KR20230168372A - Water pipe with extended ejection distance - Google Patents

Abstract

The present invention is a blowing hole formed in the water pipe so that the water that is spouted while rotating from the scattering drip that is fused to the inner surface can be sprayed as far as possible through at least one inclined blowing hole formed in the water pipe. At least one is formed within the width of the rotating discharge space formed in the scattering drip, and is formed on the outer surface from the inner blowing hole formed on the inner surface of the water pipe so that water can be spouted to a certain distance when discharged as if spouting while rotating. The purpose is to provide a water pipe with an expanded blowout distance, including one that is inclinedly formed with an outer blowhole.
Accordingly, not only is there a high economic effect due to the placement of a minimum number of water pipes on a large area of land, but it also has the effect of maximizing the efficiency of the water pipes by making water supply to crops far away from the water pipes smooth.

Description

Water pipe with extended ejection distance

The present invention relates to a water pipe with an expanded blowing distance. More specifically, the present invention relates to a water pipe with an expanded blowing distance. More specifically, the water spouting out as it rotates from a flying drip fused to the inner surface is discharged as far as possible through at least one inclined blowing hole formed in the water pipe. It is about a water pipe with an expanded spout distance that allows the spout to reach the street.

In general, water pipes used in crop cultivation are arranged side by side at regular intervals to supply appropriate water to crops planted on large land, and each blowhole is formed in these water pipes at regular intervals to spout water.

In addition, in the process of discharging water whose pressure has been increased by a pump, etc. through each blowhole of the water pipe, each blowhole is formed so that a certain amount of water is blown out from both the blowholes formed near or far from the pump. On the inside, each drip is fused so that the pressure of the water can be reduced and spouted out.

As described above, the prior art in which drips are fused to the inner surface of each blowing hole formed at regular intervals in the water pipe to reduce the pressure of the water and then blow it out to supply is as follows.

First, as published in Republic of Korea Patent Publication No. 10-0748604 (hereinafter referred to as 'Patent Document 1'), the water flowing into the inlet of the pressure reduction drip is decompressed through a pressure reduction furnace, and then the discharge formed in the pressure reduction hose through the discharge part. A technology to discharge it to the outside through a hole has been proposed.

In addition, as published in Korea Registered Utility Model Publication No. 20-0478546 and Korea Registered Utility Model Publication No. 20-0478547 (hereinafter referred to as ‘Patent Document 2’), the water flowing into the rotary discharge device flows through the rotational force imparting path. A technology has also been proposed that generates rotational force in a rotating space and causes the water to be ejected through a spout formed in a fountain hose.

In addition, as published in Republic of Korea Patent Publication No. 10-1904967 (hereinafter referred to as 'Patent Document 3'), the melt water flowing in through the inflow hole of the scattering drip is decompressed through a pressure reduction furnace, and then the rotational force is generated in the rotation discharge space. A technology has also been proposed that includes a splash-type drip, in which water is discharged as if spouting while rotating through a discharge hole formed in the water pipe immediately after this occurs.

However, Patent Document 1 has the disadvantage of not properly supplying water to crops that are a certain distance away from the pressure reduction hose because the discharged water is discharged in a drop state and discharged only around the pressure reduction hose.

Patent Document 2 In addition, compared to Patent Document 1, the water with rotational force erupts like a fountain starting from the spout, slightly expanding the ejection distance, but this also has a limitation in that the ejection distance is approximately 1 m or less. has

Patent Document 3 also, like Patent Document 2, discharges the water by making it have a rotational force in a scattering type drip and then dispersing it through a discharge hole. This also has the disadvantage of a short distance over which the water is discharged.

Republic of Korea Patent Publication No. 10-0748604 Republic of Korea Registered Utility Model Publication No. 20-0478546 Republic of Korea Registered Utility Model Publication No. 20-0478547 Republic of Korea Patent Publication No. 10-1904967

The specific technical problem of the present invention to solve the above-described conventional problems is to discharge the water that is spouted as it rotates from the flying drip fused to the inner surface through at least one inclined blowing hole formed in the water pipe as much as possible. The goal is to provide a water pipe with an expanded jetting distance that allows spouting to occur over a long distance.

Another specific technical problem of the present invention is to ensure that water can be sprayed to a desired location and that water can be supplied in the form of water scattered by collision at the same time as the water can be sprayed over a long distance.

Another specific technical problem of the present invention is to provide a flying drip that is fused to the inner surface of a water pipe in various forms depending on the purpose.

The specific technical solution of the present invention for solving the above-mentioned specific technical problem is a water supply part that is supplied as pressure is reduced after water flows into one side of the fusion surface of the drip body made of a flexible material, and the other side where the water supply part is formed. The water that is connected to the end of the water supply section and supplied under reduced pressure passes through a rotary furnace and generates a rotational force. As the water rotates through the blowhole formed in the water pipe by rotation in the rotation discharge space, a scattering drip is emitted as if spouting out on the inner surface. In the water pipe fused to the water pipe, at least one blowing hole formed in the water pipe is formed within a range that does not deviate from the width of the rotational discharge space formed in the scattering drip, and when the water is discharged as it rotates, it extends to a certain distance. It includes being formed at an angle from the inner blowing hole formed on the inner surface of the water pipe to the outer blowing hole on the outer surface so that it can be blown out.

The inclinedly formed blowing holes include at least two arranged side by side or radially arranged.

When at least two of the inclinedly formed blowing holes are arranged, the outer blowing holes located on the outer surface are positioned to face each other, so that the ejected water is scattered again by collision.

The drip body is formed in a strip shape with a predetermined length, and further includes a water supply portion and a scattering discharge portion formed continuously and repeatedly on the fusion surface.

The drip body further includes water supply parts provided symmetrically on both sides of the splash discharge part as the starting point.

The present invention allows the water spouted as it rotates from a scattering drip fused to the inner surface to be spouted as far as possible through at least one inclined blowing hole formed in the water pipe, thereby providing minimal use to a wide area of land. Not only is there a high economic effect due to the placement of water pipes, but in particular, it also has the effect of maximizing the efficiency of water pipes by smoothly supplying water to crops far away from the water pipes.

In addition, by enabling the water to be sprayed to a desired location and to supply water in the form of being scattered by a collision at the same time as spraying over a long distance, the supply of water can be made more efficient. It also has the effect of maximizing the water supply area.

In addition, the scattering type drip that is fused to the inner surface of the water pipe is also provided in various forms depending on the purpose, which has the effect of providing convenience and compatibility for selective use depending on the crop to be grown.

1 is a perspective view of some excerpts for explaining the present invention;
Figure 2 is a perspective view showing a scattering drip applied to Figure 1;
Figure 3 is a partial enlarged cross-sectional view showing the blowhole according to Figure 1;
Figure 4 is a partial enlarged cross-sectional view showing another embodiment of the blowhole of the present invention;
Figures 5 and 6 show other examples of scattering drip applied to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings as follows, but the present invention is not limited or limited by the examples.

Figure 1 is a partial perspective view for explaining the present invention, Figure 2 is a perspective view showing a scattering drip applied to Figure 1, and Figure 3 is an enlarged cross-sectional view showing a blowing hole according to Figure 1.

As shown, the water pipes 100 used for crop planting are arranged side by side at regular intervals to supply appropriate water to crops planted on a large land, as described in the technology behind the invention, and these water pipes ( In 100), each blowing hole 1 is formed at regular intervals to blow out water.

In addition, in the process of discharging water whose pressure has been increased by a pump, etc. through each blowhole (1) of the water pipe (100), a certain amount of water is blown out from both blowholes formed near or far from the pump. On the inner surface where each blowing hole is formed, each drip is fused so that it can be blown out by reducing the pressure of the water.

Meanwhile, the drip that is fused to the water pipe 100 in this application is the scattering drip (D) of Patent Document 3, which is a prior art document.

That is, the scattering drip 10 is made of a flexible material and has a water supply unit 14 that is supplied while the pressure is reduced after water flows into one side of the fusion surface 12 of the drip body 10A. On the other side of the formed water, the water supplied under reduced pressure is connected to the end of the water supply unit 14, and a rotational force is generated through the rotary furnace 16A, and a jet is formed in the water pipe 100 by rotation on the rotary discharge space 16. The scattering drip is emitted as if spouting while rotating through the ball 1, and since the technical structure and effect of the scattering drip is the same as that of Patent Document 3, a detailed description of the scattering drip will be omitted.

Here, as described in the technology behind the invention, not only the drip that is fused to the above-mentioned water pipe, but also the scattering type drip that is applied to the present invention is mostly spouted within 1 m, so it is more than 1 m from the location where the water pipe is placed. It has the disadvantage of not being able to smoothly supply water to planted crops.

The present invention is a water pipe with an expanded spray distance that allows water to be sprayed out as it rotates from a scattering drip fused to the inner surface as far as possible through at least one inclined blowing hole formed in the water pipe. is to provide.

The specific technical configuration for spouting the water that is spouted while rotating by the scattering drip according to the present invention to the greatest possible distance through the blowhole is as follows.

At least one blowing hole (1) formed in the water pipe (100) is formed within a range that does not exceed the width of the rotating discharge space (16) formed in the splash-type drip (10), and when the water is discharged as if spouting while rotating. It includes being formed at an angle from the inner blowing hole (1A) formed on the inner surface of the water pipe 100 to the outer blowing hole (1B) on the outer surface so that the water can be blown up to a certain distance, approximately 3 m. The blowing hole (1), which is formed at an angle from the inner blowing hole (1A) to the outer blowing hole (1B), is wrapped around the rotary discharge space (16), that is, rotation is already performed in the rotary furnace and the rotation is naturally performed in the rotary discharge space. Depending on the position, the position where the rotation starts may be located at any position in the middle after the rotation starts or the ejected position at the end of the rotation, but it is preferable to be located in the middle part right after the rotation starts or at the end of the ejected position rather than the position where the rotation starts. By forming it in a position where it can be released, it is desirable to allow it to be released over a long distance with a higher rotational force. In other words, the water flowing into the rotating discharge space rotates at the same time as it flows into the rotating discharge space. At this time, the rotational force at the middle or end immediately after the rotation starts is greater than at the starting position of the rotation. It is desirable to place the blowhole in the middle or end position after rotation begins.

In the above, the inclined angle of the outer blowing hole (1B) from the inner blowing hole (1A) constituting the blowing hole (1) is within the range of an acute angle rather than a right angle from the inner surface to the outer surface of the water pipe, preferably 45°. This is the most appropriate angle.

In other words, the blowing hole formed in the water pipe of the present invention is formed at a right angle from the inner surface to the outer surface of the water pipe as shown in Patent Document 3, so that the blowing hole itself formed in the water pipe can be used so that the blowing distance of the water is less than 1 m. By sloping from the inner surface to the outer surface of the water pipe, it is possible to have conditions in which the water can be spouted a relatively long distance when spouted.

In other words, in the process of spouting water as it rotates in a scattering drip, the water is spouted out through the inclined inner blowing hole and through the outer blowing hole along the inclined plane, so the water can be spouted a long distance.

As a result, it is possible to have conditions in which water can be smoothly ejected from the location where the water pipe is located to a relatively long distance of approximately 3 m.

In addition, it is preferable that at least two blowing holes 1 formed at an angle in the water pipe 100 are arranged side by side or arranged radially.

In other words, at least two blowholes formed in the water pipe are arranged side by side or radially so that water can be smoothly supplied to the location of crops or many crops to supply water.

Therefore, the present invention uses a scattering drip fused to the inner surface of a water pipe to spray water through at least one inclined blowing hole at a distance not within 1 m around the water pipe, that is, up to approximately 3 m. By ensuring a smooth supply of water, it is possible to achieve high efficiency in maximizing the yield of crops even with the minimum amount of water pipes placed when growing crops, as well as to establish conditions with excellent economic efficiency due to the minimum water pipe placement. You can.

Figure 4 is a partial enlarged cross-sectional view showing another embodiment of the blowhole of the present invention.

As shown, in the above-mentioned configuration, a technical configuration is also provided that allows water to be supplied in the form of scattering due to collision between the ejected water in the process of ejecting water over a relatively long distance through an inclined blowing hole.

When at least two of the inclined blowing holes 1 are arranged, the outer blowing holes 1B located on the outer surface are positioned to face each other, so that the ejected water is scattered again by collision.

In other words, when two or more inclined blowing holes are arranged, the outer blowing holes formed on the outer surface of the water pipe are formed to face each other, so that the water spewing out from each inclined blowing hole is scattered by collision immediately after being spouted. The supply area can be further expanded.

In other words, when water is ejected through an inclined ejection hole, the width is equal to the diameter of the ejection hole, so it is ejected for the required distance. However, the water ejected from each ejection hole with the outer ejection holes facing each other is immediately after ejection. Due to the collision, there is a condition that water can be supplied to a wider range along with scattering.

Accordingly, the supply of water can be made more smoothly by scattering water not only around the water pipe but also over a relatively long distance.

Figures 5 and 6 show other examples of scattering drip applied to the present invention.

As shown, in the above-described configuration, the scattering drip that is fused to the water pipe has been described as an example in which the single drip type is applied. However, in addition to the single drip type, technical configurations of strip drip or high jetting efficiency are also provided.

The drip body 10A is formed in a strip shape with a certain length, and further includes a water supply part 14 and a splash discharge part 16 formed continuously and repeatedly on the fusion surface 12 (see FIG. 5). .

The drip body 10A further includes water supply parts 14 provided symmetrically on both sides of the splash discharge part 16 (see FIG. 6).

Since the embodiments of FIGS. 5 and 6 described above have the same technical configuration and effect as the technical configuration disclosed in Patent Document 3, detailed description thereof will be omitted.

1: blowhole
1A: inner blowing hole 1B: outer blowing hole
10: scattering drip 10A: drip body
12: fusion surface 14: water supply part
16: Rotating discharge space 16A: Rotating furnace
100: Water pipe

Claims (5)

Made of a flexible material, water flows into one side of the fusion surface of the drip body and is supplied under reduced pressure. The water supply part is connected to the end of the water supply part on the other side where the water supply part is formed, and the water supplied under reduced pressure passes through a rotary furnace. In the water pipe, where a rotating force is generated and a scattering drip that is emitted as if spouted while rotating through a blowhole formed in the water pipe by rotation in the rotation discharge space is fused to the inner surface,
At least one blowing hole formed in the water pipe is formed within a range that does not exceed the width of the rotation discharge space formed in the scattering drip, and the inner surface of the water pipe is such that water can be sprayed a certain distance when discharged as if spouting while rotating. A water pipe with an enlarged blowing distance including one formed at an angle from the inner blowing hole formed in to the outer blowing hole on the outer surface. According to paragraph 1,
A water pipe with an expanded blowing distance, including at least two of the inclined blowing holes arranged side by side or radially. According to claim 1 or 2,
When at least two of the inclinedly formed blowing holes are arranged, the outer blowing holes located on the outer surface are positioned to face each other, and the water pipe with an expanded blowing distance further includes that the spouted water is scattered again by collision. According to paragraph 1,
The drip body is formed in the form of a strip having a predetermined length, and the water pipe with an expanded spout distance further includes a water supply part and a splash discharge part being formed continuously and repeatedly on the fusion surface. According to paragraph 1,
The water pipe with an expanded spout distance further includes water supply parts being provided symmetrically on both sides of the drip body starting from the scattering discharge part.

Images