KR20150065553A - Agricultural rotary sprinkler - Google Patents

Abstract

The present invention relates to an agricultural sprinkler. The sprinkler spirally sprays water in the form of microparticles on a cultivation field for agriculture to promote growth of plants and to supply water to a large area by spraying water in the form of a cyclone. The rotary sprinkler for agriculture comprises: a support including an upper support and a lower support which are formed by bending both end portions of the supports to be placed apart from each other and to face each other; an water inlet which is installed on an end portion of the lower support and is penetrated to be formed in the shape of a cylinder with a diameter increasing from the top to the bottom; a flange that has a lower portion located in the water inlet to correspond to an inner diameter of the water inlet, and an upper portion which is exposed from an upper side of the water inlet, and includes a through-hole formed therein; a rotor that penetrates the center of the flange, includes inclined saw teeth in lengths different from each other on an outline of an upper side thereof, and also includes a hemispheric mount groove formed on the center thereof; a cyclone plate that includes a hemispheric protrusion, mounted on the mount groove of the rotor at the bottom-center of the rotor, and a spiral flow groove, which is formed in the radial shape on the outside of the hemispheric protrusion; and a cyclone plate support which is tightly inserted into the upper support and supports the cyclone plate.

Description

{AGRICULTURAL ROTARY SPRINKLER}

The present invention relates to a rotary sprinkler for agricultural use, and more particularly, to a sprinkler for agricultural use, more particularly, to spray water in the form of fine particles downward from a ceiling to facilitate plant growth, spray water in a cyclone form, To an agricultural rotary sprinkler.

Generally, when agricultural products are cultivated in a farm, water must be supplied periodically for the growth of agricultural products. However, the wider the cultivation area, the more time it takes for the water cycle and the more manpower is required.

Therefore, farmhouses that cultivate vegetables in large-scale farmland for a long time have not been supplied with water directly, but installed sprinklers at the water pipes of hoses or pipes at predetermined intervals at a time,

In particular, in the case of a large-sized greenhouse, a water supply pipe provided with a sprinkler at predetermined intervals is installed along the length of the vinyl house along the ceiling to supply water to the agricultural products being cultivated.

However, the installation density of the sprinkler depends on the sprinkling radius of each sprinkler. The smaller the sprinkling radius, the greater the number of sprinklers installed. Even if the sprinkling distance is long, If it is not watered, the watering effect will be reduced.

Therefore, there is a need to develop a sprinkler that can be sprayed evenly within the radius of the water while having a wide water radius.

In addition, when water is grown on growing agricultural products, when large particles of water are sprayed on leafy leaves, there is a problem that the damage is caused by damage to leaf bodies, so that it is necessary to spray water particles as small as possible.

Utility model disclosure 20-1997-000545 (published January 21, 1997)

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and has an object of providing a sprinkler for spraying water on a cultivated agricultural land by providing a rotor that rotates constantly under water pressure, The present invention is to provide a rotary sprinkler for agricultural use, which is capable of uniformly spraying a wider area of the sprinkler.

In order to accomplish the above object, according to the present invention, there is provided a rotary sprinkler for agricultural use, comprising: a support base having an upper supporter and a lower supporter formed at opposite ends thereof with opposite ends thereof being spaced apart from each other by a predetermined distance; A flange having a lower portion formed on an inner side of the inlet port and having an upper portion exposed to the upper side of the inlet and having a through groove formed therein, A rotor having a hemispherical mounting groove formed at a center thereof and a hemispherical protrusion which is seated on the rotor and which is seated in a mounting groove of the rotor, A cyclone plate in which a swirling flow groove is formed radially, And a cyclone plate support which is axially mounted on the upper support to support the cyclone plate.

The rotor and the cyclone plate are made of stainless steel.

And the spray surface on which the swirling flow grooves are formed in the cyclone plate has a curvature of 310 to 330 °.

In the agricultural rotary type sprinkler according to the present invention, the water introduced into the inlet port is atomized by the rotor rotated by the water pressure of water supplied when the water is injected through the outlet between the flange and the bottom surface of the cyclone plate, Fine particles can be sprayed in the form of superfine particles for plant growth by being sprayed in the form of fine particles by the swirling flow grooves formed on the bottom surface of the cyclone plate at this time, It can be sprayed over a wide area of about 5 m, thereby minimizing the installation amount of the sprinkler.

FIG. 1 is a perspective view of a sprinkler according to the present invention,
2 is a sectional view taken along the line AA in Fig. 1,
Fig. 3 is an assembled perspective view of Fig. 1,
4 is a perspective view of a rotor according to the present invention,
5 is a perspective view of a cyclone plate according to the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the configuration and operation of a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 is a perspective view of the sprinkler according to the present invention, as viewed from the bottom side. Fig. 2 is a sectional view taken along line A-A of Fig. 1, and Fig. 3 is a perspective view of the assembly of Fig. First, the overall structure and operation of the present invention will be described with reference to Figs. 1 to 3. Fig.

In the present invention, the supporter 10 supporting the nozzle portion of the sprinkler is bent opposite to the supporter 12 such that the both ends thereof are spaced apart from each other by a predetermined distance to form the upper supporter 12 and the lower supporter 14, .

An inlet 20 through which the water to be sprayed into the cultivation land flows is formed at an end of the lower support 14.

The inlet (20) is formed into a cylindrical shape having an empty center, and a flow passage (22) penetrating through the inlet (20) is formed to have a diameter in a downwardly facing direction.

A flange (30) is provided at an outlet side of the flow path of the inlet (20). The flange 30 has a lower portion formed to correspond to an inner diameter of the inlet 20 and an upper portion formed to have a size corresponding to an outlet groove of the inlet 20 and formed into a funnel- And the inside thereof is formed in a hollow shape so as to discharge the water introduced from the inlet 20 to the outlet having a narrow diameter.

Particularly, the upper portion of the flange 30 having a small diameter is extended to the upper side of the inlet 20 to change the pressure energy of the supplied water into velocity energy so that water can be injected at high speed, ) Is also performed in parallel.

As shown in FIG. 4, the rotor 40 is axially coupled to a rotary shaft formed at an upper portion of the flange 30 through an axial groove 42 at the center thereof. The upper end of the rotary shaft of the flange 30 is extended to the seating groove 44 so that a flow passage formed in the inlet 20 is formed in the seating groove 44, .

In addition, on the upper surface of the rotor 40, a plurality of triangular inclined teeth 46 having different lengths are formed around the seating groove 44. The inclined teeth 46 function to rotate the rotor 40 based on the water pressure of the water discharged from the seating groove 44 and the inclined teeth 46 of the rotor 40 And functions to make the water discharged through the formed surface into fine particles.

A disk-shaped cyclone plate 50 having a larger diameter than the rotor 40 is provided on the rotor 40.

5, a hemispherical protrusion 52 is formed on a central portion of the cyclone plate 50 opposite to the rotor 40 to be coupled to a seating groove 44 formed in the rotor 40, (50).

Further, in the cyclone plate 50, a plurality of swirling flow grooves 54 are formed radially outside the hemispherical projections 52. The swirling flow grooves 54 accelerate the granulation of the water sprayed between the hemispherical projections 52 of the cyclone plate 50 and the seating grooves 44 of the rotor 40, ), So as to increase the spraying distance.

Further, the jetting surface 56 in which the swirling flow grooves 54 are formed in the cyclone plate 50 has a curvature of about 310 to 330 °. This is to allow the water particles radially sprayed from the spraying surface 56 to be evenly distributed in the spraying area while spreading to a region of radius 4 to 5 m.

A cyclone plate support 60 is installed between the opposite surface of the cyclone plate 50 on which the swirling flow grooves 54 are formed and the upper support 12 of the support 10, As shown in FIG. For example, one end of the cyclone plate support 60 may be inserted into the upper support 12 and the other end thereof may be inserted into the cyclone plate support 60 to support the cyclone plate 50.

The rotor 40 and the cyclone plate 50 are preferably formed of stainless steel. This prevents in particular the generation of rust between the hemispherical projections 52 of the cyclone plate 50 and the seating grooves 44 of the rotor 40 and between the cyclone plate 50 and the oblique teeth 46 of the rotor 40 The jetting grooves are prevented from becoming clogged or uneven, so that uniform jetting can be always performed.

When the water flows into the flow path of the inlet 20, the inflow water flows through the flange 30 into the seating groove 44 of the rotor 40 and the hemispherical shape of the cyclone plate 50, And is ejected as a gap between the projections 52.

At this time, since the outlet of the flange 30 is narrower in diameter than the inlet, the pressure is increased and the high-speed spray is generated.

Particularly, the water ejected through the gap between the seating groove 44 of the rotor 40 and the hemispherical protrusion 52 of the cyclone plate 50 is separated from the inclined teeth 46 of the rotor 40 and the bottom surface of the cyclone plate 50 The amount of water to be ejected is different between the inclined teeth 46 and the cyclone plate 50 depending on the inclined angle of the inclined teeth 46 so that the rotor 40 is rotated in one direction.

When the rotor 40 is rotated, the water ejected between the inclined teeth 46 of the rotor 40 and the cyclone plate 50 is further granulated and ejected.

 Thereafter, the granulated water ejected between the warp teeth 46 of the rotor 40 and the cyclone plate 50 is ejected onto the ejection surface 56 of the cyclone plate 50. In addition, The water flows on the swirling flow grooves 54 and is sprayed in a state of accelerated particle formation.

Thus, the water introduced into the inlet 20 is rapidly granulated through the flange 30, and the particles are accelerated by the swirling flow grooves 54 of the rotor 40 and the cyclone plate 50, It is sprayed on the plantation in form.

As described above, the present invention can be widely applied to cultivated land in an ultra-fine particle form.

In the meantime, the present invention has been described by taking the case where the inlet 20 is installed at the lower part, but it can be installed hanging from the ceiling with the inlet 20 facing upward.

10-support, 12-upper support,
14 - lower support, 20 - inlet,
22 - Euro, 30 - Flanger,
40 - rotor, 42 - shaft,
44 - seat groove, 46 - sloping teeth,
50-cyclone plate, 52-hemispherical projection,
54 - swirl groove, 56 - jet plane,
60 - Cyclone plate support.

Claims (3)

A lower end supporting portion and a lower end supporting portion, the upper end supporting portion and the lower supporting portion being formed to be opposite to each other with both ends thereof being spaced apart from each other by a predetermined distance, an inlet port provided at an end of the lower support vertically, And the upper portion is exposed to the upper side of the inlet and has a through groove formed therein. The flange penetrates through the center and the upper edge forms a slant tooth having a different length of the side, A rotor having a hemispherical mounting groove formed therein, a cyclone plate having a hemispherical protrusion which is seated on the rotor and which is seated in a mounting groove of the rotor, and a radial swirling flow groove is formed outside the hemispherical projection, And the cyclone plate supporting the cyclone plate An agricultural support sprinkler comprising an agitator support. The rotary sprinkler for agricultural use according to claim 1, wherein the rotor and the cyclone plate are made of stainless steel. The rotary sprinkler for agricultural use according to claim 1 or 2, wherein the spray surface on which the swirling flow grooves are formed in the cyclone plate has a curvature of 310 to 330 °.

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