KR101938493B1 - rotation type spurt hose supplying in both directions - Google Patents

Abstract

The present invention relates to a rotation type sprinkling hose supplying water in both directions, which allows which water discharged through a fountain hole to be sprinkled by rotation thereof to make water sprinkled to the larger area. By keeping the pressure of water supplied to the fountain hole from both directions constant, it is possible to make a fountain area even. Specifically, the present invention relates to a rotation type sprinkling hose supplying water in both directions, in which a turning space is formed inside the fountain hole, and a plurality of blades are formed to give rotation force to the flow of the water entering from both directions, which are symmetrical to each other so as to increase the rotation force of the water while keeping the pressure of the water entering from both sides constant to uniformly sprinkle the water to an even area.

Description

Rotating Fountain Hoses Feeding in Both Directions {

The present invention relates to a rotary fountain hose, and more particularly, to a fountain hose for rotary water distribution, in which water discharged through a fountain hole is rotated and fractionated, thereby widening the water to a wider area, To a rotating fractional hose that is bi-directionally fed so that the fractional area can be maintained constant.

More specifically, the present invention provides a water circulation space in a fountain hole, wherein a plurality of blades are formed to provide a rotational force to a flow of water obtained in two directions symmetrical to each other so as to increase the rotational force of the water, The water is bi-directionally watered so that the water to be fractionated is evenly distributed to a certain range.

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 grown, seedlings are transplanted, and sprinklers or spraying hoses are used to spray water to the leaves until the roots of the seedlings 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 techniques related to the injection hose among the water supply systems, for example, Patent Documents 1 to 3, and Patent Document 1 discloses a flexible interlayer film disposed between the first member and the second member, A fountain hole is formed in all of them so that the intermediate membrane can be used in close contact with any one member,

Patent Literature 2 discloses a fountain hose for agricultural use in which a plurality of injection holes are perforated at regular intervals by a long, thin and flexible synthetic resin hose, wherein a short water supply pipe mounting portion and a long water injection portion are repeatedly formed in a row along the longitudinal direction, The mounting portion is provided with a short mounting hose having an upper and a lower gently rounded oval shape so that the mounting hose of the water supply pipe mounting portion can be simply fitted and fastened to the water supply pipe. The mounting hose is semicircular And a pair of water supply hoses having a long cylindrical tubular shape are attached adjacent to each other in a horizontal direction so that the water splash portion is stably placed on the ground without being twisted or tilted against strong water pressure as the adhesion with the ground is increased , A pair of water supply hoses And a plurality of water supply holes are perforated at a predetermined interval along the longitudinal direction of the water supply hose, and a water dispersion desiccant encircling a semicircular shape is fixedly attached to the outer peripheral surface of the upper portion of the pair of water supply hoses, A plurality of spray holes are formed at predetermined intervals so that the water supplied to the upper portion is sprayed to the outside,

Patent Document 3 includes a rotation generating device which is provided at a jet port formed at intervals in a hose and which imparts a rotational force to the flow of water sprayed from the inner space of the hose to the outer space and the rotation generating device is connected to the jet port, A hermetic wall including a tubular rotary space having a predetermined height and attached to an inner wall of the hose and formed with a rotational force applying path which is a horizontal passage connected from the inner space of the hose to the rotary space and a bottom wall of the hermetic wall, And a floor constituting a rotating space together with the blocking wall. The rotating wall of the blocking wall is oriented toward a position spaced apart from the center of the rotating space and generates a rotating force in the water flowing into the rotating space through the rotating force applying path So as to be jetted to the jet port.

Some of these conventional fractional hoses merely supply minute fractions, but there is one such that water introduced into the inside of the hose can be supplied to a wider area through the discharge port as in Patent Document 3.

However, in the case of the conventional rotary discharge type fountain hose, two flow paths are connected to one fountain hole so that water flowing from the two flow paths collide with each other to cause swirling phenomenon, so that the water discharged to the fountain hole can spread widely. The amount of water entering the two channels or the pressure of water can not be constant.

In other words, when the pressure or amount of water introduced from one side is small, the water is founted in a state that is eccentric to one side, so that the fraction range of the water sprayed by the corresponding fountain hole varies from time to time, .

In addition, there is a problem in that foreign matter may be present in the water flowing into the inside of the hose, and when the foreign matter blocks the flow path to the fountain hole, the problem that the supply of water is not properly performed becomes greater.

Korean Registered Utility Model No. 20-0275023 Korean Registered Utility Model No. 20-0436249 Korean Utility Model Registration No. 20-0478546

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 make water discharged through a fountain hole be divided into a larger area by rotating the water, And to provide a rotary fountain hose that is bi-directionally fed so that the fraction area can be kept constant as it can be kept constant.

It is another object of the present invention to provide a rotary fountain hose that is bidirectionally supplied with water so that water can be uniformly divided into fountain holes by preventing foreign matter from flowing into the flow path leading to the flow of water through the fountain hole, .

In accordance with the present invention, there is provided a fountain hose for supplying water to a crop by discharging water flowing into a hose through a water inlet channel to a fountain hole, Wherein each of the inlet flow passages includes a plurality of inlet holes into which the water in the hose flows and a connection flow channel for guiding the water introduced through the inlet holes to the fractional holes, The fountain hole is connected to the connection passage, and the water introduced through the connection passage is formed on the upper surface of the turning space. The water introduced through the connection passage is crushed into the inner wall of the turning space, And a plurality of guide blades for guiding water to the fountain hole side are formed.

Preferably, the connection passage is connected to the revolving space, and the water introduced into the revolving space through the two connection channels, which are connected to the side of the center of the water hole, is swirled.

Preferably, the guide vanes are formed to be inclined so as to be offset from the center line of the fountain holes, and the upper portion is formed to be inclined in the direction of rotation of the water.

A plurality of filtration holes each having a cross sectional area smaller than that of the water intake holes and a guide channel for guiding the water having passed through the filtration holes to the water intake hole side, have.

As described above, the rotary type fountain hose according to the present invention is divided into a large area by being divided into water by rotating the fractional water through the fountain hole, so that the inflow water is crushed and crushed and is pushed toward the fountain hole It is possible to overcome the unevenness of the fractional area that may occur according to the hydraulic pressure difference between the water supplied through the two-sided inlet flow passage and to make the fractional flow into a certain area.

Further, according to the present invention, the filtration flow path is formed on the outside of the water intake flow path and the water is filtered, thereby preventing the fractional area of the water that is partially fouled by the clogging of the water intake flow path.

Further, the guide vanes provided in the swirling space inside the fountain hole are formed so as to form an angle that allows the water to be flowed in, so that the turning effect of the water can be further enhanced.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a perspective view of one example of a rotary fountain hose that is bi-
Figure 2 is a plan view of one example of a rotary fountain hose that is bi-
3 is a cross-sectional view taken along the line AA in Fig.
Fig. 4 is a cross-sectional view taken along line BB in Fig.
5 is a cross-sectional view taken along the line CC of Fig.
Fig. 6 is a perspective view of another example of a rotary fountain hose that is bi-
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 allows the supply of water to be constantly supplied with water through the fountain holes formed in the entire hose, and at the same time the fractional area of the water fractionated in each fractional hole can be kept constant.

The rotary type fountain hose according to the present invention is provided with an inlet flow passage 10 for guiding and acquiring water to a fountain hole 20. The fountain hole 20 connects water flowing into the hose to a hose The water that is fountainted by the hole for discharging to the outside crop is spread widely by the rotational force and is discharged.

In order to spread the wastewater to a wide area of the water, the inlet flow paths 10 are formed in pairs, and the positions of the respective inlet flow paths 10 are shown in Figs. 1, 2, 5, and 6 Likewise, they are symmetrical about the fountain hole 20.

The water inlet channels 10 include a plurality of water inlet holes 11 through which water is introduced into the hose and a connection channel 12 for guiding the water introduced through the water inlet holes to the water hole 20, The water intake hole 11 is an inlet through which water flowing in the hose flows into the water intake channel, and water having passed through the water intake channel is discharged to the outside of the hose through the water hole 20.

Since the water intake channels 10 are formed in opposite directions to each other with respect to the water hole 20, water flowing toward the water hole through the water inlet channel is crushed and crushed, and at the same time, Flood through the hole.

It is preferable to form a turning space 30 below the fountain hole in order to make the water that is watered through the fountain hole have more rotational force. The turning space 30 is a space for turning water, The fountain hole 20 is connected to the connection channel 12 and is formed at an upper portion thereof. The water flowing through the connection channel is rotated and moved to the fountain hole.

As shown in the drawing, the coupling flow path 12 and the turning space 30 are formed such that the two connection flow paths are shifted from each other. When the turning space is circular, the coupling flow path is connected to the turning space 30 in the tangential direction .

A plurality of guide vanes 40 are formed on the inner wall of the swirling space 30 so that the water introduced through the connection passage is crushed and crushed and the pulverized water is guided to the fountain hole 20 side.

2, 5 and 6, the guide vane 40 is a means for allowing the water introduced into the swirling space 30 to swing more strongly through the two intake flow paths 10, And is inclined so as to be offset from the center line of the fractional hole (20).

In addition, the guide vane 40 has a larger angle with the center line (the center line of the fountain hole) passing through the center of the swirling space from the portion connected to the intake flow path 10 to the inside thereof, Respectively.

3 and 4, the upper portion of the guide vane 40 is inclined in the direction of water rotation so as to push the water flowing into the swirl space toward the fountain hole, So that the effect can be enhanced.

When the inlet of the water inlet channel is clogged, water supplied through the water inlet channel may not be enough and the water may not be evenly distributed to the water hole 20, The area where the water is fountain is narrowed or deformed, so that the water supply can not be uniformly performed. Accordingly, foreign matter contained in the water flowing into the water inlet channel 10 is preferably prevented from flowing into the water inlet channel. To this end, a filtering channel 50 is further formed on the outside of the water inlet channel 10.

The filtration channel 50 includes a plurality of filtration holes 51 having a cross sectional area smaller than that of the water reception holes and a guide channel 52 for guiding the water having passed through the filtration holes toward the water reception holes.

As the size of the filtration hole 51 is formed to be smaller than the size of the inlet hole, foreign matter is filtered through the filtration hole, so that foreign matter can not enter into the inlet flow passage 10, The foreign matter blocking the filtration hole 51 is discharged to the outside of the hose by supplying water to the inside of the hose at a high pressure while opening one end to discharge the water to the end of the hose instead of the fountain hole .

That is, when water is supplied to the interior of the hose at a high pressure in a state in which the ends of the hose are periodically opened after a predetermined period of time, the foreign substances trapped in the filtration holes are drained to the end of the hose .

10: Available water
11: Receiving hole 12: Connection channel
20: Fountain hole 30: Turning space
40: guide wing
50:
51: Filtration hole 52: Guide channel
100: Fabric 200: Adhesive pattern

Claims (4)

A fountain hose for supplying water to a crop by discharging water flowing into the inside of the hose to the fountain hole (20) through an inlet channel (10)
Two inlet flow paths 10 are formed symmetrically about the fountain holes,
Each of the inlet flow passages has a plurality of inlet holes 11 through which water in the hose flows and a connection flow passage 12 through which the water introduced through the inlet holes is guided to the fountain holes 20,
The connection channel 12 is connected to the turn space 30 and is connected to the side of the fountain hole 20 which is off center. The water flowing into the inside of the turn space through the two connection channels facing each other is swirled Respectively.
The fountain hole 20 is connected to the connection passage 12 and formed on the upper surface of the orbiting space 30 in which the water introduced through the connection passage flows,
A plurality of guide vanes 40 are formed on the inner wall of the swirling space 30 so that the water introduced through the connection passage is crushed and ground and the pulverized water is guided toward the fountain hole 20 is offset from the center line of the fountain hole 20 Respectively,
A fountain hose in which the filtration flow path (50) is further formed on the outer side of the intake hole (11)
The guide vane (40) is formed such that the upper portion thereof is inclined in the direction of rotation of the water,
The filtration flow path 50 is formed in the longitudinal direction of the hose and is formed on both sides with the swirl space 30 as a center,
The filtration flow path 50 includes a plurality of filtration holes 51 having a cross sectional area smaller than that of the water intake holes 11 and a guide flow path 52 for guiding water passing through the filtration holes to the water intake holes. Wherein the hose is a bidirectionally watered rotary fountain hose. delete delete delete

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