KR19980065642U - Drop nozzle for watering cultivated crops - Google Patents

Abstract

The present invention relates to a drop nozzle for watering cultivated crops, and in particular, the inlet hole, the zigzag flow path, and the dwell nozzle having a predetermined area in communication with each other have a drop nozzle in the form of a fusion coupling into the water pipe. And a through hole is formed through a portion of the water pipe in which the dwelling groove of the drip nozzle is located, and the water flowing through the water pipe flows through the inlet hole of the drip nozzle and then passes through a zigzag flow path communicating therewith. The decompression and deceleration at the extremely low pressure causes the stagnation to remain in the dwelling groove, and the stagnant water is supplied to the crops that are cultivated drop by drop in the form of water droplets through the openings of the water pipes. Efficient watering is provided for crops grown in large areas without labor, and water consumption is reduced Its characteristics are to improve the economics of growing.

Description

Drop nozzle for watering cultivated crops

The present invention relates to a drop nozzle for continuously supplying a small amount of water to cultivated crops such as various crops or horticultural fruits, and in particular, to cultivate water for water supply by being fused at a predetermined interval on the inner side of the water pipe where water is transferred. The present invention relates to a drop nozzle for watering cultivated crops, by continuously supplying droplets to the roots of crops to be efficiently supplied to crops grown under a large area with low water consumption.

In general, farms that grow crops such as vegetables or horticultural plants such as flowers, garden water, or fruit trees are usually supplied with water pumps to supply water, which is an essential condition for their growth, or watering facilities such as sprinklers. It is installed and watered through this situation.

However, in the water supply method using the water pump among the water supply methods for the cultivated crops, the water supply work was inconvenient because water was supplied to the place to be watered by the manpower directly. In addition, the labor cost and consumption of water are high, there is a problem that the economic efficiency of the crop cultivation.

In addition, in the water supply method using a sprinkler, the labor cost is high while the proportion of labor costs is small, and the water supply is possible only when the water pressure is high, so the power operation cost is excessively consumed and the production cost of the cultivated crop is increased. Like one, there was a problem in that excessive water consumption during water supply.

The present invention has been researched and developed in order to effectively solve the various problems revealed in the water supply method to the conventional cultivated crop as described above. In the state provided, it is fusion-bonded to the inside of the water pipe, and a portion of the water pipe in which the dwelling groove of the drop nozzle is located is formed through the through hole, the water flowing in the water pipe flows through the inlet hole of the drop nozzle After passing through the zigzag flow path communicated with the zigzag channel, it is extremely reduced and decelerated so that the stagnant water stays in the recess, and the stagnant water is supplied to the crops that are cultivated drop by drop in the form of water through the water pipe. This allows the plant to be grown under a large area without the need for separate labor, with low investment in facilities. An object of the present invention is to provide a drop nozzle for watering cultivated crops, which is capable of efficiently watering crops and reducing water consumption, thereby improving the economic efficiency of crop cultivation.

1 is a perspective view showing an appearance of the present invention,

Figure 2 is a bottom perspective view showing the appearance of the subject innovation,

Figure 3 is a partial cutaway longitudinal cross-sectional view showing the installation and use of the present invention,

Figure 4 is a bottom view showing the process of water supply by the present invention,

5 to 7 show a modification of the present invention,

5 is a perspective view showing an appearance of a modification;

6 is a bottom perspective view showing an appearance of a modification;

7 is a bottom view showing a process of water supply by a modification.

* Description of the symbols for the main parts of the drawings *

H: Water pipe Ha: Through air

10: drip nozzle 11: body

12: inlet hole 13: inlet path

14: inclined wall 15: zigzag flow path

16: Residency Home Office

Hereinafter, with reference to the accompanying drawings for the configuration and working state of the present invention for achieving the above object will be described in more detail.

That is, the present invention, as shown in the accompanying drawings, Figures 1 and 2, 4, a plurality of inlet holes 12 are formed in one side of the body 11 having a predetermined shape, the bottom of the triangular inclined A plurality of walls 13 are formed at regular intervals on both sides in a zigzag form to provide a zig-zag flow path 15, wherein the flow path 15 and the inlet hole 12 communicate with each other by the inflow path 13. On one side of the bottom of the dwelling groove 16 is formed with a predetermined area is provided with a droplet nozzle 10 in communication with one end of the flow path (15).

In this state, as shown in Figure 3 attached to the inside of the water pipe (H) extending to a predetermined length as shown in Figure 3 is fusion-bonded to the bottom side of the body 11 of the drop nozzle 10, the staying groove 16 is located One portion of the water pipe (H) is to form a through-hole (Ha), so that the water flowing through the water pipe (H) can be continuously supplied to the crops drop by drop.

Looking at the working state of the present invention made of such a configuration as follows.

First, as shown in the configuration example, the drop hose 10 constituting the present invention has a plurality of water pipes (H) are fusion-installed at a predetermined interval in the proper position therein at an appropriate interval and length on the ground on which the crop is growing. In the installed state, a conventional pump is operated to move groundwater or stored water in the water pipe H.

On the other hand, the water flowing in the water pipe (H) as described above is the body through the inlet hole 12 formed in one side of the body 11 forming the drop hose 10 as shown in Figure 3 and 4 attached to the body (11) After the inflow, the formation of the retention groove 16 through the inflow passage 13 and the zigzag flow passage 15 in communication with the retention groove 16 in communication with the flow path (15) It is discharged to the outside through the through hole (Ha) of the water pipe (H) that is formed in the perforated is supplied to the cultivated crop.

At this time, the water flowing through the inlet hole 12 is transported while hitting a plurality of inclined walls 13 formed to provide the zigzag flow path 15 while passing through the zigzag flow path (15). When the pressure is significantly reduced by the frictional resistance caused by the above-mentioned impact, the speed is remarkably reduced, and when it reaches the retention groove 16 side, the flow velocity is stagnated in the retention groove 16 in the state of extremely reduced state. .

As such, the water stagnated in the dwelling groove 16 in the state where the flow velocity is reduced and reduced in pressure is formed in the form of water droplets through the through hole Ha of the water pipe H formed in the formation position of the dwelling groove 16. Droplets are continuously discharged and supplied to the root portion of the crop being cultivated, and the cultivated crop is supplied with water supplied by the above-described process.

On the other hand, the drop nozzle 10 is to be discharged to the outside by dropping the water supplied by fusion in the water pipe (H) as described above, as shown in Figures 5 to 7 attached to the It is possible to change the shape, which can be easily designed according to the thickness of the water pipe (H), the amount of water to be watered, etc. If the above description of the shape deformation degree is included in the scope of the utility model registration request to be described later It will belong to the scope of the present invention.

As described above, the present invention can facilitate the growth of crops that are cultivated by supplying water supplied through water pipes in the form of water droplets intermittently and continuously and only at the roots of cultivated crops. It is a useful design with various effects, such as efficient water supply for crops grown in Korea, and investment of facility cost and labor of manpower are not excessively demanded, thereby improving the economics of growing crops.

Claims (1)

A plurality of inlet holes 12 are formed in one side of the body 11 having a predetermined shape, and in the bottom, a plurality of inclined walls 13 are formed in a zigzag shape with a predetermined interval on both sides at zigzag lines. 15 is provided, but the flow path 15 and the inlet hole 12 are communicated with each other by the inflow path 13, the retention groove 16 is formed in a predetermined area on one side of the bottom of the flow path (15) With a drop nozzle 10 in communication with one end; A fusion-coupling to the bottom side of the body 11 of the drop nozzle 10 in the water pipe (H) extending to a predetermined length, and through the hole (Ha) as a part of the water pipe (H) where the retention groove 16 is located ) Through the water pipe (H) drip nozzle for supplying cultivated crops, characterized in that to continuously supply to the cultivated crops drop by drop.