KR20100127144A - Water-supplying apparatus for raising seedlings - Google Patents

Abstract

PURPOSE: A water supply device for raising seedling is provided to prevent wound and damage caused by moisture and to easily control water supply and water discharge. CONSTITUTION: A water supply device for raising seedling comprises: a main body(10) with a reservoir space(15), which accommodates a pot in which seed is planted; and a waterway part(20) with a waterway and a connection pipe(30). The connection pipe includes an insertion part, an extension part, a sealing member, and a stopper.

Description

Water-supplying apparatus for raising seedlings}

The present invention relates to a seedling cultivation water supply device, and more particularly, to a seedling cultivation water supply device capable of supplying appropriate moisture to a pot in which seeds or seedlings of various plants are planted.

In general, various plants are seeded in hydroponic fields made of water containing nutrients necessary for plant growth or seeding or planting seedlings in open fields such as paddy fields and fields, which are well-permeated with moisture and oxygen, and nutrient soils. Sowing or planting seedlings may be grown.

When the above-mentioned cultivation of land or hydroponic cultivation, in recent years, a number of holes are formed at a bottom in a certain place so that seeds of various plants are sown, sprouted, or grown to a certain size, and then planted in a field or hydroponic land. They are grown directly in pots without planting.

When planting and planting seedlings or germinating seeds in the pot as described above it is very important to maintain the moisture and temperature suitable for the growth of the plant.

Therefore, in order to supply water to seedlings or seeds of the pot, the water is sprayed from the upper portion of the pot to absorb moisture in the soil contained in the pot, and to supply moisture to the roots or seeds, and to maintain a suitable temperature. The house will be installed.

In order to supply an appropriate amount of water to the seedlings or seeded seeds planted in the pot in the above it is to supply the water through a manpower or a watering device such as a sprinkler (sprinkler).

However, when using manpower to supply water to seedlings or seeds of the pot as described above, the work is cumbersome and increases the manpower shortage, and when using a sprinkler such as a sprinkler, the water is not evenly supplied and water is supplied to the outside of the pot. There is a problem that water is wasted falling.

In addition, the method of spraying water from the upper part frequently caused the seedlings to die due to an anthrax disease caused by a sudden drop in temperature in the summer or to damage the soft seedling leaves.

The present invention has been made to improve the above problems, the seeds or seedlings planted in the pot to supply water in a manner to absorb the fresh water and to drain the remaining water to prevent wounds and dampness and to facilitate the water supply and drainage The purpose is to provide a seedling cultivation water supply controllable.

The present invention for achieving the above object is an open top and a fresh water space is formed therein, the main body for receiving a pot planted seeds or seedlings in the fresh water space; A water channel portion protruding downward from the bottom of the main body and having a water channel communicating with the fresh water space therein, and having a water supply port and a drain hole connected to the water channel; One side is inserted into the water supply port of the waterway portion and the other side is inserted into the waterway portion drain of the main body adjacent to the main body characterized in that it comprises a connection pipe for passing through the waterway portion of the main body and the waterway portion of the adjacent main body.

The connecting pipe has a cylindrical body having a hollow inside, an insertion portion each extending from both ends of the main body, and having an outer diameter smaller than that of the water supply port or the drain port so as to be inserted into the water supply port or the drain port, and the insertion part. Extends from and protrudes into the waterway portion, and is mounted in a mounting groove formed on an outer circumferential surface of the extension portion bordered by the insertion portion and has an outer diameter larger than the diameter of the water supply port or the drain port from the water supply port or the drain port; It is characterized by including a sealing member for preventing the separation of the extension and watertight maintenance.

The connecting pipe has a cylindrical body having a hollow inside, an insertion portion each extending from both ends of the main body, and having an outer diameter smaller than that of the water supply port or the drain port so as to be inserted into the water supply port or the drain port, and the insertion part. A sealing member mounted on a mounting groove formed on an outer circumferential surface to maintain watertightness, an extension part extending from the insertion part to protrude into the waterway part and gradually decreasing in outer diameter toward the end portion, and bordering the insertion part; A stopper formed on an outer circumferential surface of the main body and having a larger outer diameter than the water supply or drain to prevent the main body from entering the water supply or drain; A stage is formed in a direction in which the outer diameter of the portion is expanded.

As described above, according to the present invention, the water stored in the fresh water space of the main body is supplied with moisture in such a manner that the seeds or seedlings planted in the pot absorb the problems caused by the conventional method, that is, damage the fragile seedling leaves or sudden drop in temperature. This can prevent anthrax from dying from seedlings.

In addition, water supply and drainage can be easily controlled by draining excess water that the seed or seedling cannot absorb, and wastewater can be prevented by using the drained water again.

In addition, since water is supplied by interconnecting a plurality of main bodies, water can be supplied and drained to a plurality of ports collectively so that a plurality of ports can be easily managed.

Hereinafter, with reference to the accompanying drawings will be described in detail for a seedling cultivation water supply device according to a preferred embodiment of the present invention.

1 is an exploded perspective view of a water supply apparatus according to an embodiment of the present invention, Figures 2 and 3 is a cross-sectional view of Figure 1, Figure 4 is a perspective view showing a water supply pipe applied to the water supply apparatus according to another embodiment of the present invention And sectional drawing which shows the water supply apparatus to which the water supply pipe of FIG. 5 was applied.

1 to 3, the seedling cultivation water supply device according to an embodiment of the present invention includes a main body 10, a waterway part 20, and a connection pipe 30.

In the present invention, the main body 10 is two or more are arranged at regular intervals. The main body 10 has a substantially rectangular parallelepiped shape, and has a fresh water space 15 formed therein and a cylindrical shape having an open top. Shape of the main body 10 according to an embodiment, in addition to the rectangular tubular shape may be formed in a cylindrical shape of various shapes, such as pentagon, circular, the fresh water space is formed therein. The main body 10 is composed of a rectangular bottom and a wall surface formed at a predetermined height vertically at the edge of the bottom. The height of the wall surface is appropriately formed depending on the height of the port 3 and the like.

The inside of the main body 10, that is, the fresh water space 15 is provided with a conventional seedling cultivation port (3). The port 3 is provided with the panel 5 of a rectangular plate shape, and the planting part 7 which protrudes in the shape of a cup from the panel 5 below. Inside the planting part 7 is formed a planting space for planting seeds or seedlings of plants, and the planting space is filled with soil. Although not shown, the bottom of the planting part 7 is formed with a water hole so that water can enter and exit the planting space. One or more water passages may be formed, and in addition to the bottom portion of the planting portion 7 may be formed of course.

The port 3 is supported by the bottom of the planting part 7 in contact with the bottom of the main body 10. In the illustrated example, one port 3 is installed in the main body 10, but in addition, two or more ports may be installed in the main body 10.

The waterway portion 20 is formed to protrude downward from the bottom bottom of the main body 10. The channel portion 20 is formed in a substantially semicircular shape. The waterway portion 20 is formed in a direction crossing the bottom of the main body 10 from the one side surface of the main body 10 to the other side opposite.

The water channel 21 through which water flows along the length direction of the water channel portion 10 is formed inside the water channel portion 20. The upper portion of the water channel 21 is formed to open toward the fresh water space 15 of the main body 10. Therefore, the channel 21 and the freshwater space 15 communicate with each other to allow water to flow from the freshwater space 15 to the waterway 21, or from the waterway 21 to the freshwater space 15.

And the water supply port 23 is formed on one side of the waterway portion 20, the drain port 25 is formed on the other side. The water supply port 23 and the drain port 25 have a diameter of a constant size.

The connection pipe 30 connects the channel portions 20 between the main bodies 10 adjacent to each other so that water flows from one main body to the other main body.

The connecting pipe 30 is formed in a tubular hollow inside. The connection pipe 30 is formed to have a smaller outer diameter than the diameter of the water supply port 23 or the drain port (25). One end of the connecting pipe 30 is inserted into the water supply port 23 of the water channel portion of the main body, and the other end is inserted into the drain port (not shown) of the adjacent main body. Therefore, the water introduced into the waterway portion of the adjacent body is introduced into the waterway portion 20 of the body through the connection pipe 30. As described above, a plurality of main bodies 10 in which the ports 3 are accommodated are installed side by side, and the channel portions 20 of the main bodies 10 are connected to each other by water through the connection pipes 30.

For example, if 10 main bodies are spaced apart from each other and installed in a row, in the case of the main body 10b positioned at the front as shown in FIG. 3, one end of the connection pipe (not shown) may be provided with a water supply port of the water channel part 20b. The other end extends from the water tank and is connected to a water supply line (not shown) through which water is transferred. Therefore, the water transferred from the water supply line flows into the waterway portion 20b through the connecting pipe, and when the water level of the waterway portion 20b gradually rises and fills up to the position of the drainage outlet, the water supply port of the main body 10b adjacent to the drainage outlet is filled. Water flows into the waterway portion 20a of the adjacent main body 10a through a connection pipe 30a for connecting the pipes. Water introduced into the waterway portion 20a is drained into the drain and flows into the waterway portion 20c of the adjacent body through the connection pipe 30c connected to the adjacent body 10c. In this way, when water is filled up to the last body channel part, water is introduced into the fresh water space of each body. At this time, the drain hole formed in the last main body channel portion is closed. Closing may be accomplished by inserting a rubber stopper into the drain or by conventional means. In this case, the rubber stopper may be watertight and preferably detachable from the drain.

In this way, when the water is filled up to the waterway part of the last body, water starts to be filled from the lower portion of the fresh water space 15 of each body 10. In this case, the manager dewaters the fresh water space 15 by the required water level, and then shuts off the water supply by closing the valve of the water supply line. The water stored in the fresh water space 15 is introduced into the soil filled in the planting part 7 through a water passage hole formed in the planting part 7 of the pot 3.

And when the water filled in the interior of the body should be drained off the rubber stopper closing the drain of the last body from the drain to drain the water filled in the interior of all the body to the outside. As such, the present invention has the advantage that the water supply and drainage of the water is easy to control.

Although not shown, a valve may be installed in the middle of the connection pipe 30 to control the flow of water. That is, the space inside the connection pipe 30 may be opened or closed to allow the water to flow or not flow. In addition, it is preferable that the flow rate can be adjusted to a set amount even if water flows.

Meanwhile, another example of the connecting pipe is shown in FIGS. 4 and 5.

The illustrated connecting pipe 40 has a cylindrical body 41 which is hollow inside, an insertion portion 43 which extends from both ends of the body 41 and has an outer diameter smaller than that of the water supply port or the drain port, Each of the extension part 47 extends from the insertion part 43 to protrude into the waterway part 20 and has the same outer diameter as the insertion part 43, and the boundary between the extension part 47 and the insertion part 43. Is mounted to the formed mounting groove 45 is provided with a sealing member 50 for maintaining the watertight of the waterway portion 20. Sealing member 50 is to prevent the leakage of water through the gap between the connection pipe 40 and the water supply port or the connection pipe 40 and the drain, it is possible to use the O-ring of the rubber material. Since the sealing member 50 is formed with a larger diameter than the water inlet or the drain, the sealing member 50 may not only maintain the watertightness but also prevent the connection pipe 40 from being separated from the water inlet or the drain to the outside of the main body 10. have.

In addition, a stopper 49 may be formed on an outer circumferential surface of the main body 41 bordering the insertion part 43. The stopper 49 is formed to maintain a constant distance from the mounting groove 45 on which the sealing member 50 is mounted. The spacing is equal to the wall thickness of the body 10. The stopper 49 is formed to protrude in the direction in which the outer diameter of the main body 41 extends to have an outer diameter larger than the diameter of the water supply port or the drain port. Therefore, when the both ends of the connecting pipe 40 is inserted into the water supply port and the drain port to prevent entering into a predetermined depth or more by the stopper.

6 shows a connecting pipe according to another embodiment of the present invention.

Referring to Figure 6, the connecting pipe 60 is formed at each end of each of the ends of the cylindrical body 61 of the hollow hollow and the insertion portion 63 having an outer diameter smaller than the diameter of the water supply port or drain, Mounting grooves are formed on the outer circumferential surface of the insertion portion 63, and the O-ring 70 made of rubber material, which is a sealing member, is mounted on the mounting groove to maintain watertightness. And the extension portion 67 is formed extending from the insertion portion 63 to a predetermined length. Extension portion 67 is formed in a conical shape that gradually decreases the outer diameter toward the end. At this time, the end 68 is formed on the outer circumferential surface of the extension portion 67 bordered by the insertion portion 63 in the direction in which the outer diameter extends. That is, the outer diameter of the stage 68 is formed larger than the diameter of the water inlet or drain. Accordingly, when the connecting pipe 60 is inserted into the water supply port or the drain, the extension 67 is forcibly inserted into the water supply port or the drain, and the end 68 formed in the extension 67 after the insertion is the water supply port or the drain port. Hanging on the edge of the insertion portion 63 to prevent the easily separated from the water supply port or drain. In addition, a stopper 69 having an outer diameter larger than that of the water supply port or the drain port is formed on the outer circumferential surface of the main body 61 bordered by the insertion portion 63. The stopper prevents the main body 61 from entering the water supply port or the drain port.

As described above, the present invention has been described with reference to one embodiment shown in the drawings, which is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent embodiments are possible. .

Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

1 is an exploded perspective view of a water supply apparatus according to an embodiment of the present invention,

2 and 3 are cross-sectional views of FIG.

4 is a perspective view showing a water supply pipe applied to a water supply device according to another embodiment of the present invention,

5 is a cross-sectional view showing a water supply device to which the water supply pipe of FIG. 4 is applied.

6 is a cross-sectional view showing a water supply device to which a water supply pipe according to another embodiment of the present invention is applied.

<Description of the symbols for the main parts of the drawings>

3: port 10: main body

20: waterway part 21: waterway

23: water outlet 25: drain

30: connecting pipe

Claims (3)

A main body having an upper portion open to form a fresh water space therein and receiving a port in which seeds or seedlings are planted in the fresh water space; A water channel portion protruding downward from the bottom of the main body and having a water channel communicating with the fresh water space therein, and having a water supply port and a drain hole connected to the water channel; One side is inserted into the water supply port of the water channel portion and the other side is inserted into the water passage portion drain hole of the main body adjacent to the main body and having a connection pipe for passing through the water channel portion of the main body and the water channel of the adjacent main body. Planting water supply. According to claim 1, wherein the connecting pipe is a cylindrical body having a hollow inside, and is formed respectively extending from both ends of the main body and having an outer diameter smaller than the water supply port or drain port to be inserted into the water supply port or drain port And an extension portion extending from the insertion portion and protruding into the waterway portion, and a mounting groove formed on an outer circumferential surface of the extension portion bordering the insertion portion and having an outer diameter larger than the diameter of the water supply or drainage port. Watering device for seedling cultivation characterized in that it comprises a sealing member for preventing the separation of the extension from the water supply port or drainage and maintaining the watertight. According to claim 1, wherein the connecting pipe is a cylindrical body having a hollow inside, and is formed respectively extending from both ends of the main body and having an outer diameter smaller than the water supply port or drain port to be inserted into the water supply port or drain port And a sealing member mounted to a mounting groove formed on an outer circumferential surface of the insertion part to maintain watertightness, an extension part extending from the insertion part to protrude into the waterway part and gradually decreasing in diameter toward the end portion, and A stopper formed on an outer circumferential surface of the main body that is bounded by an insertion part and having a larger outer diameter than the water supply port or the drain port to prevent the main body from entering the water supply port or the drain port, The extension part seedling cultivation water supply device, characterized in that the step is formed in the direction in which the outer diameter of the extension portion is extended to the outer peripheral surface bordering the insertion portion.

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