KR101991901B1 - Drip hose for growing plant with water path for throttling and filtering - Google Patents

Abstract

The present invention relates to a drip hose having a flow path for pressure regulation and filtration. The hose not only ensures that water is discharged to an outlet as the water supplied to an inlet is sufficiently filled in the inside of the hose, but also filters the water flowing to the outlet and generates turbulence, thereby preventing the outlet from being blocked.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a drip hose having a flow path for pressure control and filtration,

The present invention relates to a drop hose, and more particularly, to a drop hose which is capable of discharging the water supplied to the inlet to the outflow port in a state in which the water is sufficiently filled in the inside of the hose, To a closure hose having a flow path for pressure regulation and filtration which can prevent clogging of the outlet port by filtration.

Generally, when cultivating crops, hose is piped or water is supplied by spraying, and the method of supplying water according to the growing period of the crop is different. For example, when seedlings such as strawberries are cultivated, seedlings are transplanted and water is sprayed on the adjacent crops using a sprinkler or spraying hose until the roots of the seeded crops are settled. The roots of the crops are activated, and vinyl mulching is carried out The water is dropped by using a drop hose.

There are various technologies related to such dot hoses, for example, Patent Documents 1 to 3. These dot hoses are generally formed by overlapping both longitudinal edges of a long vinyl film and fusing them to form a flow path through which water flows, Thereby forming a drip drain port through which water is injected into a part of the drain port.

As shown in Fig. 7, the vinyl film is folded and the end portions in the longitudinal direction are fused in the overlapped state to form the adhesive portion 110, and the flow path 120 is formed in a part of the tangential portion, Or an end portion in the longitudinal direction may overlap the inner surface and the outer surface and then the overlapped portion may be adhered to form a bonding portion and a channel may be formed in a part of the bonding portion to form a channel in the middle portion of the hose There is one thing.

The inlet 120i is formed on the inside of the flow channel 120 and the outlet 120o is formed on the outside of the flow channel 120 so that the water introduced into the inlet 120 moves along the flow channel and is supplied to the outside through the outlet.

As shown in Fig. 7, the drip hose is formed with the flow paths having the number of openings and the outflow ports at regular intervals.

As described above, the water flow paths formed in the conventional drop hose are formed at regular intervals as described above, and water is supplied to all the plants uniformly at the same time from the entire hose through the flow channel. However, At the same time, the drip channels of the inflow portion are opened to start the water supply, and the water in the inflow portion is already supplied to the water. Thus, while the water passing through the hose is pushed up to the opposite end portion of the hose, There is a problem that the water is not supplied evenly because the water is supplied through the drip channel.

In other words, the plants at the end of the hose are fed with a large amount of water, whereas the plants at the opposite end are fed with a relatively small amount of water, so that the root is rotten by the excessive water supply, There was a problem of failing due to lack.

In addition, when the conventional drip hose is introduced into the hose and foreign matter is contained in the water discharged to the outlet through the micro flow path, foreign matter blocks the micro flow path and water can not be discharged to the outlet.

Korean Patent Publication No. 2001-0089485 Korean Patent Publication No. 2012-0064283 Korean Patent No. 1205554

As described above, the present invention has been developed in order to solve the problems of the prior art, and it is an object of the present invention to provide a water supply apparatus and a water supply method, in which water supplied to an inlet of one end of a hose is sufficiently filled in a hose, And to provide a drop hose having a flow path with a pressure regulating and filtering function which can be made uniform throughout the hose.

Further, the present invention is characterized in that an induction flow path for filtration and turbulent flow formation is formed at the front end of the point flow path, turbulence is generated in the water flowing into the point flow path and at the same time, a foreign substance can be filtered, And it is an object of the present invention to provide a drop hose having a flow path for regulating and filtering functions.

To achieve these and other advantages and in accordance with the purpose of the present invention, as embodied and broadly described herein, there is provided a drip hose having a flow path for pressure control and filtration according to the present invention, the drip hose having a dribble flow path formed with a drib- A pressure regulating filtration flow path portion provided with a plurality of flow path changing pillars formed at a front end thereof is formed so that foreign matter is filtered by the pressure regulating filtration flow path portion before water flows into the inlet port and water collides with the column to form a turbulent flow Accordingly, the water outlet is opened through the outlet port of the drip-channel unit, and the drip channel is prevented from being clogged by the foreign matter.

One end of the pressure regulating and filtering flow path portion is separated from the inner wall of the hose and can be partially brought into contact with the inner wall of the hose according to the hydraulic pressure of water supplied into the hose.

The passage changing column is formed in multiple rows in the longitudinal direction of the hose and a distance gap is formed between the adjacent ones while facing the inlet port of the ditch flow path portion and the gap between the flow path changing pillars formed at the outermost portion is a width It is preferable that the thickness is smaller.

As described above, the drip hose having the flow path of the pressure control and filtering function according to the present invention is provided with the induction flow path, and when the water supplied to the inlet of one end of the hose is sufficiently filled in the inside of the hose, As the water is discharged to the outlet port, the supply of water can be made uniform throughout the hose.

That is, since the amount of water discharged to the outflow port of each drip channel formed in the entire drip hose is even from the inlet to the opposite side end of the hose, water is uniformly distributed throughout the crop, thereby enabling the crop to grow evenly.

According to the present invention, a passage changing column is formed in the induction passage, and the space is gradually widened from the inlet port toward the pointed passage so that filtration is performed between the outermost passage changing columns, and the water flow It is possible to prevent clogging of the flow path.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of an example of a point hose having a flow path for pressure control and filtration according to the present invention; Fig.
Fig. 2 is an enlarged cross-sectional view of a part of a drop hose having a flow path for pressure control and filtration according to the present invention,
3 is an enlarged cross-sectional view of an enlarged portion of another example of a point hose having a flow path for pressure control and filtration according to the present invention
4 is a plan view of another example of the point hose having the flow path for the pressure control and filtering function according to the present invention
5 is a plan view of another example of the point hose having the flow path for the pressure regulating and filtering function according to the present invention
6 is a plan view of another example of the point hose having the flow path of the pressure control and filtering function according to the present invention
7 is a plan view of an example of a conventional drop hose

The present invention is capable of various modifications and various embodiments, and specific embodiments are illustrated in the drawings and described in detail with reference to the drawings. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

In the following description of the drawings, like reference numerals are used for like elements, and a detailed description of related arts will be omitted when it is determined that the gist of the present invention may be obscured.

The present invention filtrates water supplied to the drip channel portion and forms turbulence at the same time to smooth the flow of water, and also enables the supply of water to be constant throughout the hose.

1 to 5, the drip hose 10 having the flow path of the pressure regulating and filtering function according to the present invention is provided with the pressure regulating filtration flow path portion 12 on one side of the drip flow path portion 11 .

The drip channel portion 11 is formed to have the same shape as a conventional drip hose and the water introduced through the inlet port 11i is delivered to the outlet port 11o through the drip channel 11r, Lt; / RTI >

The water discharged through the drip channel portion 11, that is, the water flowing inside the hose may have foreign substances such as fine soil or sand, and if the drip channel is clogged by the water, the drip hose itself can not be used, It is preferable to filter out foreign matter from the water flowing into the flow path portion 11. [

In addition, the drip channel portion is formed by the inlet port, the flow channel portion, and the outlet port as one unit, and many of the drip channel portions of these units are provided at equal intervals throughout the hose. Water is introduced into the inlet of the hose, and at the same time, the drip channel of the portion into which the water flows is opened to start the water supply, and the water in the inlet portion is already supplied to the water. There is a problem in that the water is not supplied to all of the users because the water is supplied through the drip channel formed at the opposite end of the hose while being pushed up to the opposite end of the hose.

Accordingly, the present invention provides the pressure-regulating filtration channel portion 12 to filter water and simultaneously supply water to the entire drip-channel portion.

As shown in FIGS. 1 to 5, the pressure regulating and filtering flow path unit 12 is formed by providing a plurality of flow path changing pillars 12d at the front end of the inlet port 11i of the bypass flow path.

The pressure regulating and filtrating flow path portion 12 is formed by filtering the foreign matter before the water in the hose flows into the inlet 11i and forming a turbulent flow so that water is filled all over the inside of the hose, And the drip channels and the outflow ports are opened to uniformly supply water through the outlets of all the dribble channel portions as well as to prevent the drip channels from being clogged by foreign matter.

In other words, the plurality of flow path changing pillars formed in the pressure regulating and filtering flow path portion 12 collide with water in the process of passing water through the pressure regulating and filtering flow path portion 12, Thereby preventing foreign matter from accumulating inside the part 12. [

As shown in the drawing, the pressure regulating and filtrating flow path portion 12 is provided with a plurality of flow path changing columns in multiple rows, so that it takes a long time for the water to pass through the pressure regulating and filtering flow path portion 12, The water flows into the inlet port of the drip channel portion so that the drip channel portion of the entire hose is opened at the same time so that water can be evenly supplied to the entire hose.

In addition, it is possible to prevent foreign matter from flowing into the drip channel portion by adjusting the interval between the plurality of channel changing pillars 12d constituting the pressure regulation filtration channel portion 12,

That is, as shown in FIG. 6, the flow path changing post 12d is formed in multiple rows in the longitudinal direction of the hose, and a distance gap is formed between the adjacent ones while facing the inlet 11i of the bypass flow path, It is preferable that the gap between the flow path changing columns formed at the outermost portion is formed to be smaller than the width of the dot flow path.

By forming the distance between the outermost channel changing columns 12d to be smaller than the width of the ditch channel portion, the foreign matter is blocked by the channel changing ditches 12d, and the dirty channel portion can be prevented from being clogged by the foreign substance will be.

Of course, the foreign matter caught in the flow path between the outermost flow path changing pillars 12d can be washed away by the water flowing in and out of the pressure regulating filtration flow path portion 12 in the process of flowing water in the hose.

As shown in FIG. 1 and FIG. 2, the pressure regulating and filtering flow path unit 12 may be installed in a state in which the outermost flow path changing pillars 12d are in close contact with the inner wall of the hose, One end of the outermost flow path changing post 12d is formed from the inner wall of the hose 12d as shown in Fig. 3 so that the foreign matter caught between the outermost flow path changing pillars 12d can be separated from the outermost flow path changing pillars 12d more easily It is preferable to separately install them.

3, only the portion corresponding to the inlet 11i, which is the inside of the pressure regulating and filtering flow path portion 12, is fixed to the inner wall of the hose and the other portion is separated, Partially in contact with the inner wall of the hose.

Accordingly, when water is introduced into the hose, the portion having a relatively high hydraulic pressure is brought into contact with the inner wall of the hose, and the other portion is separated, so that the open portion of the oil passage is changed.

3 shows an example in which the entire outermost end of the pressure regulating and filtrating flow path 20 is separated from the inner wall of the hose. However, a part of the pressure regulating filtration flow path 20 may be adhered to the inner wall of the hose and partially separated.

5 and 6, a sealing portion 12c may be further formed in a portion of the pressure regulating and filtrating flow path portion 12, and the sealing portion 12c may be formed in such a manner that water And to allow the water to flow into the pressure regulating and filtering channel portion 12 after being filled.

Further, as shown in Fig. 6, an inlet blocking line 12r is further formed on the outside of the inlet port 11i of the drip channel so that water flowing into the inlet port 11i can receive resistance and control the quantity of water flowing into the inlet port .

That is, by further forming the inlet blocking line 12r, water that has flown into the hose and passed through the pressure regulating and filtering flow path 20 is bypassed directly to the inlet and outlet of the inlet blocking line, So that water can be uniformly supplied to the entire hose.

As described above, the present invention relates to a drop hose having both a pressure control function and a filtration function, so that water can be uniformly discharged from the entire hose, and the hose can be prevented from being clogged by filtering foreign matter.

10: Drip hose
11:
11a: Adhesive pattern 11i:
11o: Outlet 11r: Dotted Euro
11e: pressure regulating flow path
12: Pressure regulating filtration flow path
12d: flow path changing column 12c: sealing portion 12r: inlet blocking line

Claims (3)

A drip hose (100) having a drip channel section (11) formed with a drip channel (11r) for discharging water on a crop,
A pressure regulating filtration flow path portion 12 having a plurality of flow path changing pillars 12d formed to be offset from each other is formed at a front end of the inlet port 11i of the dripped flow path portion,
As the foreign matter is filtered by the pressure regulating filtration flow path before the water is introduced into the inlet 11i and turbulence is formed, water is filled all over the inside of the hose so that the outlet 11o of the bypass flow path is opened only when the water pressure is applied Not only the water is uniformly supplied through the outlets of all the drip channels, but also the drip channels are prevented from being clogged by foreign matter,
Wherein one end of the pressure regulating and filtrating flow path portion (12) is separated from the inner wall of the hose and is partially in contact with the inner wall of the hose according to the hydraulic pressure of water supplied into the hose. .
delete The method according to claim 1,
The flow path changing post 12d is formed in multiple rows in the longitudinal direction of the hose and has a large distance gap between the inlet port 11i and the adjacent inlet port 11i. Wherein the gap is formed to be smaller than the width of the drip flow channel, and an inlet blocking line (12r) is further formed on the outside of the inlet (11i).

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