KR200478547Y1 - Rotational Ejecting Irrigation Hose for Agriculture Including Band-Type Water Controller - Google Patents

Abstract

The present invention relates to a fountain hose for plant cultivation including a spouting watering control means capable of distributing water supplied through an inner space of a hose to a wider region through a discharge port, The hose 100 is formed in the shape of a band on the inner wall of the hose 100 along the jet port 102 spaced from the inner space 104 of the hose 100 and is ejected from the inner space 104 of the hose 100 to the outer space through the jet port 102 Wherein the water regulating means 200 comprises a bottom portion disposed below the inner wall of the hose 100 in the form of a strip along the air outlet 102, The rotation generating unit 210 includes a rotation generating unit 210 for generating a rotational force in the water to be jetted and a pressure reducing unit 220 for adjusting the water pressure of the water. (100) and the inner wall And a hermetic wall 217 formed between the bottoms 240 and forming a cylindrical rotary space 212 inside the hosepiece 100. The hermetic wall 217 is formed with an inner space A rotary force applying path 214 is formed on both sides of the rotary space 212 and is connected to the rotation generating part 210. The rotary force generating part 214 is formed on both sides of the rotary space 212, And a pressure reducing path 224 is formed in the pressure reducing wall 227 so as to have a curvature in succession to the rotational force applying path 214. The rotational force applying path 214 is formed in the pressure reducing wall 227, And is oriented in a direction in contact with the outer periphery of the rotating space 212.

Description

(Rotational Ejecting Irrigation Hose for Agriculture Including Band-Type Water Controller)

The present invention relates to a fountain hose for plant cultivation for supplying water to a plant, and more particularly to a fountain hose for a plant cultivation, which comprises a spinning-out watering control means capable of distributing water supplied through an inner space of a hose to a wider area through an outlet, The present invention relates to a fountain hose for plant cultivation.

As a watering hose for plant cultivation, a drip hose is a hose that continuously sprays a small amount of water, and a fountain hose is a hose which is configured to have a diameter of about 0.3 mm to 1 mm and to spray water such as fog or drizzle from an air outlet. Drip or fractional hoses can be optionally used depending on the plant type and cultivation. An example of the drop hose is shown in Fig. In the case of drip hoses for continuously wetting soil in which plants are planted, they are generally ejected in the form of water droplets with reduced water velocity through the ejection port, including the filtration device and the decompression device. On the other hand, FIG. 7 shows a state in which water is sprayed from a conventional fountain hose. In the case of a leafy plant such as a leafy plant, water must be sprayed evenly over a wide leaf. One example of a fractional hose is disclosed in registration utility model 20-0351094. However, since it includes a rotating device having a rotating movement, it is practically uneconomical to use the hose so that it is used only for a limited time. Therefore, in the present invention, It is not an object.

According to the fountain hose according to the above-described conventional configuration, water in the hose is linearly ejected to the outside through the jet port and drops to the ground. Since the effect of dispersing the water stream is very low until the water ejected from the air outlet of the hose falls and reaches the ground, it is necessary to increase the number of air outlets or narrow the diameter of the air outlets do.

However, when the number of air outlets increases, the water pressure passing through the air outlet of the hose having a certain length is inevitably weakened toward the direction in which the water travels along the air outlet. Therefore, there is a problem that the water supply to the plant can not be made even. On the other hand, when the diameter of the jet port is narrow, the distance of the jetted water reaching the plant is short so that water can not be supplied to the entire plant or the jet port is easily clogged by foreign matter.

Accordingly, the inventor intends to provide a fractional hose with a new structure capable of spraying water over a wide range without reducing the diameter of the jet port without increasing the number of jet ports.

Registration Utility Model No. 20-0351094 (published on May 22, 2004)

The object of the present invention is to provide a hose which can be manufactured in two ways so as to supply water evenly to the plant by dropping it on a large area of the ground so that the water is dispersed while giving a rotational force to the water stream ejected from the air- And to provide a fountain hose for plant cultivation including a spraying water control means. Other objects of the present invention can be achieved by the detailed description of the present invention described with reference to the accompanying drawings.

In order to achieve the above object, a fountain hose for plant cultivation including a band-type rotary spraying type water control means according to the present invention comprises a hose 100 and a hose 100 along an air outlet 102 spaced from the hose 100 (200) formed in the form of a band on the inner wall of the hose (100) for controlling the jet characteristic of water sprayed from the inner space (104) of the hose (100) to the outer space through the jet port (102) , The water regulating means 200 is formed between the bottom of the hose 100 and the bottom 240 arranged in the form of a band along the air outlet 102 under the inner wall of the hose 100 to generate a rotational force And the rotation generating unit 210 is formed between the inner wall of the hose 100 and the bottom 240 so that the hose 100 has a constant height inside the hose 100 Which forms a cylindrical rotating space 212 having And a rotating force applying path 214 which is a horizontal path connected from the inner space 104 of the hose 100 to the rotating space 212 is formed in the blocking wall 217, And the rotational force applying path 214 is oriented on the rotational force applying path 214 so as to be directed to a position spaced apart from the center of the rotational space 212, And a rotating force is generated in the water flowing into the rotating space 212 through the discharge port 102 to be sprayed to the discharge port 102.

The water regulating unit 200 may further include a pressure reducing unit 220 for regulating the water pressure of the water introduced into the rotation generating unit 210. The pressure reducing unit 220 may include the rotation generating unit 210, And the pressure reducing wall 227 formed on both sides of the rotation force applying path 214 may be formed with a depressurizing path 224 formed to have a curvature following the rotational force applying path 214.

The water regulating means 200 further includes a filtration portion 230 connected to the decompression path 224 on both sides of the decompression portion 220. The filtration portion 230 includes a plurality of filtration projections 237 may be formed between the inner wall of the hose 100 and the bottom 240 so as to protrude in two rows along the edge of the bottom 240 so that water is filtered and introduced between the protrusions.

Also, in the present invention, a skeletal holding protrusion 238 may be further formed between the two rows of filtration protrusions 237 of the filtration unit 230.

The rotation generating unit 210 may further include a lifting force imparting protrusion 219 for imparting a lifting force to the floor 240 corresponding to the center of the rotation space 212.

According to the fountain hose for plant cultivation including the band-shaped rotary spraying type water control means of the present invention, even when water having a rotational force formed in the rotational space by the rotation generating portion of the water control means is ejected through the ejection port, So that the water is dispersed widely. Accordingly, the water dispersion can be maximized while minimizing the number of air outlets, so that the water pressure of the water stream ejected from each air outlet can be maintained uniformly, and the particles of water can be formed small and uniform by sufficient dispersion, . Further, since the present invention can be manufactured by applying only a slight modification to a conventional apparatus for manufacturing a fractional hose, it is economical.

FIG. 1 is a perspective view of a part of a fountain hose for plant cultivation including a strip-shaped rotary spraying type water adjusting means of the present invention in which a part of its upper end is cut away; FIG.
Fig. 2 is a view showing a planar configuration of the band-shaped rotary jetting water adjusting means of Fig. 1; Fig.
FIG. 3 is a partially cutaway perspective view (a) of a fountain hose for plant cultivation that includes a strip-shaped spinneret-type water control means manufactured according to a pattern forming method according to one embodiment of the present invention; (B) a partially cutaway perspective view (c) showing a bottom member attached to the upper hose portion;
FIG. 4 is a partially cutaway perspective view (a) of a fractional hose for plant cultivation including strip-type spinneret-type water control means manufactured according to a molding band bonding method according to another embodiment of the present invention; A perspective view of the band (b);
5 is a sectional view (a) and a perspective view (b) showing a state in which a lifting force imparting projection is formed at the center of a rotation space of a rotation generating portion according to one embodiment of the present invention;
FIG. 6 shows a state in which water is ejected from a conventional drop hose, FIG. 7 shows a state in which water is ejected from a conventional fountain hose; And
Fig. 8 shows a state in which water is ejected from the fraction hose of the present invention. Fig. 8 (a) shows a case in which the orientation of the torque applying path is close to the center of the rotating space. Fig. 8 Is oriented so as to be in contact with the outer periphery of the rotation space.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The terms or words used in the present specification and utility model registration claims shall not be construed as limited to ordinary or preliminary meaning and should be construed as meaning and concept consistent with the technical specifications of the present invention.

FIG. 1 is a perspective view showing a part of an upper end part of a fractional hose for plant cultivation including a strip-type rotary spraying type water adjusting means of the present invention, and FIG. 2 is a plan view Fig. 1 and 2, the fractional hose of the present invention includes a water control unit 200 and the water control unit 200 includes a rotation generating unit 210 and a pressure reducing unit 220. In some cases, The pressure reducing unit 220 may be omitted.

As shown in FIG. 1, the hose 100 is formed with a plurality of air outlets 102 at regular intervals for watering. The water regulating means 200 is formed in the form of a band on the inner wall of the hose 100 along the air outlet 102 and flows out from the inner space 104 of the hose 100 to the outer space through the air outlet 102 I.e., the water pressure to be sprayed, the spray angle to be sprayed, and the like.

The rotation generating portion 210 of the water control means 200 is formed between the bottom of the hose 100 and the bottom 240 arranged in the form of a band along the air outflow port 102 below the inner wall of the hose 100. Unlike a common fraction hose, the present invention includes a rotation generating unit 210, generates a rotational force in water ejected through an ejection port 102, and can be ejected while water is dispersed.

The depressurizing portion 220 of the water control means 200 is introduced into the rotation generating portion 210 from the internal space 104 of the hose 100 to regulate the water pressure of the water discharged through the discharge port 102, And adjusts the distance to the point.

More specifically, the rotation generating unit 210 is formed between the inner wall of the hose 100 and the bottom 240 to form a cylindrical rotating space 212 having a predetermined height inside the hose 100 Which is a horizontal passage connected from the inner space 104 of the hose 100 to the rotary space 212, is formed in the blocking wall 217, Are formed on both sides of the rotation space (212). Therefore, at least a part of the area of the covering wall 217 needs to be thick enough to form the rotational force applying path 214. The rotational force applying path 214 is preferably formed to have a constant width so as to keep the flow of water linearly constant. The width of the rotational force applying path 214 can be determined in consideration of the width and length of the hose 100 and the strength of the water pressure flowing into the hose and accordingly the strength and dispersion range of the water pressure It becomes possible to decide.

When the orientation of the rotational force applying path 214 formed on both sides of the rotational space 212 is configured to be close to the center of the rotational space 212 and the directions are shifted from each other, 212 to some extent. In this case, in addition to the effect of dispersing water by rotation, it may occur that the dispersion effect of water due to collision between two streams running opposite to each other is also overlapped. 8A shows a state in which water is spouted when both the rotation and the collision occur in the rotary space 212, and the state of spraying water when the rotation is dominant is shown in FIG. 8B have. Although there may appear to be some differences in shape, they are almost the same in terms of the range in which both are dispersed.

In order to generate a constant rotational current with respect to the center of the rotation space 212, it is preferable that the rotation space 212 is formed in a substantially cylindrical shape. However, depending on the structural needs in the manufacturing process, And the like.

The pressure reducing portion 220 includes pressure reducing walls 227 formed at both sides of the rotation generating portion 210 and the pressure reducing wall 227 is formed with pressure reducing A path 224 is formed. Although the number of bends of the decompression path 224 is one in the drawing, the number of bends of the decompression path 224 is one, but two or more bends may be formed in order to obtain a desired watering characteristic.

As an important feature of the present invention, the rotational force applying path 214 is oriented such that the rotational force applying path 214 is directed to a position spaced from the center of the rotational space 212, So that a rotating force is generated in the water flowing into the rotary space 212, and the water is jetted to the air outlet 102. Since the rotation space 212 is formed in a cylindrical shape having a predetermined height as described above, when the rotation force imparting path 214 is formed so as to be directed to a position spaced apart from the center of the rotation space 212, 214 of the rotating space 212 is in contact with the blocking wall of the outer circumferential surface of the rotating space 212 when the flow of the water linearly enters the rotating space 212 and rotates along the outer circumferential surface to a region where the center of the rotating space 212 is located . The water is jetted through the jet port 102 located at the upper end of the center of the rotary space 212, so that the water is jetted along the jet port 102 while rotating. The jetted water has already received rotational inertia and still maintains the rotational force for a predetermined time and moving distance even after passing through the jetting port 102. [ The rotational force of the water jetted through the jet port 102 acts as a factor for dispersing the water, so that the water drops and disperses in a much wider range than the water jetted without rotation. The rotation of the ejected water acts as a factor for dispersing the size of the water particles very uniformly. Therefore, according to the inventive hose, the water disperses into fine particles having a small diameter in addition to the range of dispersion of the water, so that the water has irrigation effects on the plants.

The water regulating means 200 further includes a filtration portion 230 connected to the decompression path 224 on both sides of the decompression portion 220. The filtration portion 230 includes a plurality of filtration projections 237 may be formed between the inner wall of the hose 100 and the bottom 240 so as to protrude in two rows along the edge of the bottom 240 so that water is filtered and introduced between the protrusions. The filtration protrusions 237 may be formed by extending a plurality of protrusions upward from the bottom 240 in a predetermined shape. Water is filtered through the filtration holes between the protrusions, 210 < / RTI >

Also, preferably, as shown in the drawing, a skeletal holding protrusion 238 may be further formed between the two rows of filtration protrusions 237 of the filtration unit 230. When the bottom 240 is made of a soft flexible material according to the manufacturing method of the irrigation water control means 200 of the present invention, the bottom 240 of the hose 100 is pressurized by the hydraulic pressure in the inner space 104 of the hose 100, 100 so that the inflow space to be held between the two rows of the filtration protrusions 237 disappears and the inflow of water can be hindered. In order to prevent this, the skeletal holding projections 238 are formed in the longitudinal direction in the middle of the inflow space between the two rows of filtration protrusions 237, so that the height of the inflow space is maintained to allow the water to flow sufficiently.

The fountain hose for plant cultivation including the band-shaped spinning-and-spraying water adjusting means of the present invention can be manufactured by various manufacturing processes. For example, the banding pattern shown in FIG. 3 and FIG. 4 And can be manufactured by a forming band joining method of the bar shown.

FIG. 3 is a partially cutaway perspective view (a) of a fountain hose for plant cultivation including band-shaped spinneret-type water control means manufactured according to a pattern forming method according to an embodiment of the present invention; (C) is a partially cutaway perspective view (b) showing a part thereof and a partially cutaway perspective view (c) showing a state where a bottom member is attached to the upper hose part.

The pressure reducing wall 227 and the filtration protrusion 237 constituting the water regulating means 200 described above are formed on one surface of the synthetic resin film to be formed as the upper hose portion. These protruding patterns can be achieved by various conventional pattern forming apparatuses. Fig. 3 (b) shows a state in which these protruding patterns are formed. In the drawing, a jetting port 102 is shown at the center of the rotational space 212, and may be formed by punching after a pattern is formed. Unlike the forming band bonding method described below with reference to FIG. 4, since the pattern can be formed on the basis of the pattern after the pattern formation, there is an advantage that the pattern can be formed at a more accurate position.

Next, as shown in Fig. 3 (c), the upper surface of the protruding pattern is covered with a strip member corresponding to the bottom 240 after the manufacturing, thereby completing the upper hose portion 100A. Finally, the upper hose 100A having a pattern and the lower hose 100B having no pattern are fused to each other to produce a fractional hose according to one embodiment of the present invention as shown in FIG. 3A.

FIG. 4 is a partially cutaway perspective view (a) of a fountain hose for plant cultivation including a band-type rotary spraying type watering adjusting means manufactured according to a molding band bonding method according to another embodiment of the present invention, (B). Fig. The manufacturing of the fountain hose by the forming band bonding method is carried out by first forming the water shielding wall 217, the pressure reducing wall 227, and the filtration projection 237, which constitute the water supply adjusting means 200 shown in Fig. 4 (b) Is formed by a general molding method such as injection molding. Wherein the components are fabricated to form on one floor 240 and are in the form of one continuous band. Then, the thus formed molding band can be manufactured by a method in which the molding band is press-fitted into the hose when it is melt-extruded and formed into a cylindrical hose and joined to one surface of the hose. In this case, the shaping band is attached to the inner surface of the hose, is discharged and cooled, and then the discharge port 102 is formed at the center of the rotating space by the punch.

Fig. 5 is a sectional view (a) and a perspective view (b) showing a state in which a lifting force imparting projection is formed at the center of the rotation space of the rotation generating section according to one embodiment of the present invention. 5, the rotation generating unit 210 of the present invention includes a lifting force imparting projection 219 for imparting a lifting force of water to the floor 240 corresponding to the center of the rotation space 212 . Preferably, the lifting force imparting protrusions 219 may be tapered in a shape of narrowing toward the upper side. Therefore, the water to be rotated in the rotation space 212 can be easily ejected toward the ejection opening 102. The water that has passed through the jet port 102 is still dispersed into a wide space while keeping the rotational force, and falls.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Various modifications may be made by those skilled in the art. It is to be understood that, although the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will not.

100: Hose 102: Outlet
200: Irrigation water adjusting means 210:
212: Rotation space 214:
217: Closing wall 219: Clamping projection
220: Pressure reducing portion 224: Pressure reducing path
227: Pressure reducing wall 230:
237: Filtration projection 238: Skeletal holding projection
240: floor 240: floor

Claims (5)

The hose 100 is formed in the form of a band on the inner wall of the hose 100 along the air outlet 102 formed at the space between the hose 100 and the inner space of the hose 100 through the air outlet 102 And an irrigation control means (200) for controlling an ejection characteristic of water ejected from the nozzle (104) to an outer space,
The water regulating means 200 is formed between the bottom of the hose 100 and the bottom 240 arranged in the form of a band along the jet port 102 to generate a rotational force in the jetted water And a rotation generating unit 210,
The rotation generating part 210 is formed between the inner wall of the hose 100 and the floor 240 to form a tubular rotating space 212 having a predetermined height inside the hose 100 And a rotary force applying path 214 which is a horizontal path connected from the inner space 104 of the hose 100 to the rotary space 212 is formed in the blocking space 217, Respectively,
The rotation force applying path 214 is oriented so as to be away from the center of the rotation space 212 and generates a rotational force in the water flowing into the rotation space 212 through the rotation force applying path 214, And a spray nozzle (102) for spraying the sprayed water.
The method according to claim 1,
The water regulating means 200 further includes a pressure reducing portion 220 for regulating the water pressure of the water flowing into the rotation generating portion 210. The pressure reducing portion 220 is disposed on both sides of the rotation generating portion 210 And a pressure reducing path 224 is formed in the pressure reducing wall 227 so that the pressure reducing path 224 is formed to be continuous with the rotational force applying path 214. [ Fountain hose for plant growing.
The method according to claim 1,
The water control unit 200 further includes a filtration unit 230 connected to the rotation force applying path 214 of the rotation generating unit 210. The filtration unit 230 includes a plurality of filtration protrusions 237, Is configured to protrude in two rows along the edge of the bottom (240) between the inner wall of the hose (100) and the bottom (240), and water is filtered and introduced between the protrusions. Fountain hose for plant cultivation, including irrigation control means.
The method of claim 3,
And a skeletal holding protrusion (238) is further formed between the two rows of filtration protrusions (237) of the filtration unit (230).
The method according to claim 1,
The rotation generating unit 210 further includes a lifting force imparting protrusion 219 for imparting a lifting force to the bottom 240 corresponding to the center of the rotation space 212. Fountain hoses for plant cultivation, including means.

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