KR101828596B1 - Pressure compensating drip emitter - Google Patents

Abstract

The present invention provides a pressure compensation drip emitter, which is not limited to a position when being mounted on a water supply hose, particularly, can be inserted and used in an accurate position according to the position of crops, and can constantly supply water regardless of high supply pressure of the water supply hose. To this end, the pressure compensation drip emitter comprises: a lower housing which has an inlet path formed on a bottom surface thereof to feed water, has an inversion port inserted and fixed to a water supply hose, and has an accommodating chamber formed therein to be connected to the inlet path; and an upper housing which has a lower part inserted and fixed to the accommodating chamber, has a discharge chamber therein, has a valve pad formed to be interposed into the lower part thereof, and has a side surface through which water in the accommodating chamber is fed and decompressed to be discharged through a discharge path of a discharge port formed on the upper part thereof after passing through the discharge chamber. Therefore, the present invention has effects of rapidly and conveniently performing installation in a short time without burden or inconvenience, particularly, smoothly supplying water to agricultural products planted at different intervals, and stably supplying water.

Description

A pressure compensating drip emitter

More particularly, the present invention relates to a pressure-compensated drip emitter, and more particularly, to a pressure-compensated drip emitter which is not limited in its position when mounted on a water supply hose, To a pressure-compensated drip emitter capable of constantly supplying water irrespective of a high supply pressure.

Generally, a water supply hose used for cultivating crops is arranged in parallel at regular intervals to supply water to crops planted on a wide area, and a plurality of discharge holes through which water is sprayed are formed in the water supply hose.

In other words, the water pressurized by a pump or the like is discharged from each discharge hole through the water supply hose and supplied to the crops. At this time, in order to discharge a certain amount of water from both the discharge hole close to the pump and the far- And a drip that pressurizes and discharges the water pressure is provided.

Prior art related to the drip that is provided to supply a certain amount of water to the discharge hole of the water supply hose is disclosed in Korean Registered Utility Model No. 20-0449454 and Korean Patent No. 10-0748604.

These drips have a function of reducing the pressure of the water supply hose and then discharging the water, but the drips often fail to perform properly according to the supply pressure.

In order to solve the problems associated with the prior art as described above, it has been conventionally known that the emitter units are connected to the conduit adjacent to the outlet hole in the conduit, as disclosed in Korean Patent No. 10-0368706 (hereinafter referred to as "Prior Art Document 1" Such as a system in which the irrigation flow through the conduit is caused by the drip irrigation output through the outlets from the individual emitter units has been proposed .

Also, as disclosed in Korean Patent Laid-Open No. 10-2007-0014140 (hereinafter referred to as "Prior Art Document 2"), a technique such as an assembled relational pipe capable of integrally fitting a plurality of connector members into an irrigation pipe It has been proposed.

In addition, as disclosed in Korean Patent No. 10-0754779 (hereinafter referred to as "Prior Art Document 3"), in comparison with a pressure-sensitive tape (or hose) having a decompression means formed of a concave-convex portion, A technique such as a drip tape has been proposed that has a remarkable pressure control effect compared to an inexpensive and simple film superimposed tape (or hose), and thus eliminates the disadvantages of the existing product and takes advantage only.

Korean Patent No. 10-0368706 Korean Patent Publication No. 10-2007-0014140 Korean Patent No. 10-0754779

However, the prior art document 1 has a disadvantage in that it can not be moved according to a change in the position of the crop to be supplied with water, because it has a limited condition that it should be installed only in the discharge hole formed in the water supply hose.

The prior art document 2 has a disadvantage in that the supply of the water is not constant in accordance with the pressure change of the water supplied through the irrigation pipe.

Prior Art Document 3 Also, since the discharge position of water is limited as in the case of the technical literature 1, if the crops are not planted at a certain distance, the water supply efficiency is deteriorated.

In order to solve the above problems, the present invention has been made to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a water supply hose, And to provide a pressure-compensated drip emitter capable of constantly supplying water irrespective of a high supply pressure.

Another object of the present invention is to finely and continuously supply the water even when an abnormal pressure is generated in the water supply.

According to an aspect of the present invention, there is provided a pressure-compensated drip emitter, which is installed to supply water to a water supply hose arranged to supply water to crops, A lower housing having an inlet port formed with an inflow path through which water is introduced and fixed to the water supply hose by being fixed thereto, and an accommodating chamber formed inside the inflow channel; And a lower portion is inserted and fixed into the accommodating chamber, a discharge chamber is formed therein, and a valve pad is interposed therebetween. On the side of the discharge port, water is introduced into the accommodating chamber through the discharge chamber, And an upper housing which is discharged through the discharge passage.

Wherein the water discharge from the side surface of the upper housing includes an inlet formed at one side of the lower side of the side surface to receive water in the receiving chamber, a reduced pressure formed in the outer side surface of the side surface to reduce water introduced into the inlet, Is discharged through a supply port formed on one side of the upper surface of the side surface on which the decompression furnace is disposed and the decompressed water is supplied to the discharge passage side.

Wherein the pressure reducing furnace is formed between protruding protrusions protruding in a zigzag form at a predetermined interval on the upper and lower ends of the outer side surface, As shown in FIG.

And the engagement protrusions are formed on the outer side surfaces of the insertion port and the discharge port, respectively.

A protrusion protruding from the upper surface of the discharge chamber at a predetermined height is formed on the upper surface of the discharge chamber on the outer circumference of the discharge path, and a fine path is formed on one side of the protrusion to connect with the discharge path.

The present invention is not only limited in its position when installed in the water supply hose but also can be used in a precise position depending on the location of the crop, as well as being able to supply water constantly irrespective of the high supply pressure of the water supply hose In addition to the effect that the installation can be carried out quickly and easily in a short period of time without the inconvenience of inconvenience, in particular, it is possible to smoothly supply the water without any trouble in agricultural products planted at different intervals, Effect.

In addition, when water is supplied, the water can be finely and continuously supplied even when an abnormal pressure is generated, so that water can be supplied without interruption.

1 is an exploded perspective view for explaining the present invention,
Figure 2 is an assembled cross-sectional view according to Figure 1,
3 is a cross-sectional view for explaining the use state 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 to the embodiments.

FIG. 1 is an exploded perspective view for explaining the present invention, FIG. 2 is an assembled cross-sectional view according to FIG. 1, and FIG. 3 is a cross-sectional view for explaining a use state of the present invention.

As shown in the figure, the pressure-compensated drip emitter 1 of the present invention is installed in a water supply hose arranged to supply water to crops and is used to supply water.

The present invention is not only limited in its position when installed in the water supply hose but also can be used in a precise position according to the location of the crop, as well as being able to supply the water constantly irrespective of the high supply pressure of the water supply hose There is.

The pressure-compensated drip emitter (1) according to the present invention is formed with an insertion port (12) formed with an inflow path (12a) for inflow of water into the bottom surface thereof and fixed by being inserted into the water supply hose (100) A lower housing 10 in which an accommodating chamber 14 is formed, the lower housing 10 being connected to the furnace 12a; And a lower portion is inserted and fixed into the accommodating chamber 14 and a discharge chamber 22 is formed therein so that a valve pad 30 is interposed therebetween and water flows into the side of the accommodating chamber 14, And an upper housing 20 which is discharged through a discharge passage 24a of a discharge port 24 formed in the upper portion via the discharge chamber 22. The water supply hose is formed with a perforated insertion hole into which the insertion port is inserted and fixed.

The valve pad 30 is hung and supported by a support step 25 formed on the inner surface of the discharge chamber 22.

The insertion of the upper housing 20 in the accommodating chamber 14 of the lower housing 10 is fixed by an adhesive, a fusion or the like, which is a usual fixing method.

Accordingly, the present invention inserts and fixes the insertion port formed on the bottom surface of the lower housing with the insertion hole drilled in the water supply hose. At this time, the insertion and fixing may be fixed by a known interference fit method, an adhesive or the like, and may also be inserted and fixed by a locking protrusion and an engagement groove method. It is also preferable to seal between the insertion port and the water supply hose so that the water is not leaked by a known method.

Therefore, the water introduced through the inflow passage formed in the insertion port flows into the accommodating chamber and at the same time, the valve pad located at the upper portion is pushed upward by the pressure to open the valve pad. At the same time, And is discharged to the outside through the discharge port of the discharge port through the chamber.

In the present invention, the water in the receiving chamber is decompressed from the side surface of the upper housing through the inflow path, and then discharged through the discharge path of the discharge port through the discharge chamber, so that even if water is supplied at a high pressure from the water supply hose, In the discharge passage, the water is discharged stably at a constant pressure at all times. Here, when the pressure of the accommodating chamber and the pressure of the discharge chamber are the same, the valve pad keeps the inlet and the discharge passage open at the same time, thereby constantly discharging a constant amount of water.

Thus, the pressure-compensated drip emitter of the present invention is inserted into a desired position of the water supply hose by inserting and inserting the insertion port of the lower housing, thereby facilitating the use of the water, which can smoothly supply the agricultural products planted at irregular intervals to provide.

Particularly, it also has a condition that the supply pressure can be reliably and smoothly supplied as the supply pressure is reduced from the side surface of the upper housing by discharging the water by the high supply pressure of the water supplied from the water supply hose.

Thereby promoting the growth of crops and thus maximizing crop efficiency.

The water discharge from the side surface of the upper housing 20 includes an inlet 26 formed at one side of the lower side of the side surface 20A to receive water in the receiving chamber 14, (27) formed so that the water introduced into the discharge port (26) is depressurized, and a water decompressed through the decompression path (27) to one side of the upper end of the side surface (20A) (28) formed so as to be supplied to the side of the first flow path (24a).

That is, the inlet and the inlet are located on the same line, and the water introduced into the inlet is decompressed while circulating through the decompression furnace, and then flows into the discharge chamber through the supply port and then discharged to the discharge port of the discharge port.

So that the pressure of the water introduced into the inlet chamber at a high pressure is finally discharged in a reduced pressure state so that the discharge can be performed stably and uniformly.

In addition, the pressure reducing furnace 27 is formed between protruding protrusions 27A protruding and formed in a zigzag form at a predetermined interval on the upper and lower ends of the outer side surface, and the upper side protrusion protrusion and the lower side protrusion protrusion 27B, Is formed to have a gradually narrower width from the inlet 26 side toward the inlet 28 side so as to have a high decompression efficiency.

So that the supply pressure on the supply port side can be remarkably lowered compared with the inflow pressure on the inlet port side.

And the engagement protrusions 12b and 24b are formed on the outer surfaces of the insertion port 12 and the discharge port 24, respectively. That is, the latching jaw of the insertion port serves to insert and fix in the water supply hose, and the latching jaw of the discharge port is provided so as to be able to fix other tubes, pipes, hoses or the like when they are connected.

Therefore, the insertion of the water supply hose into the water supply hose can be more easily and conveniently performed by the engagement protrusion formed on the insertion port without any other fixing means.

In the meantime, when the water flowing through the inflow path generates a high pressure due to the abnormal pressure, the valve pad closes the discharge path. At this time, even if the upper surface of the discharge path is closed, water in the discharge chamber is finely discharged And to provide a technical structure.

A protruding step 22A protruding from the upper surface of the discharge chamber 22 at a predetermined height is formed on the upper surface of the discharge chamber 22 at the outer circumference of the discharge path 24a and connected to the discharge path 24a at one side of the protruding step 22A And a fine path 22B is further formed.

Therefore, even if the valve pad closes the upper surface of the discharge passage by the water flowing into the inflow passage at a high pressure, the water can be discharged to the discharge passage through the fine passage formed at one side of the protruding portion, There is a condition that can be discharged continuously.

This has the advantage that the water can be finely and continuously supplied even if abnormal pressure of the water supplied from the water supply hose is generated.

1: Pressure compensated drip emitter
10: lower housing 12: insertion port
12a: Inflow path 12b, 24b:
14: accommodating chamber 20: upper housing
20A: side surface 22: exhaust chamber
22A: protruding jaw portion 22B: fine
24: Discharge port 24a:
25: support step 26: inlet
27: Decompression furnace 27A: Projection projection
28: supply port 30: valve pad

Claims (5)

A pressure-compensated drip emitter installed to supply water to a water supply hose disposed to supply water to crops,
Wherein the pressure compensating drip emitter is formed with an insertion port formed with an inflow path for inflow of water to the bottom surface thereof and fixed to the water supply hose by being fixed thereto and a receiving chamber formed inside the inflow path, And
A lower portion is inserted and fixed into the accommodating chamber, a discharge chamber is formed therein, and a valve pad is interposed therebetween. In the side surface, water in the accommodating chamber flows into the discharge chamber, And an upper housing,
Wherein the water discharge from the side surface of the upper housing includes an inlet formed at one side of the lower side of the side surface to receive water in the receiving chamber, a reduced pressure formed in the outer side surface of the side surface to reduce water introduced into the inlet, Is discharged through a supply port formed on one side of the upper surface of the side surface on which the water is decompressed,
Wherein the pressure reducing furnace is formed between protruding protrusions protruding in a zigzag form at a predetermined interval on the upper and lower ends of the outer side surface, Direction, and is formed so as to have a gradually narrower width in the &
Wherein a protrusion protruding from the upper surface of the discharge chamber at a predetermined height is formed on an upper surface of the discharge chamber on the outer circumferential side of the discharge path and a fine path is formed on one side of the protrusion, Features a pressure compensated drip emitter. delete delete The method according to claim 1,
Further comprising a plurality of protrusions formed on outer surfaces of the insertion port and the discharge port, respectively. delete

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