WO2019031659A1 - Drip hose - Google Patents

Abstract

The present invention relates to technology for a drip hose which can supply small amounts of water required for cultivation of plants and, more particularly, to a drip hose wherein a decompression part and an outlet part are formed in the direction lateral to an inlet part into which water flows, whereby, even when at least one of discharge holes formed in the outlet part so as to discharge water therethrough is clogged with foreign matter and the like, not only water is smoothly discharged through the other open discharge holes, but also the flow rate of water discharged through each of the discharge holes is uniform. Further, according to the present invention, the inlet part is larger in size, as compared to the prior art, so that, when a portion of the inlet part is clogged with foreign matter, water can smoothly flow into the inlet part; a plurality of first guide holes can facilitate inflow of water into the inlet part; and even when any one of the discharge holes is clogged with foreign matter, the outlet part allows water to move in the lateral direction, that is, in the longitudinal direction of the drip hose, and thus the flow rate of water discharged by the outlet part is uniform, which results in the uniform growth rate of plants.

Description

Drip hose

The present invention relates to a drop hose capable of supplying a small amount of water required for cultivation of crops, and more particularly, to a drop hose capable of supplying a small amount of water required for cultivation of crops, Even if any one or more of the discharge holes is closed by foreign substances, the discharge hose is not only smoothly discharged through other discharge holes but also discharges a certain amount of water through each discharge hole.

Generally, the drop hose is provided on the ground in close proximity to the root of the crop during the cultivation of the crop, so that the water in the hose is supplied to the ground through the water hole (discharge hole) formed on the outer periphery of the drop hose, The drip hose forms a very small water flow hole so that a small amount of water can be continuously supplied to the ground, and water is supplied to the ground through droplets through the water flow hole.

As the water pressure increases on the side where the water is supplied and the distance becomes longer, the water pressure becomes lower as the distance from the water supply source becomes longer. Therefore, the water supply amount is increased in the higher water pressure, But the drip hose allows the same amount of water to be supplied to the crop through the water hole irrespective of the internal water pressure of the hose.

In addition, excellent drip hose can be a drip hose having a constant amount of water supplied through each water supply hole regardless of the water pressure generated inside the hose. That is, since the growth rate of the crop varies depending on the amount of water supplied to the crop, the amount of water to be supplied from the water hole formed in the drip hose should be uniform in order to induce uniform growth.

Accordingly, various types of drip hoses for canceling the water pressure generated inside the drip hose have been conventionally proposed and used. For example, a resistor having a plurality of resistance structures is attached to the water supply hole for supplying water from the drip hose to the ground Or the drip hose is formed as a double pipe. The drip hose is formed by a double pipe, in which a synthetic resin film is roundly rolled so as to overlap a part thereof to form an inner water channel on the inner side and an outer water channel on the overlapping part, A plurality of inner water holes are formed in the inner and outer water passages at regular intervals and an outer water hole communicating with the outer circumference of the hose is formed in the outer water passageway so that water supplied from the inner water passageway Is moved to the outer water passage through the inner water passage and the moved water is discharged to the outside of the drop hose through the outer water passage This is to be supplied.

However, in the conventional drip hose described above, even if the water supplied from the inner water passage to the outer water passage moves on the thread and reaches the outer water passage, the water is supplied to the outer water passage due to the difference in water pressure generated in the inner water passage There is a difference in the amount of water flowing through the yarn, so that there is a problem in that the deviation of the amount of water supplied to the outside of the hose is varied, and there is a problem that the yarn is fixed in the inner side of the outer water passage So that the water can not be supplied if the thread can not pass through the outer water hole.

In addition, since the conventional drip hose is usually made of a synthetic resin hose, when the water is not supplied, the inside of the hose is dried and adhered, so that the supplied water can not pass through the inside of the hose.

In order to solve the above problems, Korean Patent No. 0569225 discloses, as shown in FIG. 1, an inflow section 11 through which water flows in the tube T, A unit drip 1 composed of a discharge part 13 formed with a spray hole 2 for discharging water to the outside of the tube T via a part 12 and a pressure- And the pressure hose is continuously arranged in the direction of the arrow.

However, the pressure reducing hose disclosed in Korean Patent No. 0569225 has a problem that when the inflow part 11 or the decompression part 12 and the ejection hole 2 of the discharge part 13 are closed by the foreign substance, There is a problem that water is not discharged, which may cause a problem that the growth rate of crops becomes uneven.

That is, the conventional pressure reducing hose or drip hose is often closed to small foreign matter because the water hole or jet hole through which the water is discharged is small in size, so that water in the hose is introduced, There is a problem that the whole unit does not work and thus the uniform growth of crops can not be achieved.

DISCLOSURE Technical Problem Accordingly, the present invention has been made in view of the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a drip hose which can prevent the inflow of water, decompression and discharge by foreign substances, And the solution to this problem is a solution to this problem by forming the decompression portion and the outflow portion in the lateral direction of the inflow portion so that even when a part of the inflow portion, a part of the decompression portion, or a part of the discharge portion of the outflow portion is closed by the foreign material, But the main object is to provide the water flow rate through the discharge hose formed in the entire hose through the constant hose.

In order to realize the above object, the present invention provides a drop hose having a drop portion formed therein, the drop portion being formed in a longitudinal direction of the drop hose and an inflow portion formed in a longitudinal direction of the drop hose, And a discharge port formed in the longitudinal direction of the depressurizing hose and formed to communicate with one direction of the depressurizing portion.

Further, the dripping section of the present invention may comprise one unit body constituted by an inlet section, a pressure-reducing section and an outlet section, and the unit body may be formed continuously in the longitudinal direction on the entire length of the drip hose, And the unit body is formed in the lengthwise direction of the entire drop hose.

" 또는 "

" 형상이 점적호스의 길이방향으로 연속배열되는 감압유로부를 포함하여 구성되는 것을 특징으로 한다.Further, the inflow portion of the present invention is constituted by a partition piece continuously arranged in the length direction of the drop hose and arranged at regular intervals, and having an elongated shape, and an inflow hole formed between the partition piece and the neighboring partition piece Quot ;, or "?&Quot; or "

" or "

Pressure passage portion in which the shapes are continuously arranged in the longitudinal direction of the drop hose.

Further, the pressure-reducing portion of the present invention may include a first compartment formed in the longitudinal direction of the drop hose in one direction of the inflow portion, and a plurality of first induction protrusions protruding in one direction of the first compartment, A first induction hole formed between a first side portion continuously arranged in the longitudinal direction of the hose and a first compartment adjacent to the first compartment and a second induction hole formed between the first compartment and a second compartment formed in the longitudinal direction of the dock hose in one direction of the first side, And a plurality of second induction projections formed to protrude in a direction toward the other side of the second compartment and which are formed to be interlaced with the first induction protrusions, wherein the second side and the second side are continuously arranged in the longitudinal direction of the point hose, And a second induction hole formed between the second compartment and the adjacent second compartment.

The outlet portion of the present invention may include a discharge passage portion communicating with the decompression portion and a discharge portion formed at a position opposite to the discharge hole formed in the drop hose and the discharge passage portion together with the discharge portion, And a support portion formed to be thicker than the discharge portion.

As described above, according to the present invention, the drip hose has a larger inflow portion than that of the prior art, so that even when a part of the inflow portion is closed by foreign substances, the inflow of water is smooth and the inflow of water through the plurality of first induction holes is smooth, Even if the discharge hole of the hose is closed by the foreign material, the flow rate discharged by the discharging portion capable of moving the water in the lateral direction, that is, the length direction of the hose hose, is uniform throughout the hose and the growth rate of the crop can be uniformly guided have.

1 is a perspective view showing a conventional drop hose;

2 is a perspective view illustrating a drop hose according to a preferred embodiment of the present invention;

3 is a partially enlarged plan view showing a drop hose according to a preferred embodiment of the present invention;

shave.

4 is a partially enlarged plan view showing a drop hose according to another embodiment of the present invention.

5 is a partially enlarged plan view showing a dot portion according to a preferred embodiment of the present invention;

FIG.

FIG. 6 is a partially enlarged plan view and a cross-sectional view showing a dropping portion according to a preferred embodiment of the present invention; FIG.

The present invention relates to a drop hose (10) capable of supplying a small amount of water required for cultivation of a crop, and more particularly, to a drop hose (10) (300) formed in a lateral direction of the inflow part (200) and introducing the water introduced into the inflow part (200) to adjust the flow rate of the water, and a decompression part And the depressurizing part 100 for discharging a predetermined amount of water to the outside of the drop hose 10 through the discharge hole 500 is formed at the inlet part 200, Even when a part of each of the discharge holes 500 of the discharge unit 300 or the discharge unit 400 is closed by a foreign substance, a constant flow rate of water is discharged to uniformly guide the growth of the crop.

In order to achieve the above-described object, the present invention provides a drop hose (10) having a dot portion (100), wherein the dot portion (100) comprises an inlet portion (200) formed in the longitudinal direction of the drop hose (10) A depressurizing part 300 formed in the longitudinal direction of the drop hose 10 and communicating with one side of the inflow part 200; And an outlet 400 formed in the longitudinal direction of the drop hose 10 and communicating with one direction of the depressurization unit 300.

The point unit 100 of the present invention is a single unit composed of an inflow unit 200, a decompression unit 300 and an outflow unit 400. The unit unit is disposed on the entire lengthwise hose 10 Or one unit body composed of the inlet portion 200, the pressure-reducing portion 300, and the outlet portion 400, and one unit body is formed in the lengthwise direction of the drop hose 10 as a whole do.

" 또는 "

" 형상이 점적호스(10)의 길이방향으로 연속 배열되는 감압유로부(310);를 포함하여 구성되는 것을 특징으로 한다.The inflow portion 200 of the present invention may include a partition piece 210 continuously arranged in the longitudinal direction of the drop hose 10 and arranged at regular intervals and having a long hole shape, And the inflow hole 220 formed between one partition 210 and the decompression portion 300 is constituted by "?" Or "?" Or "?" Or "

" or "

Pressure flow path portion 310 in which the shapes are continuously arranged in the longitudinal direction of the drop hose 10.

The depressurization unit 300 of the present invention includes a first compartment 322 formed in the longitudinal direction of the drop hose 10 in one direction of the inflow unit 200 and a second compartment 322 formed in the first compartment 322, A first side portion 320 having a plurality of first induction projections 324 protruded in one direction of the drop hose 10 and continuously arranged in the longitudinal direction of the drop hose 10, A first guide hole 330 formed between the first partition parts 322 and a second partition member 342 formed in the longitudinal direction of the drop hose 10 in one direction of the first side part 320, And a plurality of second induction projections 344 protruding in the other direction of the second partitioning piece 342 and formed to be interlaced with the first inducing protrusions 324. The length of the length hose 10 A second side (340) continuously arranged in a direction of the first side (340); And a second guide hole (350) formed between the second partition member (342) and the second partition member (342) adjacent to the second partition member (342).

The outlet portion 400 of the present invention includes a discharge channel portion 410 communicating with the decompression portion 300 and a discharge hole portion 500 formed in the drop hose 10, A discharge part 420 formed at a position opposite to the discharge part 420; And a support portion 430 having a thickness greater than that of the discharge portion 420, the discharge passage portion 410 being formed together with the discharge portion 420.

Hereinafter, the present invention will be described in detail with reference to the drawings 1 to 6 showing embodiments of the present invention.

The drip part 100 which is a main component for achieving the present invention is formed in the drip hose 10 and includes an inflow part 200 into which water is introduced into the drip hose 10 to be described later, The water in the inflow part 200 flows into the decompression part 300 and the water in the decompression part 300 flows through the discharge hole 500 formed through the inflow part of the decompression part 300, And the inflow part 200, the decompression part 300, and the outflow part 400 are arranged in one direction.

As shown in FIG. 4, the dispenser 100 of the present invention comprises a single unit (unshown) composed of an inflow unit 200, a depressurization unit 300 and an outflow unit 400, That is, a plurality of continuous arrangements in the longitudinal direction are formed on the entire surface of the substrate 10.

That is, the point unit 100 of the present invention is such that one unit is continuously arranged in the longitudinal direction of the point hose 10, thereby supplying water at a constant flow rate to the crop adjacent to the outside of the point hose 10, The water is discharged to the outside of the drip hose 10 through the other unit which is not closed even if the whole is closed by the foreign substance.

Particularly, the pointed portion 100 of the present invention is characterized in that the inflow portion 200 and the decompression portion 300 are closed by the foreign matter inside the pointed hose 10, The depressurization unit 300 and the depressurization unit 300 and the outflow unit 400 may be connected to the plurality of the passages 400 through the passages 400. In this case, The first induction hole 330 and the second induction hole 350 and the second induction hole 350 are connected to each other so that a part of the discharge hole 500 is closed by an external foreign matter, 500, the water is discharged to the outside of the drop hose 10, thereby achieving the effect that the growth rate of the crop can be maintained uniformly.

In addition, as shown in FIG. 3, the most preferable pointing part 100 of the present invention comprises one unit body composed of the inlet part 200, the pressure-reducing part 300 and the outlet part 400, The depressurization part 300 and the outlet part 400 of the outlet part 400 are formed in the lengthwise direction of the whole of the drop hose 10 rather than the continuous arrangement of the above- The water inside the drop hose 10 is moved through the discharge hole 500 of the inflow portion 200, the decompression portion 300 and the discharge portion 400 which are opened even when a part of the droplets 500 are closed by the foreign substance, Thereby realizing the effect of being smoothly discharged to the outside.

In particular, the inlet 200 of the dispenser 100, which is a key component for achieving the present invention,

5, the partition piece 210, which is continuously arranged in the longitudinal direction of the drip hose 10 and is arranged at regular intervals and has a long hole shape, is formed in the longitudinal direction of the drip hose 10, And an inflow hole 220 formed between the partition piece 210 and the neighboring partition piece 210. Water in the interior of the drop hose 10 flows through the inflow hole 220, And is transferred to the decompression unit 300 to be described in detail.

That is, the partitioning piece 210 is closed so that the water inside the docking hose 10 can be moved through the inflow hole 220 and is continuously arranged in the longitudinal direction of the docking hose 10, Thereby forming a plurality of inflow holes 220 and spaced apart from the decompression portion 300 to be described later to form an inflow channel (not shown), and water flows along the inflow channel in the longitudinal direction of the drop hose 10 .

At this time, the inflow part 200 of the present invention moves the water to the inflow path through the inflow hole 220 that is opened even when a part of the inflow hole 220 is closed by the foreign material inside the dotted hose 10, The inflow hole 220 is formed to have a size smaller than that of the first induction hole 330 formed in the decompression portion 300 and the inflow hole formed in the inflow hole. This realizes the effect of preventing a large foreign matter from flowing into the interior of the viscous part 100 through the inflow hole 220.

The depressurization portion 300, which is a main component for achieving the present invention,

And is formed in the longitudinal direction of the drip hose 10 and is formed to communicate with one side of the inflow part 200. The partition part 210 of the inflow part 200 and the partition part 210 of the inflow part 200 are formed so as to form the above- And a pressure-reducing channel portion 310 is formed on the inner side in such a manner that the water introduced from the inflow channel is moved in the longitudinal direction of the drop hose 10 and is guided to move at a constant flow rate .

" 또는 "

" 형상이 점적호스(10)의 길이방향으로 연속 배열되는 것을 특징으로 하는데, 유입유로로부터 유입된 물이 점적호스(10)의 길이방향으로 이동될 때 상기 감압유로부(310)의 내측면에 부딪히도록 유도함으로써, 물의 유속을 일정하게 유도한다.5, the "?&Quot; or "?&Quot; or "

" or "

Is characterized in that the shape is continuously arranged in the lengthwise direction of the drop hose 10 when the water introduced from the inflow channel is moved in the longitudinal direction of the drop hose 10, Thereby inducing the water flow rate to be constant.

5, the depressurized flow path portion 310 is formed with depressurized depressions 312 at the respective bent portions in the longitudinal direction of the depressurized hose 10, that is, in the forward and backward directions, The flow velocity of the water moving in the longitudinal direction of the water tank 10 is made slow so as to maintain a constant flow rate and the vortex is formed so as to remove accumulated substances or debris and move to maintain the flow rate of water even more smoothly To realize the effect that can be. That is, the pressure-reducing passage portion 310 is most preferably a "? &Quot; shape in which the depressurizing grooves 312 for slowing the flow rate of water are most formed.

The first decompression unit 300 may include a first compartment 322 formed in the longitudinal direction of the drip hose 10 in one direction of the inflow unit 200, A first side portion 320 provided with a plurality of first induction projections 324 protruding in one direction of the first partition piece 322 and continuously arranged in the longitudinal direction of the drop hose 10, A first guide hole 330 formed between the first partition 322 and the adjacent first partition 322 and a second guide hole 330 formed in the longitudinal direction of the drop hose 10 in one direction of the first side 320 And a plurality of second guide protrusions 344 protruding in the other direction of the second partition piece 342 and formed to be offset from the first guide protrusion 324 A second side portion 340 continuously arranged in the longitudinal direction of the drop hose 10 and a second guide hole 350 formed between the second partition portion 342 and the adjacent second partition portion 342 Ha Characterized in that the configuration.

5, the first side portion 320 and the second side portion 340 form the pressure reducing passage portion 310. The first side portion 320 and the second side portion 340 form the pressure reducing passage portion 310, A first induction hole 330 is formed between the first partition 320 and the first partition 320 adjacent to the first partition 320 so that water in the inflow passage of the inflow unit 200 can be introduced into the decompression unit 300 6, the pressure reducing passage 310 is formed between the second partitioning portion 342 of the second side portion 340 and the second partitioning portion 342 of the second side portion 340 adjacent to the second partitioning portion 342, The second induction hole 350 is formed so that the water of the second induction hole 350 can be moved to the outflow portion 400, which will be described later in detail.

The outflow section 400, which is a main component for achieving the present invention,

Is formed in the longitudinal direction of the drip hose 10 and is formed to communicate with one direction of the depressurization portion 300 and is disposed at a position opposite to the position of the plurality of discharge holes 500 formed in the drip hose 10 And the water introduced from the decompression unit 300 is discharged to the outside of the drop hose 10 through the discharge hole 500 to supply water to the crop.

The outlet portion 400 of the present invention includes a discharge passage portion 410 communicating with the decompression portion 300 and a discharge hole 500 formed in the drop hose 10 to form the discharge passage portion 410. [ A discharge part 420 formed at a position opposite to the discharging part 420 and a supporting part 430 formed to have a thicker thickness than the discharging part 420 together with the discharging part 420 .

At this time, the drain passage portion 410 is formed such that the water in the reduced pressure passage portion 310 of the decompression portion 300 flows through the second induction hole 350 and the water introduced through the second induction hole 350 is discharged In the longitudinal direction of the hose 10, that is, in the forward and backward directions of the drop hose 10.

The discharging unit 420 and the supporting unit 430 form the discharging passage 410 as described above and the discharging unit 420 is connected to the discharging hole 500 formed in the dropping hose 10 The supporting portion 430 is relatively thicker than the supporting portion 430 so that the water can be easily discharged and the supporting portion 430 is formed to be thicker than the discharging portion 420, By allowing a large amount of water to be filled into the discharge portion 420 which is a portion of the formed drip hose 10, water can be easily discharged to the outside while maintaining a proper water pressure not through a high water pressure through the discharge hole 500 To realize the effect that can be.

In addition, when the discharge portion 420 is formed to have a thickness thinner than that of the support portion 430, the water pressure is higher than that of the support portion 430 when the discharge portion 420 is thicker than the support portion 430, It is possible to realize the effect of preventing breakage such as tearing of the portion of the dotted hose 10 formed with the ink tank 500 and to prevent the water from being supplied to the crop near the dotted hose 10 It is possible to realize the effect of preventing the problem and to form a wide flow path which allows the foreign matter to move more smoothly so that the discharge hole 500 can be minimally closed by the foreign matter.

That is, the outlet portion 400 of the present invention is formed such that the discharge passage portion 410 is formed entirely in the longitudinal direction of the drop hose 10 by the discharge portion 420 and the support portion 430, The water can be discharged through the discharge hole 500 which is opened even if a part of the discharge hole 500 is closed by an external foreign material, thereby achieving the effect that the growth rate of the crop can be uniform I will.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It is possible to carry out various changes in the present invention.

[Description of Symbols]

10: Dot hose 100:

200: inlet part 210:

220: Inflow hole 300: Decompression section

310: pressure reducing passage part 320: first side part

322: first partitioning piece 324: first guiding projection

330: first induction hole 340: second side

342: second partitioning piece 344: second guiding projection

350: second inducer 400: outlet

410: discharge channel portion 420: discharge portion

430: Support part 500: Exhaust hole

Claims (7)

In the drop hose (10) in which the drip portion (100) is formed, The dotted portion 100 is formed in a layered structure, An inflow part 200 formed in the longitudinal direction of the drop hose 10; A depressurization part 300 formed in the longitudinal direction of the drop hose 10 and configured to communicate with one side of the inflow part 200; And And an outlet (400) formed in the longitudinal direction of the drop hose (10) and configured to communicate with one side of the decompression unit (300) The inflow part 200, the decompression part 300 and the outflow part 400 are connected to each other through a plurality of moving passages so that the inflow part 200 and the decompression part And the water is discharged to the outside of the drop hose (10) through the discharge hole (500) of the outlet (400). The method according to claim 1, The point unit 100 includes a single unit body composed of an inlet unit 200, a pressure-reducing unit 300 and an outlet unit 400. The unit body is continuously arranged in the longitudinal direction of the entire drop hose 10 Lt; / RTI > The method according to claim 1, The pointed portion 100 constitutes one unit body composed of the inlet portion 200, the depressurization portion 300 and the outlet portion 400. One of the unit bodies is formed in the longitudinal direction of the drop hose 10 Dot hose with. The method according to claim 1, The inflow part 200 includes a partition piece 210 continuously arranged in the longitudinal direction of the drop hose 10 and arranged at regular intervals and having an elongated shape and a partition piece 210 adjacent to the partition piece 210 And an inflow hole formed between the inflow hole and the inflow hole. The method according to claim 1, The depressurization unit 300 may be configured to select either "?" Or "?" Or "?"

" or "

Pressure passage portion 310 in which the shape is continuously arranged in the longitudinal direction of the drop hose 10. The drop hose according to claim 1, The method according to claim 1, The depressurization portion 300 includes a first partition 322 formed in the longitudinal direction of the drop hose 10 in one direction of the inlet portion 200 and a second partition 322 protruding in the direction of one side of the first partition 322 A first side portion 320 having a plurality of first guiding protrusions 324 formed in the longitudinal direction of the drop hose 10 and continuously arranged in the longitudinal direction of the drop hose 10, A second compartment 342 formed in the longitudinal direction of the drop hose 10 in one direction of the first side 320 and a second compartment 342 formed in the longitudinal direction of the drop hose 10, And a plurality of second guiding protrusions 344 protruding in the other direction of the piece 342 and formed to be interlaced with the first guiding protrusion 324 and being continuously arranged in the longitudinal direction of the drop hose 10 A second side 340; And a second guide hole (350) formed between the second partition piece (342) and the adjacent second partition piece (342). The method according to claim 1, The outlet 400 is formed with a discharge passage 410 communicating with the decompression unit 300 and a discharge port 500 formed in the discharge hose 10, A discharge part 420 formed in the discharge part 420; And a support part 430 having a thickness greater than that of the discharge part 420, the discharge part 410 being formed together with the discharge part 420.

Images