KR102084494B1 - Irrigation diffusion type drip using irrigation hose - Google Patents

Abstract

The present invention relates to a watering diffusion type drip using a watering hose, which can be simply manufactured without any inconvenience and can distribute and supply watering into a proper area by collision through a pair of guide grooves, formed on an attaching surface of a drip attached to an inner side surface of a watering hose, towards discharge holes formed on a watering hose. The watering diffusion type drip using a watering hose comprises: a 3D piece shaped main body; and a pair of guide grooves in which one surface of the main body is formed to an attaching surface formed as a curved surface corresponding to an inner side surface of a watering hose with discharge holes and attached to the same, and which is formed on the attaching surface at a fixed depth from both sides of one side thereof towards the discharge hole in a shape where individual ends meet with each other so that water inside the watering hose can be introduced and guided at both sides of the one side thereof, is diffused in the shape of the ribs of a fan due to collision at the meeting point and can be supplied through the discharge holes. Therefore, the watering diffusion type drip using a watering hose can be simply manufactured, have high production efficiency, and increase cultivation efficiency of crops as much as possible.

Description

Irrigation diffusion type drip using irrigation hose

The present invention relates to a drip provided in the irrigation lake used for supplying irrigation to crops, and more particularly, the drip is attached to the inner surface of the irrigation lake as well as made simple without any inconvenience or inconvenience. Irrigation using irrigation lake, which allows water to be supplied while the water is diffused into a proper area in the form of a bush chatsal through a pair of guide grooves, which is a simple technical configuration formed toward the discharge hole formed in the irrigation lake on the attachment surface of the irrigation lake. It relates to a diffuse drip.

In general, irrigation lakes used for crop cultivation refer to lakes arranged side by side at regular intervals to provide adequate watering for crops planted on large land.

The irrigation lake is supplied with water through each discharge hole formed at regular intervals.

In addition, the irrigation lake is arranged side by side as well as installed in a relatively long length is supplied using a pump to supply the irrigation water, the irrigation water is increased through the pump discharge water is discharged through each discharge hole of the irrigation lake. At this time, the discharge hole is provided with a respective drip so that a constant amount of water is supplied to both the irrespective of the distance or close to the pump in the process of discharge water.

Conventional drips supply irrigation to crops at a constant pressure. In order to supply a constant flow of irrigation, it is common to supply pressure after increasing the irrigation pressure.

In the process of supplying water through the discharge hole of the irrigation lake, the biggest key is to distribute the water evenly according to the location of the crop or the type of crop. That is, the most important thing is to evenly distribute and supply the water discharged from the discharge hole formed in the watering hose.

As described above, the conventional prior art for the drip provided in the irrigation lake to diffuse and supply the irrigation, as disclosed in the Republic of Korea Patent Publication No. 10-1464685 (hereinafter referred to as 'prior art document 1') An adhesive surface which is integrally bonded to the inner circumferential surface of the lake member is formed, and a nozzle member having an inlet communicating with the hollow of the lake member and an outlet having a smaller inner diameter than the inlet is formed through the cut hole formed in the lake member. A technique has been proposed for planting irrigation lakes to supply water to plants in the form of sprinkling water.

In addition, as disclosed in the Republic of Korea Patent Publication No. 10-1023987 (hereinafter referred to as 'prior art document 2') to have a neighboring water spraying hole formed to cross the center line on the side of the water emergency by water pressure Therefore, the spraying water having a spraying hole, which enables uniform spraying to a wider area and also ensures a suitable spraying strength near the watering pipe or the watering tube at a low watering height, and a method for manufacturing the watering body, the pipe Techniques such as a receiving tube, a method for producing an irrigation tube, and a tax cooling method have also been proposed.

In addition, as posted in the Republic of Korea Utility Model Registration Publication No. 20-0479367 (hereinafter referred to as 'prior art document 3') through the first and second spouts provided on the flange formed in the irrigation lake, the water is fan-shaped The technique of supplying in the form of injection of has also been proposed.

Republic of Korea Patent Publication No. 10-1464685 Republic of Korea Patent Publication No. 10-1023987 Republic of Korea Utility Model Registration No. 20-0479367

However, the prior art document 1 is not only difficult and difficult to configure the technical configuration for forming the outlet to have a small inner diameter from the inlet formed to penetrate the upper portion of the nozzle member to the upper surface as well as the watering area is limited as the sprinkling of watering water is ejected in the form of water stream Has the disadvantage of being.

Prior art document 2 not only requires a very advanced technique for precisely forming the water hole penetrating the tube by the laser, but also has a disadvantage that the water is not sprayed to the desired state by a small error.

Prior art document 3 has the disadvantage that the production of irrigation lakes is not only cumbersome, but also sprayed only in a fan shape through each irrigation canal through the supply area of irrigation.

And the biggest disadvantage in the prior art documents 1 to 3 is a disadvantage that can not filter out foreign substances contained in the watering in the process of discharging the irrigation, the outflow hole, the water spray hole or the first and second ejection furnaces are blocked smoothly by the foreign matter There is a problem that can not supply water.

The specific technical problem of the present invention for solving the conventional problems as described above is made in the water irrigation lake on the attachment surface of the drip attached to the inner surface of the irrigation lake as well as the production is simple and without inconvenience or inconvenience Through a pair of guide grooves, a simple technical configuration formed toward the ball, the irrigation water is provided by the irrigation water diffusion drip using the irrigation lake so that the water supply can be made while the irrigation water is spread to the proper area in the form of a bu chatsal.

Another specific technical problem of the present invention is to enable to set the diffusion area of watering by a simple technical configuration.

Another specific technical problem of the present invention is to allow the foreign matter contained in the irrigation to be filtered.

Specific technical solutions of the present invention for solving the technical problem as described above is a diffusion type drip attached to the inner surface of the discharge hole formed in the irrigation lake to diffuse and supply the water, the diffusion type drip is three-dimensional A piece in the form of a piece; One surface of the main body is formed with a curved surface corresponding to the inner surface of the irrigation lake in which the discharge hole is formed is formed, the attachment surface is formed, the attachment surface is embedded in a predetermined depth, the water in the irrigation lake flows from both sides of the side It includes a pair of guide grooves are formed in the form of a form in which each end facing toward the discharge hole starting from both sides of the side to be supplied through the discharge hole while being diffused in the form of buchesal by a collision in a portion facing each other. do.

Each end of each of the guide grooves is formed to be in contact with each other or spaced at predetermined intervals.

Each end facing each of the guide grooves is located within a range not exceeding the diameter of the discharge hole.

Each of the guide grooves is any one having the same width and depth or different widths and depths.

A plurality of filtration formed on both sides of the one side and the front end side of each guide groove into which the water flows, including a filtration unit to filter foreign matter contained in the water, the filtration unit is formed at a predetermined interval in contact with the front end of each guide groove A piece includes a plurality of filter holes provided between the plurality of filter pieces.

The present invention is made through a pair of guide grooves, which is a simple technical configuration formed toward the discharge hole formed in the irrigation lake on the attachment surface of the drip is attached to the inner surface of the irrigation lake as well as made simple without cumbersome or inconvenient The water supply can be supplied while the water is spreading to the proper area in the form of the buccal flesh by the collision, so that the production is simple and the production efficiency is high and the crop cultivation efficiency can be maximized.

In addition, it is possible to set the diffusion area of the irrigation water by a simple technical configuration, it is possible to select and use the drip appropriate to the conditions of the crop, it also has the effect of maximizing the cultivation efficiency of the crop.

In addition, by allowing the foreign matter contained in the irrigation can be filtered, crops grown by supplying the irrigation in a clean state also has the effect that can be grown in a fresh and clean state.

1 is a perspective view for explaining the present invention,
2 is a bottom perspective view according to FIG. 1, FIG.
Figure 3 is a partial perspective view for explaining the use state of the present invention,
4 is an embodiment of a plan view for explaining another embodiment of the present invention,
5 is a perspective view for explaining another embodiment of the present invention.

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

1 is a perspective view for explaining the present invention, Figure 2 is a bottom perspective view according to Figure 1, Figure 3 is a partial perspective view for explaining the use state of the present invention.

As shown in the drawing, a conventional drip is for supplying irrigation water when cultivating crops, and is generally attached to the inner surface of the discharge hole formed in the irrigation lake and serves to supply a certain amount of irrigation water.

The present invention is made through a pair of guide grooves, which is a simple technical configuration formed toward the discharge hole formed in the irrigation lake on the attachment surface of the drip is attached to the inner surface of the irrigation lake as well as made simple without cumbersome or inconvenient It is to provide an irrigation diffusion type drip using an irrigation lake that allows water to be supplied while the irrigation water spreads to a proper area in the form of a buchatzal by a collision.

The diffusion type drip 1 attached by the known method on the inner surface of the discharge hole 102 formed in the irrigation lake 100 according to the present invention to diffuse and supply the irrigation water has the following technical configuration.

The diffuse drip 1 includes a main body 10 in the form of a three-piece piece having a thin thickness in view of a typical square, rectangular or cylindrical shape. The main body is manufactured by a conventional molding method or the like, and the present invention will be described as an example of a cuboid shape among three-dimensional pieces.

In particular, one surface of the main body 10 is formed with a curved surface corresponding to the inner surface of the irrigation lake 100 in which the discharge hole 102 is formed, and is attached to be in close contact with the irrigation lake while maintaining airtightness by a known method. Surface 10A is formed.

In addition, the attachment surface 10A is impregnated with a predetermined depth and the water in the irrigation lake 100 is introduced from both sides of the water inflow and guided while being diffused in the form of a bu chatsal by collision at one part facing each other, the discharge hole 102 Starting from both sides of one side to be supplied through includes a pair of guide grooves 12 are formed in a form in which each end is facing toward the discharge hole (102). The guide groove is formed in a conventional isosceles triangle shape including one side.

In the above, the depth of the guide groove 12 is formed to a depth lower than the thickness of the diffusion type drip, it is preferable to make the depth as well as the width at the time of manufacture in accordance with the amount to supply pressure or water in the irrigation lake. .

In other words, if you want to supply a large amount of irrigation water in the form of bush chatsal according to the target of the crops to be supplied, the depth of the guide groove is made deep and wide. Manufactured to have a narrow width. It is desirable to confirm and produce at the time of manufacture according to the object of the crop.

Accordingly, the water in the water irrigation lake 100 is introduced and guided through each guide groove 12 formed at one side as shown in FIG. 3, and then collides with a collision at a portion facing each other located at the discharge hole 102 side. It is supplied through the discharge hole 102 while being spread in the form of a bu chatsal.

Therefore, it has a condition to maximize the cultivation efficiency of crops by supplying the irrigation to crops in the widest possible area.

Furthermore, since the guide groove of the present invention is formed to a predetermined depth on the adhesive surface of the diffusion type drip, the technical configuration can be made simply without any inconvenience or inconvenience as the structure has a fairly simple structure.

As a result, production efficiency and productivity are excellent.

In addition, the guide grooves may be formed to have the same width and depth, as well as different widths and depths, which are not shown. In other words, when spreading in the form of a bouchatsal due to different widths and depths during the collision of watering can be spread far and wide in a biased form on either side. For example, if the pair of guide grooves have different widths and depths, that is, the area where the irrigation is collided, for example, 1: 2, 1: 3, 1: 4, etc., have different widths and depths. By having it, it can spread in the form of a bouchatsal as much as its colliding amount so that it can spread far or wide.

On the other hand, each end of each of the guide grooves 12 is in contact with each other, as shown in Figure 4 is formed of any one of being spaced at a predetermined interval.

This is a technical configuration that can set the width of the diffusion area when water is introduced through the guide groove and guided and then diffused in the form of a buccalsal by collision.

For example, when the pressures in the irrigation lake are close to each other and the ends of the guide grooves are close to each other, the impingement force of the irrigation is large and diffuses into a large area.

On the contrary, when the ends facing each other of the guide grooves are far from each other, the collision force is weaker than the collision force of the irrigation, so that the diffusion is relatively narrow.

According to the crops to be cultivated according to each end of the guide grooves to meet each other with an appropriate interval, the water can be supplied by spreading the water in the optimum conditions according to the crop, which can maximize the cultivation efficiency of the crop will be.

Each end of each of the guide grooves 12 may be positioned within a range not exceeding the diameter of the discharge hole 102 formed in the irrigation lake 100.

In other words, each end of the guide grooves facing each other is located in the discharge hole, so that the water flowing into the guide groove and guided to collide with the guide groove can be diffused in the form of a bu chatsal by the collision on the discharge hole.

If the opposite ends of the guide grooves are located in the inner side of the irrigation hose instead of in the discharge hole, the irrigation guided through the guide groove may be ejected through the inner side of the irrigation hose and may be spread by collision. Since the diffusion range is quite narrow, it is preferable that each end of the guide grooves facing each other is located within a range not exceeding the diameter of the discharge hole.

Therefore, the present invention does not have a complicated technical configuration, but by simply supplying the water supply by the simple technical configuration in the form of a bush chatsal, it is not only easy to produce, but also excellent in productivity, in particular, conditions that can maximize the cultivation efficiency of crops Has

In particular, according to the crop to be cultivated can also determine the diffusion area of the irrigation during production, it is possible to further increase the cultivation efficiency by supplying irrigation in an optimal state according to the characteristics of the crop.

5 is a perspective view for explaining another embodiment of the present invention.

As shown in the above configuration, the water supplied through the irrigation lake contains various foreign matters having a certain volume, so that the foreign matter having such a volume can be prevented from being supplied to the crop to be cultivated. Also provides.

It is formed on both sides of one side, the front end side of each guide groove 12 into which the water flows includes a filtration unit 20 to filter foreign matter contained in the water.

In the above, the filtration unit 20 and the plurality of filtration pieces 22 and the plurality of filtration pieces 22 are formed to filter out the foreign matter having a volume at a predetermined interval in a position in contact with the tip of each guide groove 12, It includes a plurality of filter holes 24 are provided so that only the irrigation water is caught in the foreign matter having a volume therebetween.

Accordingly, by filtering the foreign matter having a volume in the filtering unit before entering the guide groove, the irrigation water introduced through the guide groove and then supplied to the crop by the collision is supplied in a relatively clean state.

As a result, the crops to be cultivated can also be set up so that they can be grown fresh and clean.

1: Diffuse Drip
10: body 10A: mounting surface
12: guide groove 20: filtration unit
22: filtration piece 24: filtration hole
100: watering lake
102: discharge hole

Claims (5)

As a diffusion drip attached to the inner surface of the discharge hole formed in the irrigation lake to diffuse and supply the irrigation water,
The diffusion drip has a main body in the form of a three-dimensional piece; And
One surface of the main body is formed with a curved surface corresponding to the inner surface of the irrigation lake in which the discharge hole is formed, and an attachment surface is formed to be closely attached while maintaining airtightness with the irrigation hose. Water flows from one side of each side toward the discharge hole, starting from both sides to be supplied through the discharge hole while the water flows from the one side side is introduced and guided from the one side facing each other is diffused in the form of buchache by the collision. Including that there is provided a pair of guide grooves are formed to be located within a range not to escape the diameter of the discharge hole,
Each end facing each of the guide grooves is formed to be in contact with each other or spaced at predetermined intervals so that the width of the diffusion area can be set when the irrigation water is diffused in the form of buchesal by collision,
Each of the guide grooves are water-spreading type drips using an irrigation lake formed of the same width and depth or different widths and depths so that the guide grooves can be spread in the form of buchasal in accordance with the amount of watering impact. delete delete delete The method of claim 1,
A plurality of filtration formed on both sides of the one side and the front end side of each guide groove into which the water flows, including a filtration unit to filter foreign matter contained in the water, the filtration unit is formed at a predetermined interval in contact with the front end of each guide groove A watering diffusion type drip using a watering lake comprising a plurality of filtering holes provided between the plurality of filtering pieces.

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