KR102649696B1 - Plant cultivation hose able to uniform of discharge water - Google Patents

Abstract

The present invention relates to an irrigation hose for plant cultivation that maintains a constant water discharge amount.
More specifically, in the irrigation hose that receives water from a pump for plant cultivation, the amount of water discharged from the end of the irrigation hose adjacent to the pump to the end far away from the pump is maintained at a constant level, so that the plants being cultivated This relates to an irrigation hose for plant cultivation that allows the water supply to be discharged evenly and maintains a constant water output.

Description

Irrigation hose for plant cultivation that maintains constant water output {PLANT CULTIVATION HOSE ABLE TO UNIFORM OF DISCHARGE WATER}

The present invention relates to an irrigation hose for plant cultivation that maintains a constant water discharge amount.

More specifically, in the irrigation hose that receives water from a pump for plant cultivation, the amount of water discharged from the end of the irrigation hose adjacent to the pump to the end far away from the pump is maintained at a constant level, so that the plants being cultivated This relates to an irrigation hose for plant cultivation that allows the water supply to be discharged evenly and maintains a constant water output.

Water supply facilities are essential for growing plants such as crops and trees. Means for supplying water to these plants include high-strength, thick-walled pipes or hoses made of thin synthetic resin.

Among the means for supplying water to plants (hereinafter collectively referred to as "irrigation"), the irrigation hose is made of thin synthetic resin as described above, and simply forms a number of holes in the wall of the hose. The hose is configured to spray the water inside it to the outside.

Conventional irrigation hoses have a plurality of irrigation holes formed in one or two rows on the hose, and these irrigation holes are formed at equal intervals at regular intervals.

The irrigation hole formed in such an irrigation hose has a circular hole shape or is formed by cutting a part of the irrigation hose with a knife and tearing it into a "-" shape (commonly referred to as a "knife hole").

The irrigation hose with the irrigation hole configured in this way is installed along the center of the furrow or hanging inside the house, and the irrigation hose installed in this way must evenly supply water supplied by the pump installed on one side to the entire furrow.

However, when the watering holes are formed at regular intervals as shown in Figure 4a of the attached drawing, the pressure inside the hose decreases as the distance from the pump increases, and the amount of water discharged decreases. In this case, the amount of water supplied to the plants decreases. Accordingly, there is a problem in that water cannot be supplied evenly to the cultivated plants.

In addition, as the pressure inside the hose decreases, foreign matter remaining in the hose or contained in water accumulates inside the hose, as shown in Figure 4 of the attached drawing, which reduces the usage durability of the hose and promotes hose replacement. causes.

Meanwhile, Patent Registration No. 10-1042400 describes an irrigation hose for plant cultivation.

The technology relates to an irrigation hose that allows the water supplied by the pump to be discharged evenly from both the pump connection adjacent to the pump and the end distant from the pump. It is made of thin synthetic resin and has multiple irrigation holes in the wall. An irrigation hose for plant cultivation is described, wherein the gap between the irrigation holes is gradually narrowed from one end of the irrigation hose to the other end.

However, water cannot be supplied evenly to cultivated plants simply by adjusting the spacing of the irrigation holes as in the above-described technology. In addition, because the planting spacing of cultivated plants is constant and fixed, adjusting the spacing of irrigation holes does not help solve the problem.

In addition, a drip hose is described in Patent Publication No. 10-2017-0056113.

In the above technology, drip chips are formed in extraction holes drilled at equal intervals in the drip hose, so that a certain amount of water in the drip hose can be discharged to the outside through the drip chips. The drip chip inside the hose is divided by a double adhesive surface, and a gap is formed between the adhesive surfaces, and a plurality of gas discharge holes are formed on the outer adhesive surface, resulting in heat fusion fixation of the drip chip inside the drip hose. By allowing gas to be discharged directly to the outside, it is possible to minimize the defect rate in the production of drop chips, and at the same time, the inner adhesive surface through which water flows is double protected from the outer adhesive surface, so the adhesive surface is separated and water is prevented. Water leakage can be prevented, and the water flowing into the water inlet hole within the inner adhesive surface induces a flow in the opposite direction to the passage to maintain a constant water pressure, and water at a constant hydraulic pressure is again formed into a right-angled isosceles triangle. This relates to a drip hose that allows the water flowing into the drip chip to be discharged from the water collector to the extraction hole at a constant hydraulic pressure as the pressure is reduced in the vortex water channels formed opposite to each other at equal intervals.

However, the above-described technology also only achieves pressure maintenance using the structure.

Registered Patent Publication No. 10-1042400 (announced on June 20, 2011) Public Patent Publication No. 10-2017-0056113 (May 23, 2017)

The purpose of the present invention is to provide an irrigation hose that receives water from a pump for plant cultivation, so that the amount of water discharged from the end of the irrigation hose adjacent to the pump to the end far away from the pump can be constant, thereby improving the ability to grow plants. The aim is to provide an irrigation hose for plant cultivation that allows water supply to plants to be discharged evenly and maintains a constant water output.

The present invention for achieving the above-described object is to form a plurality of irrigation holes at regular intervals along the longitudinal direction of the irrigation hose, from the end of the irrigation hose adjacent to the pump to the end far away from the pump, wherein the irrigation holes have a length of The aim is to provide an irrigation hose for plant cultivation that is formed to have a diameter that gradually increases as the direction goes, and maintains a constant water discharge amount.

Another object of the present invention is to form a plurality of irrigation holes having the same diameter into one group, wherein the group consists of a plurality of groups, and as the group progresses in the longitudinal direction of the irrigation hose, other adjacent groups in the pump direction are formed. The aim is to provide an irrigation hose for plant cultivation that is formed to have a diameter larger than that of the group, and maintains a constant water discharge amount.

The irrigation hose for plant cultivation that maintains a constant water discharge amount according to the present invention, which was designed to achieve the above-described object, is an irrigation hose (1) formed with an irrigation hole (10), wherein the irrigation hole (10) is an irrigation hose ( 1), which are formed in plural numbers at regular intervals along the longitudinal direction, and are characterized in that the diameter of the irrigation hole (10) gradually increases from the end where the pump of the irrigation hose (1) is located to the end in the opposite direction. .

At this time, among the irrigation holes 10, the irrigation hole 10 closest to the end in the direction in which the pump is located is characterized by being formed as a straight line (-).

In addition, the plurality of irrigation holes 10 are formed into one group, and the plurality of groups are arranged in a plurality in the longitudinal direction of the irrigation hose 10, and as the longitudinal direction increases, other adjacent irrigation holes in the pump direction ( 10) It is characterized by a larger diameter.

In addition, each group is characterized by being divided by a compartment boundary (A).

According to the irrigation hose for plant cultivation that maintains a constant water discharge amount according to the present invention, the amount of water discharged from the end of the irrigation hose adjacent to the pump to the end far away from the pump is constant, thereby ensuring an even supply of water to the cultivated plants. It has the advantage of providing an irrigation hose for plant cultivation that maintains a constant amount of water that can be discharged.

Figure 1 shows an irrigation hose for plant cultivation that maintains a constant water output according to the present invention.
Figure 2 shows an irrigation hose for plant cultivation that maintains a constant water discharge amount according to another embodiment of the present invention.
Figure 3 shows the internal state of an irrigation hose for plant cultivation that maintains a constant water discharge amount according to the present invention.
FIG. 3A expresses the amount of water discharged from an irrigation hose for plant cultivation that maintains a constant water discharge amount according to FIG. 3.
Figure 4 shows the internal state of a conventional irrigation hose for plant cultivation that maintains a constant water discharge amount.
Figure 4a expresses the amount of water discharged from an irrigation hose for plant cultivation that maintains a constant water discharge amount according to Figure 4.
Figures 5 and 6 show an irrigation hose for plant cultivation that maintains a constant water discharge amount according to another embodiment of the present invention.

Terms or words used in this specification and claims should not be construed as limited to their usual or dictionary meanings, and the inventor may appropriately define the concept of terms to explain his or her invention in the best way. It must be interpreted as meaning and concept consistent with the technical idea of the present invention based on principles.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention and do not represent the entire technical idea of the present invention, so various equivalents can be substituted for them at the time of filing the present application. It should be understood that there may be variations.

Hereinafter, before explaining with reference to the drawings, matters that are not necessary to reveal the gist of the present invention, that is, known configurations that can be easily added by a person skilled in the art, are not shown or described in detail. Let's keep it clear.

The present invention relates to an irrigation hose for plant cultivation that maintains a constant water discharge amount.

More specifically, in the irrigation hose that receives water from a pump for plant cultivation, the amount of water discharged from the end of the irrigation hose adjacent to the pump to the end far away from the pump is maintained at a constant level, so that the plants being cultivated This relates to an irrigation hose for plant cultivation that allows the water supply to be discharged evenly and maintains a constant water output.

The irrigation hose for plant cultivation that maintains a constant water output according to the present invention will be described with reference to the attached drawings.

Figure 1 shows an irrigation hose for plant cultivation that maintains a constant water output according to the present invention.

Prior to the description, in the drawings explaining the present invention, the irrigation hole is shown enlarged from its actual size. The drawings are only for reference to explain the present invention and do not determine the scope of rights of the present invention, but are also intended to make the present invention easier to understand.

The irrigation hose for plant cultivation (hereinafter collectively referred to as 'hose'), which maintains a constant water discharge amount according to Figure 1 of the attached drawing, includes irrigation holes 10 formed at regular intervals on one side.

The watering holes 10 are formed in plural numbers at regular intervals along the longitudinal direction of the hose 1, and are arranged in a certain size for a predetermined number. When the predetermined number is met, the watering holes 10 are spaced at equal intervals and are larger than the watering holes at the front end. Ensure that a predetermined number of irrigation holes with a diameter are arranged in a certain size.

In other words, the diameter gradually increases as you move away from the pump. However, the irrigation holes 10 are made up of a predetermined number of irrigation holes as one group, as shown in the attached drawing, and the size of the irrigation holes forming the group gradually increases in the direction away from the pump.

However, according to one embodiment, the irrigation holes 10 may be gradually enlarged in the longitudinal direction of the hose 1 without being divided into groups.

Meanwhile, among the irrigation holes 10 formed in the hose 1, the irrigation hole 10 closest to the pump may be configured in a straight (-) torn shape as shown in Figure 2 of the attached drawing.

Figure 2 shows an irrigation hose for plant cultivation that maintains a constant water discharge amount according to another embodiment of the present invention.

However, even in this case, it is sufficient to gradually increase the size of the irrigation hole 10. Although the drawing shows a circular irrigation hole, it may be formed as a rectangular or square hole.

In addition, the maximum size of the irrigation hole (10) may vary depending on the length of the irrigation hose (1) (see 11, 12, 13 ... 10n), but the spacing between irrigation holes (10) of different sizes It is characterized by constantness.

However, it is desirable that the largest irrigation hole in the irrigation hole 10 should not be larger than 5 times the size of the smallest irrigation hole, and this will be elaborated through the experiment described later.

As described above, the reason for increasing the size of the irrigation hole 10 in the longitudinal direction of the hose 1 is that, firstly, as the pressure inside the hose 1 weakens as the distance from the pump increases, the hose 1 This is to solve the problem that the water supplied to the plants is inconsistent as the amount of water discharged from the end farthest from the pump decreases, and secondly, foreign substances contained in the water supplied from the pump are removed from the inside of the hose (1). This is to solve the problem of the pressure being weakened and not being discharged through the irrigation hole (10) remaining inside the hose (1).

For example, the description will be made through FIGS. 3 to 4A of the attached drawings.

Figure 3 shows the internal state of the irrigation hose for plant cultivation that keeps the water output amount constant according to the present invention, and Figure 3a expresses the amount of water discharged from the irrigation hose for plant cultivation that keeps the water output amount constant according to Figure 3.

In addition, Figure 4 shows the internal state of a conventional irrigation hose for plant cultivation that maintains a constant water discharge amount. Figure 4a expresses the amount of water discharged from an irrigation hose for plant cultivation that maintains a constant water discharge amount according to Figure 4.

Figure 3 of the attached drawings shows an irrigation hose according to the present invention, and Figure 4 shows a conventional irrigation hose.

As shown in Figure 4 of the attached drawing, in the conventional irrigation hose, as the pressure inside the hose 1 gradually weakens as described above, foreign substances are unable to pass through the irrigation hole and are piled up inside the hose, which causes Ultimately, it causes blockage inside the hose (1), which affects the use of the hose and reduces its durability.

On the other hand, as shown in Figure 3 of the attached drawing, the irrigation hose according to the present invention gradually increases the size of the irrigation hole 10, so that even if the pressure inside the hose 1 weakens, the amount of water discharged increases, so that the water discharge amount is uniform. Water discharge is possible, and at the same time, water pressure is applied according to water discharge, which has the advantage of supplementing the pressure inside the hose (1).

Therefore, foreign substances present inside the hose 1 can be discharged together with water through the irrigation hole, which reduces the possibility of accumulation, ultimately contributing to preventing failure and improving durability of the hose during use.

In addition, while the conventional irrigation hose gradually reduces the amount of water discharged as the distance from the pump increases, as shown in FIG. 4a, according to the irrigation hose according to the present invention, a uniform amount of water is discharged from each irrigation hole 10 as shown in FIG. 3a. It has the advantage of being exportable.

On the other hand, as described above, when a plurality of irrigation holes are grouped into one group, the hose (1) is divided into equal parts by the compartment boundary (A) at regular intervals as shown in Figures 5 and 6 of the attached drawings, and one Multiple irrigation holes of the same size can be arranged within the compartment.

Figures 5 and 6 show an irrigation hose for plant cultivation that maintains a constant water discharge amount according to another embodiment of the present invention.

At this time, the compartment boundary (A) is not a separate configuration formed on the outer surface of the hose (1), but is used to distinguish one group of multiple irrigation holes from another group adjacent to it.

Reference Example 1. Durability evaluation of irrigation hose

Below, durability evaluation of the irrigation hose was performed.

In an irrigation hose such as the present invention, the pressure inside the hose must be constant in order for water and foreign substances to be smoothly discharged from the hose. Therefore, appropriate durability to withstand the pressure must be secured. In other words, in terms of pressure resistance performance, rubber hoses such as irrigation hoses show no abnormalities such as rupture or local expansion in a hydraulic test conducted for 1 minute at a pressure of 3 MPa or more, according to Korean standards, and the burst test pressure is 9.0 MPa or more (revised on 10.8.31). Because it must be

Using a normal pressure resistance performance evaluation method, a hydraulic test was performed at a pressure of 3 MPa for 1 minute, and the maximum burst pressure was evaluated.

This evaluation was conducted on the conventional irrigation hose (control group) and the irrigation hose according to the present invention (experimental group), and the results were evaluated as follows.

Additionally, the control group used a commercially available irrigation hose from company A.

division opinion control group No rupture or expansion occurred in the hydraulic test. Burst pressure 9.2MPa experimental group No expansion was found in the hydraulic test, but rupture was found near the irrigation hole at the end where water is supplied. Burst pressure 8.8MPa

In the case of the experimental group, rupture occurred 40 seconds after the start of the test between small-diameter irrigation holes.

In other words, of course, the irrigation holes must meet a certain size or more, and a minimum distance between irrigation holes is also required.

On the other hand, the control group showed stable test results.

However, as described above, if the size of the irrigation hole is constant, the amount of water discharged decreases as the distance from the pump increases, making it inefficient for plant cultivation. Therefore, improvement of the structure is necessary as in the present invention, and for this, experimental results of the control group are needed. It was determined that it was necessary to improve the irrigation hose according to the present invention so that it could be used.

Reference Example 2. Evaluation of irrigation hole spacing of irrigation hose

Below, the spacing between multiple irrigation holes formed in the irrigation hose was evaluated.

In Reference Example 2, as in Reference Example 1, hydraulic tests and burst test pressure measurements were performed on the experimental groups as shown in [Table 2].

At this time, the spacing between the irrigation holes was gradually increased based on the diameter of the irrigation hole having the minimum and smallest diameter.

Experimental group 1 Interval corresponding to the diameter (m) of the irrigation hole with the smallest diameter Experimental group 2 m x 2 times Experimental group 3 m x 3 times Experimental group 4 m x 4 times Experimental group 5 m x 5 times Experimental group 6 m x 6 times

As a result of performing the experiment on the experimental groups shown in [Table 2], in experimental group 1 and experimental group 2, rupture occurred around the irrigation hole having the smallest diameter during the hydraulic test.

However, such rupture was not found in experimental group 3, but in the case of experimental group 3, rupture was found around the irrigation hole 13 of the third size.

Therefore, it is most desirable to use a gap that is at least four times the diameter (m) of the irrigation hole 11 having the smallest diameter as the minimum gap between irrigation holes that does not cause rupture.

At this time, the gap having four times the size was a size corresponding to the diameter of the irrigation hole 12 having the second size.

Therefore, it is desirable that the spacing between the irrigation holes at least exceeds the diameter of the irrigation hole 12 having the second size.

Overall, it is desirable that the spacing between the irrigation holes 10 applied to the irrigation hose 1 exceeds the diameter of the irrigation holes 12 having at least the second size.

Below, the diameter at which the irrigation hole can be maximized is evaluated. The effect of the size of the irrigation hole on the performance of the irrigation hose was evaluated.

Reference Example 3. Evaluation of maximum size of irrigation hole

Prepare four irrigation hoses with a length of 100 m, with an interval based on Reference Example 2, and drain the size of the last irrigation hole (10n) with the largest diameter based on the irrigation hole (11) with the smallest diameter. I tried growing it as a unit. At this time, the size of the irrigation holes in between was gradually increased.

At this time, the size of the last irrigation hole should be at least larger than the gap based on Reference Example 2, considering the spacing between crops and considering the use efficiency of the irrigation hose.

Experimental group 4a: Last irrigation hole - 4 times the irrigation hole with the smallest diameter

Experimental group 4b: Last irrigation hole - 5 times the irrigation hole with the smallest diameter

Experimental group 4c: Last irrigation hole - 6 times the irrigation hole with the smallest diameter

Experimental group 4d: Last irrigation hole - 7 times the irrigation hole with the smallest diameter

Experiment result

As a result of evaluating the burst pressure of each experimental group, the maximum burst pressure value of 8.8 MPa was measured in experimental group 4a and experimental group 4b. Therefore, it does not meet hose standards.

On the other hand, in experimental group 4c, a burst pressure of 9.14 MPa was measured. This means that there is a minimum value of the size of the last located irrigation hole (10n), and it has been confirmed that failure to meet the minimum value affects the durability of the hose.

In experimental group 4d, a bursting pressure value similar to experimental group 4c was measured, but as a result of supplying water at the pressure (0.5 kgf/cm ² ) used in farms (greenhouses), water was discharged from the irrigation hole (11) with the smallest diameter. The amount of water seemed to be small compared to the remaining irrigation holes (12, 13...10n).

Therefore, an additional experiment was performed by placing a 1L beaker at the bottom of each irrigation hole and supplying 20L of water. At this time, water was discharged from irrigation holes of the same group into the same beaker.

As a result, it was confirmed that the amount of water discharged from the irrigation hole (11) having the smallest diameter was 2/3 of the amount of water discharged from the other irrigation holes (12, 13...10n).

This means that even if the size of the last irrigation hole (10n) becomes too large, the pressure inside the hose (1) increases to the last irrigation hole (10n), and at the same time, even if the pressure generated in the irrigation hole (11) is strong, the diameter As this is too small, it cannot overcome the water pressure toward the last irrigation hole (10n) and the amount of water discharged is reduced.

The description above using the attached drawings describes only the main points of the present invention, and it is obvious that the present invention is not limited to the configuration of the attached drawings, as various designs are possible within the technical scope.

1: Irrigation hose
10, 11, 12, 10n: Irrigation hole
A: Parcel boundary

Claims (4)

In the irrigation hose (1) formed with an irrigation hole (10),
The irrigation holes 10 are formed in plural numbers at regular intervals along the longitudinal direction of the irrigation hose 1,
The irrigation hole (10) is,
Among the irrigation holes 10, the irrigation hole 10 closest to the end in the direction in which the pump is located is formed as a straight line (-),
At least one or more hoses are arranged in a certain size along the longitudinal direction of the irrigation hose (1), and when the number is met, they are arranged so that an irrigation hole having a larger diameter than the irrigation hole at the front end is formed,
The spacing between the plurality of irrigation holes 10 is set to at least exceed the diameter of the second largest irrigation hole among the plurality of irrigation holes 10,
An irrigation hose for plant cultivation that maintains a constant water discharge amount, characterized in that the diameter of the irrigation hole with the largest diameter among the irrigation holes (10) is 7 times that of the irrigation hole with the smallest diameter. delete delete delete