, and the pressure of the water is reduced.

The pressure-reduced water is delivered to the discharge part 30 through the decompression flow path 25 on both sides, and the water delivered to the discharge part 30 is discharged to the outside through the discharge hole 5a formed in the hose 5. And is supplied to plants.

On the other hand, in the drip water supply hose 1 having the drip water supply nozzle 3 according to the present invention, the water supply amount is uniformly maintained from the water supply start point to a distance, which is an on-off valve provided in the inlet portion 10 of the drip water supply nozzles 3. This is made possible by the fact that (15) plays a role of pressure compensation.

That is, the opening / closing valve 15 of each of the drip water supply nozzles 3 blocks the inlet hole 13 until a water pressure is formed to open the opening and closing valve 15 in the hose 5 from a water supply start point to a long distance. When the proper water pressure is formed, the opening / closing valve 15 of each of the drip water supply nozzles 3 opens the inlet hole 13 so that the water is discharged from the hose 5 through the drip water supply nozzles 3 at the same water pressure. It is fed to the plant through the ball 5a.

Then, when the water supply is stopped, the water pressure inside the hose 5 is lowered, the on-off valve 15 is elastically contracted to block the inlet hole 13, it is possible to immediately block the discharge of water. Thereby, delay of water supply interruption by residual water pressure can be prevented.

In addition, in the drip water supply hose 1 having the drip water supply nozzle 3 according to the present invention, foreign matter contained in the water supplied to the hose 5 is filtered through the drip water nozzle 3 and discharges through the discharge hole 5a. Discharged. This is because the on-off valve 15 is elastically blocking the inlet hole 13 relatively close to the inlet hole 13, the foreign matter contained in the water can not pass through the inlet hole (13). Will be. This makes it possible to physically filter the water supplied to plants and the like.

As described above, according to the present invention, a water supply amount is uniform from a water supply starting point to a distance, and a water supply nozzle having a water supply nozzle and a water supply hose having the same, which can prevent the water supply blockage from being delayed due to residual water pressure when the water supply is interrupted, is provided.

Although the above-described and embodiments describe the drop water supply nozzle and the drop water supply hose having the same according to the present invention are used for water supply for plant cultivation, according to the present invention, the drop water supply nozzle according to the present invention and the drop water supply having the same In addition to water supply for plant cultivation, the hose can be used for various purposes to supply a small amount of water continuously and uniformly.

1: drip water supply hose 3: drip water supply nozzle
5: hose 10: inlet
15: on-off valve 20: pressure reducing flow path
30:

Claims (6)

It is installed in the hose is formed in the discharge hole along the longitudinal direction, formed in the circumferential direction in the central portion in the longitudinal direction is provided with an inlet having at least one inlet hole and an elastic tube elastically in close contact with the outer peripheral surface of the inlet In the hollow tube-shaped drip water supply nozzle having an opening and closing valve for opening and closing the inlet hole according to the presence or absence of water, and the discharge portion symmetrically spaced on both sides with respect to the inlet portion and formed in a position corresponding to the discharge hole,
A pair of decompression flow paths formed on the entire circumference of the circumference to have a plurality of bending sections from the inflow part to the both discharge parts while being formed as symmetrically independent flow paths between the inflow part and the both discharge parts;
The outer circumferential surface of the inflow portion has a smaller outer diameter than the outer circumferential surface of the bottom of the decompression passage, and an inflow groove recessed along the circumferential direction is formed in the center of the outer circumference surface of the inflow portion, and the inflow hole has a circumferential direction in the inflow groove. Are formed in plurality;
The outer circumferential surface outer diameter of the on-off valve is the same as or smaller than the outer circumferential outer surface of the bottom of the pressure-reduced flow path, the drip water supply nozzle, characterized in that spaced apart from the inner circumferential surface of the hose. delete delete delete delete In the drop water supply hose having a hose and a hollow tube-shaped drop water supply nozzle which is installed at intervals along the longitudinal direction in the hose,
The drop water supply nozzle is provided with the drop water supply nozzle of claim 1,
Dropping water supply hose, characterized in that at least one discharge hole is formed in the hose in the area corresponding to the discharge portion of the water supply nozzle.

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