KR101161105B1 - Agricultural water pipe with weir - Google Patents

Abstract

PURPOSE: An irrigation pipe including water storage protrusions is provided to form a water storage space capable of storing constant amount of water inside the irrigation pipe. CONSTITUTION: An irrigation pipe including water storage protrusions comprises the following: an inlet on one side of the pipe for supplying water, and an outlet on the other side of the pipe for discharging the water; the water storage protrusions including an opening for flowing the water, protruded toward the upper direction for blocking and storing the flowing water inside the irrigation pipe; a pipe body(3) formed with a through-hole(6) connected to a water storage space(7) among the water storage protrusions for storing the constant amount of water; and a wick(8) closely attached to the through-hole for absorbing the water from the water storage space, and supplying the water to crops located far away from the pipe body.

Description

Agricultural Water Pipe with Weir

The present invention relates to a watering pipe for supplying water necessary for the growth of crops, and more particularly, to form a storage jaw of a constant height at regular intervals inside the pipe to store a certain amount of water between the two storage jaws. It is equipped with a storage jaw that can supply water evenly regardless of the operation of the water pump and the length or height of the water pipe by installing a wick for supplying water in the storage space to the outside. It is about water pipes.

Usually, a watering pipe is a pipe for supplying water required for crop growth such as field crops, fruit trees, and flowers. In general, one side of the irrigation pipe is connected to the water pump installed in the well or river, and the other side is installed in the field of field crops, fruit trees and flowers.

Conventional irrigation pipes consist of a pipe body having a cylindrical cross section with a water channel formed therein, and through the through holes formed in the pipe body at regular intervals in the longitudinal direction so as to communicate with the water channels when the water pump is operated. The water was to be ejected.

Therefore, in the conventional water pipe, the water supply is controlled depending on whether the water pump is operated. That is, water is supplied when the water pump is operated, and water supply is stopped when the water pump is stopped.

In addition, the conventional water pipe is a structure in which the water forcibly pushed by the water pump is injected through the through hole, the amount of water supplied through the through hole is changed according to the pressure difference inside the water pipe. That is, the water supply amount varies depending on the length and height of the irrigation pipe. For example, water is strongly sprayed in the through-hole close to the pump and water is sprayed relatively in the through-hole far from the pump.

In addition, when the irrigation pipe is located at a high place according to the height of the plantation, water is sprayed weakly through the through hole, and when it is located at a low place, the water is sprayed strongly. In particular, since the water in the high place flows to the low place, the amount of irrigation is insufficient at the high place, and a large amount of water is unnecessarily supplied at the low place, so that water management is difficult and water is wasted.

In addition, the conventional watering pipe has a problem that consumes a lot of energy because water is supplied through the through hole only during the operation of the water pump, so that the water pump must continue to operate during the watering time required by the crop.

Meanwhile, Korean Patent Publication No. 10-0750905 (August 22, 2007.) discloses a prefabricated flower bed capable of water supply. The prefabricated flower bed is provided with an absorbing member for supplying water from the drainage channel to the clay, but this is merely to supply the water stored in the drainage channel to the clay, and the water is continuously passed to the neighboring drainage channel over a plurality of locking jaws. No water supply was provided to supply. Therefore, the conventional prefabricated flower bed had a problem that can not be applied to the irrigation pipe for supplying pressurized water supplied from one side, such as plantation.

The present invention is to solve the problem according to the prior art, the main object of the present invention, while forming a water storage space for storing a certain amount of water inside the water pipes and at the same time water supply by supplying water through the neighboring water storage space It is to provide an irrigation pipe that can supply water evenly regardless of the length and height of the pipe and whether the water pump is in operation and to continuously supply water even when the water pump is not in operation.

In addition, the present invention is to provide a watering pipe that can supply water even when the water pump is not operated by installing a wick in the watering pipe to supply water using a capillary phenomenon.

As a means for solving the above problems, the watering pipe equipped with the storage jaw according to the present invention,

In an irrigation pipe formed with an inlet for supplying water at one end and an outlet for discharging water at the other end thereof, and connecting a plurality of pipe bodies formed with a water channel through which water flows in the longitudinal direction thereof. ,

The pipe main body includes: a plurality of storage jaws formed so as to protrude upward to block and confine water flowing along the waterway, and an opening formed at an upper end thereof to allow the water flowing along the waterway to ride over;

A through hole formed between the neighboring water storage jaws and formed in an upper portion of the pipe body to communicate with a water storage space for storing a predetermined amount of water;

And a wick installed in the through hole and installed to supply water to the plantation outside the pipe body by absorbing water in the reservoir space.

In the present invention, the water storage jaw is integrally formed when the pipe body is molded.

In addition, the storage jaw is formed by inserting a vertical plate of a predetermined size through the insertion groove formed in the lower portion of the pipe body so that an opening is formed between the inner circumferential surface of the pipe body and the upper end of the vertical plate.

The water storage jaw is inserted into the inside of the pipe body by inserting the insertion tube body consisting of a plurality of water storage jaws installed at regular intervals along the longitudinal direction of the insertion tube body and is inserted in close contact with the inside of the pipe body; Is done.

And, the through hole formed in the pipe body is provided with a wick tube for fixing the wick.

The wick is made of two rods in which the wick is closely coupled to the center, the outer circumferential surface of the wedge-shaped wick tube is formed with a locking jaw caught in the water pipe.

The opposite surfaces of the two rods are provided with an uneven portion for fixing the wick, and the outer circumferential surface of the rods is wound with an order tape or a screw thread to prevent water from leaking between the through holes.

Preferably, the wick tube is inserted through a through hole formed in the water pipe and a lower wick tube provided with a lower packing for fixing the lower wick therein; The upper wick is detachably fastened to an upper end of the lower wick and is provided with a fixing means for fixing the upper wick therein.

The water pipe provided with the water storage jaw according to the present invention is stored in the water storage space even when the water pump is not operated or the water is not supplied because the water supplied through the water reservoir is stored in the water storage space formed by the two water storage jaws. It has the effect of supplying water to crops.

The present invention also supplies the crops through the wick in a state of filling a plurality of reservoirs formed in the irrigation pipe, so that water is uniformly supplied regardless of the length or height of the irrigation pipe, thereby preventing waste of water and managing watering. There is an effect that can facilitate.

In addition, the irrigation pipe equipped with the water storage jaw of the present invention fills the water in the plurality of reservoir spaces and then supplies the water stored in each reservoir space to the crop using the capillary phenomenon of the wick, thereby minimizing the operating time of the water pump to provide energy. There is a saving effect.

1 is a perspective view showing a watering pipe having a storage jaw according to the present invention,
Figure 2 is a longitudinal cross-sectional view of the irrigation pipe with a storage jaw shown in Figure 1,
Figure 3 is a cross-sectional view of the irrigation pipe with a storage jaw shown in Figure 1,
Figure 4 is a longitudinal cross-sectional view showing an embodiment of a watering pipe equipped with a storage jaw according to the present invention,
Figure 5 is a longitudinal sectional view showing another embodiment of a watering pipe equipped with a storage jaw according to the present invention,
Figure 6 is a cross-sectional view of the irrigation pipe with a storage jaw shown in Figure 5,
7 is a perspective view showing another embodiment of a watering pipe equipped with a storage jaw according to the present invention;
8 is a perspective view showing another embodiment of a watering pipe equipped with a storage jaw according to the present invention;
9 is a perspective view showing another embodiment of a watering pipe having a storage jaw according to the present invention;
10 is a longitudinal cross-sectional view of a watering pipe having a storage jaw according to the present invention shown in FIG.
11 to 15 is a view showing various embodiments of the watering pipe equipped with a wick according to the present invention,
17 to 19 is a cross-sectional view showing an example of the use of the watering pipe equipped with a storage jaw according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of a watering pipe equipped with a storage jaw according to the present invention.

First, Figures 1 to 3 show an example of a watering pipe with a storage jaw according to the present invention, as shown, the watering pipe 1 with a storage jaw of the present invention is a cylindrical The pipe body 3 having a cross-sectional shape and having a water channel 2 formed therein, and a predetermined height at regular intervals on the inner wall of the pipe body 3 so that water flowing through the water channel 2 can be blocked and confined. A plurality of reservoir jaw (5) formed to have a, and a storage space (7) which is partitioned by two neighboring reservoir jaws (5) can store a certain amount of water, and to communicate with the reservoir space (7) At least one through hole 6 formed in the pipe main body 3 and a wick 8 provided to penetrate the through hole 6 to supply water in the reservoir space 7 to the outside.

The water storage jaw 5 is integrally formed to completely block the lower end and the middle part of the inner wall of the pipe body 3 having a cylindrical cross-sectional shape, the upper portion of which is an opening 4 of a predetermined size so that water can flow. Is formed. Thus, a portion of the water flowing along the waterway 2 flows down through the opening 4 and a portion thereof is confined by the water storage jaw 5.

The shape of the water storage jaw 5 is determined according to the cross-sectional shape of the pipe main body 3. In this embodiment, the water storage jaw 5 is shown in a semicircular shape. However, as shown in other embodiments below, a rectangular water storage jaw is formed in the pipe body having a rectangular cross section. The water storage jaw 5 has a thickness capable of withstanding the water pressure of the water stored in the water storage space 7.

The storage jaw 5 is installed at regular intervals along the longitudinal direction of the pipe body 3 to form a storage space 7 of a predetermined size between two neighboring storage jaws 5. The reservoir space 7 may store water corresponding to the height of the reservoir jaw 5. In one storage space 7, a through hole 6 for installing one or more wicks 8 is formed.

The wick 8 is made of fibers of a predetermined length and numerous capillaries are formed therein. The wick 8 serves to supply the water in the pipe body 3 to the plant in the form of capillary water. To this end, the lower end of the wick 8 is in contact with the bottom of the pipe body 3 and the upper end is located in the soil close to the crop. Here, the capillary tube refers to a tube whose inner diameter is thin enough to cause a capillary phenomenon, which is used to transport a small amount of liquid.

As described above, the present invention supplies water to the crop in the form of capillary water by using the capillary phenomenon of the wick 8 so that the water in the reservoir space 7 can be continuously supplied even when the water pump is not operated. It becomes possible. In addition, the watering pipe 1 according to the present invention stores and supplies water using the water storage jaw 5 and the wick 8 so that water can be supplied evenly regardless of the length or height of the watering pipe, Energy savings can be achieved by reducing operating time.

On the other hand, a plurality of water storage jaw 5 in the pipe body 3 can be installed in various ways. First, from the viewpoint of watertightness and durability, it is most preferable to simultaneously shape the water storage jaw 5 in the process of extruding the pipe main body 3. However, in order to simultaneously mold the water storage jaw 5 in the process of extruding the pipe, a special mold must be provided, such that an initial investment is increased.

For example, FIG. 4 shows an example in which the storage jaw 5 is integrally formed at the lower end of the pipe body 3. In this case, the water storage jaw 5 raises the forming plate vertically from the lower part of the pipe main body 3 before the pipe main body 3 completely hardens during the extrusion molding process, so that the lower surface of the pipe main body 3 has a predetermined height. It is bent upwardly to form the storage tuck 5 of a predetermined height.

5 and 6 illustrate an example in which the water storage jaw 5 is installed after the extrusion of the pipe main body 3, and the insertion groove 11 is inserted into the pipe main body 3 at regular intervals. And the water storage jaw 5 is formed inside the pipe main body 3 by inserting a vertical plate 51 of a predetermined size into the insertion groove 11. As shown in FIG. 6, the vertical plate 51 may have a semicircular shape according to the shape of the pipe main body 3.

As shown in FIG. 7, wings 53 having a constant width may be integrally formed along the edge of the vertical plate 51. The wing 53 may be in close contact with the outer circumferential surface of the pipe body 3 to support the vertical plate 51 or to apply an adhesive to prevent water from leaking through the insertion groove 11. In addition, a sealing groove for installing the sealing member on the inner surface of the blade 53 may be further formed. In addition, the blade 53 may be formed to a sufficient size so that the clamp means for fixing the vertical plate 51 to the pipe main body 3 can be installed.

Next, FIG. 8 shows another embodiment of the storage jaw 5, in which the storage jaw 5 is provided inside the connecting pipe 20 provided at the end of the pipe main body 3 having a predetermined length. Therefore, it is possible to install the storage jaw 5 at regular intervals by connecting a plurality of pipe body (3) using the connecting pipe (20).

The connecting pipe 20 is a circular pipe having the same diameter as the pipe main body 3, and a water storage jaw 5 is formed in the center and a connecting part for connecting the adjacent pipe main body 3 is formed at both ends. At this time, the connection portion may be formed with a screw for fastening the pipe body (3).

9 and 10 show another embodiment for installing the water storage jaw 5 in the pipe main body 3, and the insertion tube 30 having the vertical plate 51 integrally formed thereon at regular intervals. It is inserted into the pipe body 3 in the longitudinal direction so that a plurality of storage jaw (5) is formed in the pipe body (3).

Insertion tube 30 is composed of a semi-circular insertion tube body 33 and a plurality of vertical plates 51 formed perpendicular to the bottom and side surfaces of the insertion tube body 33. At this time, the pipe main body 3 is not limited to a semi-circular shape, any type can support any number of vertical plates 51 and can store a certain amount of water when inserted into the pipe main body 3.

Therefore, when the insertion tube 30 is inserted into the pipe body 3 having the same or similar length, a plurality of water storage jaws 5 are formed in the pipe body 3 at regular intervals. A reservoir space 7 is formed between two neighboring reservoir jaws 5. In this case, at least one through hole 6 is formed in one storage space 7 in the pipe body 3 so that the wick 8 can be installed.

In this embodiment, the plastic insertion tube 30 can be manufactured relatively easily through injection, and a commercially available pipe can be used as it is, so that the production is easy and the price is low. And since the insertion tube 30 is completely inserted into the inside of the pipe body 3 has the advantage of excellent durability and watertightness.

As mentioned above, the wick 8 is provided in the through-hole 6 formed in the pipe main body 3, and the water of the storage space 7 is supplied. As shown in FIG. 1, the wick 8 may be directly inserted into the through hole 6. However, if the wick 8 is directly inserted into the through hole 6, the wick 8 may be separated by water pressure or external force, or water may leak through the through hole 6. In addition, in order to directly insert the wick 8 into the through hole 6 requires a special tool or skilled skills and takes a lot of work time.

In order to solve this problem, the watering pipe 1 according to the present invention may use various types of wicks.

11 shows various embodiments of the wedge-shaped wick 60 according to the present invention, as shown, the wedge-shaped wick 60 is forcibly inserted into the through-hole 6 formed in the watering pipe (1) The wick 8 is fixed in the center. To this end, the wedge-shaped wick (60) is composed of two semicircular rods (64) formed at the top and a semicircular flange (63) formed at the top and a cone (68) with a sharp tip at the bottom. On the abutment surface of the rod 64, an installation groove 66 through which the wick 8 penetrates, and a wick 8 formed in the installation groove 55 to be interposed between the two rods 64, are firmly secured. It consists of an uneven portion 67 to be fixed. In this case, the two rods 64 are connected to each other so that the two rods 64 can be easily coupled.

In addition, the wedge-shaped wick tube 60 is a degree tape (expansion index agent) on the outer circumferential surface of the rod 64 in order to prevent water leakage through the gap between the through hole 6 and the rod 64 72) may be wound to maintain watertightness, or a screw thread 73 corresponding to a screw thread formed on the inner circumferential surface of the through hole 6 may be formed on the outer circumferential surface of the rod 64 to be screwed. . In addition, between the rod 64 and the conical body 68 to form a locking jaw 65 to be caught on the outer peripheral surface of the lower end of the through hole 6 to prevent the wedge-shaped wick tube 60 once inserted. The wedge-shaped wick tube 60 according to the present invention has an advantage that the structure is simple, low-cost and relatively watertight and durable as an injection molding using a plastic or the like.

Next, FIGS. 12 to 13 illustrate a connection type wick 120 that can easily connect the wick 8 separated into the upper wick 8a and the lower wick 8b. The wick 8 separated into the upper wick 8a and the lower wick 8b can close the through hole 6 according to the user's convenience, and can easily connect the upper wick 8a of various types and sizes. There is an advantage.

As shown in FIG. 12, the wick 8 separated into the upper wick 8a and the lower wick 8b may be fixed to the through hole 6 through the connection type wick pipe 120. The connecting wick tube 120 firmly fixes the wick 8 by inserting the wick 8 into the through hole 6 in a state where the wick 8 penetrates the hole through which the wick 8 penetrates.

As shown in FIG. 13, the wick tube 120 according to the present invention includes a lower wick 8b located inside the pipe main body 3 and an upper wick 80a located outside the pipe main body 3. It consists of an upper wicking pipe (120a) and the lower wicking pipe (120b) for fixing the.

That is, the connecting wick 120 is inserted into the through hole 6 formed in the pipe body 3 and is separated from the lower wick 120b and the upper wick 120b for fixing the lower wick 8b. It is possible to fasten and consists of an upper wick (120a) to seal the upper end of the lower wick (120b) at the same time to fix the upper wick (8a).

The lower wick 8b is installed inside the lower wick 120b fixed to the through hole 6 of the pipe main body 3 so as to be always in contact with the water in the pipe main body 3, and the upper wick 120a Inside the upper wick 8a is installed. At this time, the lower screw portion 121b for coupling the upper wick 120a to the outer circumferential surface of the lower wick 120b is formed.

When the upper wick 120a is coupled to the lower wick 120b, the upper end of the lower wick 8b and the lower end of the lower wick 8a are in intimate contact with each other, so that capillaries of both wicks are connected to each other so that the pipe body 3 The internal water can be supplied to the outside.

A lower packing 140b is provided inside the lower wick 120b to fix the lower wick 8b and prevent water from leaking to the outside. The lower wick 8b is formed in the center of the lower packing 140b so that the lower wick 8b is closely penetrated. The lower packing 140b is supported by the annular protrusion 122 formed on the inner circumferential surface of the lower wick 120b.

The upper wick (120a) is a pipe main body 124 is provided with an upper wick (8a) for supplying the capillary water to the roots of soil or crops, and the pipe body 124 is tightly coupled to the lower wick (120b) It consists of a coupling pipe (125).

A coupling tube 125 is fitted to the outer circumferential surface of the pipe body 124, and a locking jaw 126 is formed to protrude outward to support the coupling tube 125 on the outer circumferential surface of the pipe body 124. The upper screw portion 121a for fastening the coupling tube 125 is formed at a lower portion thereof.

And the upper end of the coupling tube 125 is formed integrally with the flange 128 protruding inwardly to be caught by the locking jaw 126, and at the same time to the upper screw portion 121a and the lower screw portion 121b on the inner peripheral surface of the lower portion Coupling screw portion 129 for screwing is formed.

In addition, an upper packing 140a is provided inside the upper wick 120a to fix the upper wick 8a and prevent water from leaking to the outside. At this time, the upper wick 8a penetrates closely in the center of the upper packing 140a.

Then, the lower end of the lower wick 120b is vertically up to the inside of the pipe main body 3 to prevent the lower wick 8b located therein from interfering with the supply of the capillary water by floating, folding or twisting the upper wick 8b. An extension tube 123 is formed to extend. In addition, the extension pipe 123 is formed with a plurality of flow holes 127 having a free flow of water and the size of the wick can not escape.

Therefore, the pipe body (3) coupled to the pipe body (3) and the upper wick (8a) is installed on the protrusion of the lower wick pipe (120b), the lower wick (8b) is installed inside the coupling pipe 125 ( In the state where the 124 is installed to face each other, the coupling pipe 125 is rotated to screw the coupling screw part 129, the upper screw part 121a, and the lower screw part 121b to the lower core pipe 120b. The lower wick 8b and the upper wick 8a provided in the pipe main body 124 are in close contact with each other.

Then, when water is supplied to the water passage 2 of the pipe body 3, the capillary water coming up from the lower wick 8b passes through the junction of the lower wick 8b and the upper wick 8a, and the upper wick 8a. To be supplied to external crops.

And, Figure 14 shows another embodiment of the connection type wick 120 according to the present invention, as shown, the structure of the lower wick 120b of the present embodiment is the same as the above-described embodiment, the lower wick The upper wick tube (120a) is fastened to the top of the tube (120b) is formed in the form of a lid. That is, the watering pipe 1 is provided with a plurality of lower core pipes 120b at regular intervals along the longitudinal direction of the pipe body 3, so that the lower core pipes 120b are always in contact with water. The lower wick 8b is installed, and the lower wick 8b is fixed by the lower packing 140b.

In addition, an extension pipe 123 is vertically formed to a predetermined length at a lower end of the lower core pipe 120b, and a plurality of flow holes 127 are formed in the extension pipe 123 to allow free flow of water but not to escape the wick. do. On the other hand, the upper wick (120a) is fastened to the upper end of the lower wick (120b) is formed in the form of a lid, instead of being formed in a tubular form is different.

That is, the upper wick 120a according to the present embodiment is integrally formed with an upper plate 151 having a hole 152 through which the upper wick 8a closely penetrates, and a lower end at an edge of the upper plate 151. The inner circumferential surface is extended to the inner screw portion 153 is fastened to the lower screw portion 121b formed in the lower core pipe (120b). And the lower surface of the upper plate 151 is formed with a flow preventing jaw 154 to prevent the flow of the upper wick (8a).

And the inside of the upper wick (120a), the pad 160 for contacting the upper wick (8a) to transfer the capillary water and at the same time prevent water from leaking to the outside is further provided. The pad 160 is tightly fixed between the lower surface of the upper plate 151 and the upper end of the lower core tube 120b. At this time, the pad 160 is made of a flexible fibrous material and is provided with a capillary tube that has a capillary action therein. In addition, the edge of the pad 160 has a size and shape that can be bent and interposed between the inner circumferential surface of the upper wick 120a and the outer circumferential surface of the lower wick 120b.

And when the upper wick (120a) and the lower wick (120b) is interposed between the pad 160 in the state, the upper wick (8a) and the lower wick (8b) between the pad 160 It is possible to smoothly deliver the capillary water by contacting the surface. To this end, wick heads 131 and 133 may be formed at the lower end of the upper wick 8a and the upper end of the lower wick 8a to widen the contact area with the pad 160. At this time, the wick head 131, 133 not only facilitates the transfer of the capillary water but also serves to fix the wick. The wick head 133 of the upper wick 8a has a size and shape that can be located inside the flow preventing jaw 154 formed on the bottom of the upper plate 151.

Therefore, when the upper wick pipe (120a) is provided on the protrusion of the lower wick pipe (120b) formed in the pipe body (3), provided in the lower wick (8b) and the pipe body 124 provided in the lower wick pipe (120b) The upper wicks 8a are in close contact with each other through the pads 160 interposed therebetween. Then, when water is supplied into the pipe main body 3, the lower wick 8b located inside the pipe main body 3 draws the capillary water out of the pipe main body 3 through the pad 160 and the upper wick 8a. Will be supplied.

 On the other hand, as shown in Figure 15, the connecting wick pipe 120 according to the present invention is a through hole 6 formed in the pipe body 3 in order to tightly fix the lower wick pipe (120b) to the pipe body (3) It further comprises a T-shaped tube 180 to be inserted into, and a wedge tube 190 inserted between the T-shaped tube 180 and the lower wick 120b.

The T-shaped pipe 180 has a cylindrical pipe body 181 through which the lower core pipe 120b penetrates and is inserted into the through hole 6 formed in the pipe body 3, and an upper end of the cylindrical pipe body 181. It consists of a flange 182 formed integrally with and extending to the outside and in close contact with the outer circumferential surface of the pipe body (3).

The T-shaped tube 180 is made of a material having elasticity and restoring force such as rubber or silicon. The cylindrical pipe body 181 has a tapered shape in which the diameter decreases downward. In addition, the flange 182 is made of a relatively thin thickness to be in close contact with the outer peripheral surface of the pipe body (3). And the flange 182 is closely adhered to the outer peripheral surface of the pipe body 3 using an adhesive or a separate clamp not shown.

The wedge tube 190 is formed in a tapered shape that becomes thinner downward so that a predetermined length is inserted between the inner circumferential surface of the cylindrical pipe body 181 and the outer circumferential surface of the lower wick 120b. The wedge tube 190 is made of a relatively hard material such as hardened plastics. Therefore, the wedge tube 190 penetrates between the T-shaped tube 180 and the lower wick 120b so that the through-hole 6 and the T-shaped tube 180 and the lower wick 120b and the T-shaped tube 180 are closely connected. To be combined.

Therefore, the T-shaped tube 180 through which the lower wick 120b is penetrated is inserted into the through hole 6 formed in the pipe main body 3, and then a wedge tube (between the T-shaped pipe 180 and the lower wick 120b) When the 190 is inserted, the lower core pipe 120b can be installed in a watertight manner to the pipe body 3. Then, when the upper wick 120a is fastened to the upper end of the lower wick 120b, the lower wick 8b and the upper wick 8a are connected to supply the capillary water to the crop.

As described above, according to the present invention, the pipe main body 3 in which the wick 8 is closely installed in the through hole 6 may be installed along the surface of the plantation or embedded in the plantation soil to a certain depth. In addition, the pipe body 3 can be installed next to the crop or on top of the crop and can be installed near the root of the crop. The watering pipe 1 of the present invention does not leak water in accordance with the pressure or the water level inside, and the amount of water consumed by evaporation is also minimized, thereby preventing unnecessary waste of water.

Next, another embodiment of a watering pipe equipped with a storage jaw according to the present invention will be described. As described above, the watering pipe according to the present invention may have a slightly different structure depending on the cross-sectional shape of the pipe body forming the water channel.

That is, FIG. 16 relates to a watering pipe 10 having a rectangular cross-sectional shape, wherein a plurality of water storage jaws 5 are provided at regular intervals in a pipe main body 13 having a rectangular cross-sectional shape. Show (10). In this case, the shape of the storage jaw is almost the same as the above-described watering pipe 1 except that the shape of the storage jaw is changed from a semicircle to a rectangular shape. Such a rectangular irrigation pipe 10 has the advantage that can be made to the storage space (7) large and can be manufactured in various sizes.

 As described above, the watering pipe (1) having a storage jaw according to the present invention is formed with a storage space (7) for storing water between two neighboring storage jaws (5) and the wick (8) It can always supply a certain amount of water so that water can be prevented from being wasted and irrigation management is very easy because the water can be constantly supplied regardless of the operation of the water pump, the water pressure or the water level change.

Therefore, the watering pipe (1) equipped with the water storage jaw according to the present invention can be used not only for natural planting or hydroponic cultivation, such as orchards, but also useful for artificial greening facilities or artificial crop cultivation devices, such as vertical or inclined surfaces. Can be applied.

17 shows various examples in which the watering pipe 1 equipped with the storage jaw according to the present invention is installed on a plantation site. As shown in the figure, the wick 8 is installed to supply water to the soil near the root of the crop by extending the wick 8 to a predetermined length while the watering pipe 1 having the water storage jaw is installed on the ground surface. 1) is buried below the ground surface and the wick (8) is extended to a certain length to supply water near the root of the crop, or the wick (8) is fixed length with the watering pipe (1) installed at a constant height above the ground surface. Extends to the soil near the root of the crop.

In addition, as shown in Figure 18, the watering pipe (1) equipped with a water storage jaw is buried under the ground surface, and the wick (8) is extended to a certain length and buried, and then planted crops or trees thereon to the root of the plant It may extend to absorb water from the wick 8.

As shown in Figure 19, the natural plantation is generally unstable ground. Therefore, even if the watering pipe (1) is installed horizontally, the watering pipe (1) is deformed up and down due to inequality settled over time, there is a difference in height. Conventional irrigation pipes are not evenly supplied due to the difference in height, but the watering pipe (1) of the present invention is provided with a plurality of reservoir jaw (5) inside the pipe, so even if the height difference occurs Since all the water filled in the space 7 is stored without flowing down, the wick 8 can be used to supply water evenly regardless of height.

As described above, the watering pipes (1) 10 (20) according to the present invention stores water in a plurality of reservoir spaces (7) partitioned by the reservoir jaw (5) and the capillary shape of the wick (8) Water supply is constant by using water supply, so it is very easy to manage watering, it is not necessary to operate the water pump every time water is supplied to the crop, and water is supplied to the reservoir space (7) by using the late night power. It can be used, which can greatly save energy.

In the above description of the technical spirit of the present invention with reference to the preferred embodiment of the present invention in detail, but the examples shown in the embodiment and the drawings are intended to help the understanding of the invention as such is not limited to the scope of the present invention As those skilled in the art will be able to make various embodiments using these embodiments, such modifications fall within the scope of the present invention as long as they are included in the following claims.

1, 10, 20: watering pipe 2: channel
3: pipe body 5: water storage jaw
6: through hole 7: reservoir space
8: wick 11: insert groove
20: connector 30: insert tube
33: insertion tube body 51: vertical plate
53: Wing 60: Wedge Wick
65: engaging jaw 120 (120a, 120b): connection type wick
121a: upper screw portion 121b: lower screw portion
122: annular projection 123: extension tube
124: pipe body 125: coupling pipe
126: locking jaw 127: floating hole
128: flange 129: coupling thread portion
131, 133: wick head 140a: upper packing
140b: lower packing 151: top plate
152: hole 153: internal thread
154: anti-flow jaw 160: pad
174: flow preventing groove 180: T-shaped pipe
181: cylindrical pipe body 182: flange
190: wedge tube

Claims (13)

At one end, an inlet for supplying water is formed,
The other end has an outlet for discharging water,
Inside it is formed to protrude from the bottom to the top to block the flowing water, the upper end is formed with a storage jaw formed with an opening so that water can ride over,
A plurality of pipe bodies formed between the storage jaws and formed through holes formed in communication with the storage space for storing a predetermined amount of water;
And a plurality of wicks closely installed in the through-holes to absorb water in the reservoir space and supply water to crops separated from the pipe body.
Water pipes equipped with a storage jaw to supply water to the crops by connecting the inlet and the outlet of the plurality of pipe bodies to each other to form a long in the longitudinal direction and buried in the basement of the plantation planting the crops. The method of claim 1,
The water storage jaw is provided with a water storage jaw, characterized in that formed integrally when forming the pipe body. The method of claim 1,
The storage jaw is formed by inserting a vertical plate of a predetermined size through the insertion groove formed in the lower portion of the pipe body so that an opening is formed between the inner peripheral surface of the pipe body and the upper end of the vertical plate. Watering pipe provided. The method of claim 1,
The water storage jaw is inserted into the inside of the pipe body by inserting the insertion tube body consisting of a plurality of water storage jaws installed at regular intervals along the longitudinal direction of the insertion tube body and is inserted in close contact with the inside of the pipe body; Watering pipe with a storage jaw, characterized in that made. The method according to any one of claims 1 to 4,
A lower wick tube inserted into the through hole formed in the pipe main body, the lower wick being inserted through the through hole formed in the irrigation pipe and having a lower packing therein for fixing the lower wick therein;
A wicking pipe having a storage jaw, characterized in that the wick is formed of an upper wick, which is detachably fastened to an upper end of the lower wick and has a fixing means for fixing the upper wick therein. delete delete delete The method of claim 5,
The upper wick is a pipe body coupled to the upper end of the upper wick, and inserted into the lower end of the pipe body and the inner circumference of the upper screw portion formed on the outer circumferential surface of the pipe body and formed on the outer circumferential surface of the lower wick Watering pipe with water storage jaw, characterized in that it comprises a coupling pipe formed with a coupling threaded portion coupled to the lower screw portion at the same time The method of claim 5,
The inside of the upper wick pipe, the upper pipe is provided with a water storage jaw, characterized in that the upper packing is further provided to prevent the leakage of water of the pipe to the outside at the same time. The method of claim 5,
The lower wick is a water storage jaw is fixed through the T-shaped pipe for fixing to the coupling hole formed in the watering pipe, and the wedge tube is inserted between the T-shaped pipe and the wick pipe to secure them integrally. Watering pipe provided. The method of claim 11,
The T-shaped pipe may include a cylindrical pipe body through which the lower wick tube penetrates closely and closely penetrates a through hole formed in the irrigation pipe, and is integrally formed around an upper end of the cylindrical pipe body and extended outwardly. It consists of a flange portion in close contact with the outer peripheral surface of the,
The wedge tube is a cylindrical tube that can be inserted into a predetermined length between the inner circumferential surface of the cylindrical pipe body of the T-shaped tube and the outer circumferential surface of the lower wick tube, the water storage jaw is characterized in that the thinner tapered shape toward the bottom Watering pipe provided. In one end of the inlet for supplying water, the other end of the pipe body formed with an outlet for discharging water and a plurality of connecting portions for connecting the pipe body with each other,
A storage jaw is formed in the connection part so as to protrude upward to block and block the flowing water, and an opening formed at an upper end thereof so that the flowing water can be carried over;
A through hole is formed in the pipe main body so as to communicate with a reservoir space formed between the reservoir jaws to store a predetermined amount of water;
The through hole is provided with a wick for absorbing water in the reservoir space and supplying water to the outside of the pipe body;
The plurality of pipe bodies are connected to the inlet and the outlet by using the connecting portion formed in the longitudinal direction of the length and the water storage jaw is characterized in that it is buried in the basement of the plantation planting the crops to supply water to the crops Watering pipe.

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