KR100495681B1 - Socket-type vertical spraying tool and hose therefor - Google Patents

Abstract

The present invention relates to a socket-type vertical fountain device and a vertical fountain hose that can improve the watering ability for plant cultivation because the water is supplied from all directions, and is made of a socket type and a cheap material, thereby reducing the installation cost. The fountain mechanism for this purpose is provided with a main supply pipe that is installed in the longitudinal direction on the inside of the facility for planting crops to supply water, and a branch socket for branching the flow path of water flowing through the main supply pipe. In addition, a detachable vertical ejection means is connected to the branch socket, and the ejection means has a tubular shape as in the example of a hose having a closed lower end, and a plurality of fountain holes through which water is injected are formed on the outer surface. According to the present invention, the water is supplied in all directions through the vertical jetting means in a state where a pressure of a predetermined size or more is applied, and if the pressure is not satisfied, the jet of water is stopped to prevent the flow of water, and eventually pathogens in the soil The effect is that the crops are harmless.

Description

Socket-type vertical spraying tool and hose therefor}

The present invention relates to a socket-type vertical fountain device and a vertical fountain hose, more specifically, since water is supplied from all directions, the watering ability for plant cultivation is improved, and as a socket, it is easy to assemble and install, The present invention relates to a socket-type vertical fountain device and a vertical fountain hose, which are made of inexpensive materials and can reduce facility costs.

Various facilities for watering have been developed and used in the facility or in general growing spaces. Tools with different characteristics are adopted according to various usage environments, and water is supplied from various locations such as the ground or the ground space inside the facility.

Among them, inside the facility, there is a fountain hose installed at the bottom, and a sprinkler installed at the upper ceiling. The fountain hose is supplied to the pressurized water through the fountain hole formed on one side of the upper surface of the hose to be supplied to the crop in a certain distance in one direction or in both directions from the fountain hose, it can be referred to as a representative form of low water spraying. In addition, the sprinkler is a typical form of snow-shoe type to supply water in a multi-direction over the front, rear, left and right at a position above a certain height, there is an excellent watering effect.

By the way, there are some problems in the water spray form using the fountain hose and sprinkler.

First, the fountain hose is generally laid on the bottom surface to drill the jet hole in the upper surface of the hose so that the water is supplied through this. This form can be effectively used as a water supply for germination after seeding to cultivate crops, but causes various problems when water is supplied to crops above a certain height after germination. For example, while water is supplied to a crop grown at a certain height from the fountain hose installed on the bottom surface, water is sprayed directly to the back of the leaf to close the pores, or the sprinkled water splashes into the soil, and the pathogens in the soil are sprayed onto the crop. It is to cause the transfer phenomenon, causing contamination and pests by the pathogen. Therefore, the fountain hose is not suitable for water supply to the plants after germination in the state laid on the floor.

In order to overcome such a problem, the fountain hose is suspended on the upper part of the facility and used to gradually increase the height according to the growth of the crop, and the trouble of having to raise the height of the fountain hose repeatedly according to the growth rate of the crop. Together, it prevents workers from moving in the facility, causing another problem that reduces work efficiency.

In the method using the sprinkler, there is an advantage of supplying water to the top of the crop, but there is a disadvantage that the facility cost is high. In addition, when the water supply is interrupted or the supply pressure is lowered, water accumulated in the hose is directly dropped into the water droplets and splashes on the ground. Therefore, the problem that the water droplets hit the soil and transfer the pathogens to the crop, such as a problem generated in the fountain hose, can not be solved.

An object of the present invention for solving such a conventional problem is that the water is supplied in all directions by the internal expansion in a state in which a pressure of a predetermined size or more is applied, the socket-type vertical to stop the water ejection if it does not satisfy a certain jet pressure To provide a fountain.

Another object of the present invention is to provide a socket-type vertical fountain mechanism that can be easily separated and coupled from a connecting pipe for supplying water, and has a seam that suppresses the flow of water, so that the drained water can be easily discharged.

Still another object of the present invention is to provide a vertical fountain hose which is installed in a vertical direction and is adopted in the fountain mechanism to eject the water, the water can be ejected in all directions through the fountain hole formed entirely around the hose. will be.

The socket-type vertical fountain device according to the present invention for achieving the above object is installed in the longitudinal direction on the inner side of the facility for crop cultivation to supply water; Branch sockets are installed on the main supply pipe at regular intervals and branch the water flow paths. And, it is detachably connected to the branch socket, characterized in that it comprises a vertical jetting means formed on the outer surface of the plurality of fountain holes are sprayed with water.

According to a preferred embodiment of the present invention, the branch socket may be made of a clamp member.

The jetting means may be configured to have a tubular structure having a vibration plate or a bulbous structure in which the fountain holes are evenly formed on the outwardly curved surface, and the jetting means has a protruding water tank that can accommodate a predetermined amount of water in the jetting means. Can be further formed.

Socket type vertical water fountain hose according to the present invention for achieving the above object is characterized in that a plurality of fountain holes perforated over the entire circumferential surface of the jetting means applied to the fountain mechanism.

Hereinafter, an embodiment of the present invention will be described in more detail with reference to the accompanying drawings. The embodiments of the present invention described below are merely for illustrating the technical idea of the present invention by way of example, it should not be understood that the scope of the present invention is limited thereto. Various modifications, changes and variations are possible in the following examples which will be apparent to those of ordinary skill in the art.

1A and 1B show an embodiment of a socket-type vertical fountain device according to the present invention, FIG. 1A shows a clamp type structure, and FIG. 1B is an exploded perspective view showing a connector connection type structure.

First, referring to FIG. 1A, the fountain mechanism 100 includes a branch socket 12 branched from a main supply pipe 10 through which water is supplied, a branch hole formed in the main supply pipe 10, and the branch socket 12. Is connected, it is made of a jet hose 14 is fastened to the fastener 13, the water is finally ejected. At this time, one end of the spray hose 14 is sealed to prevent leakage, and the water trap 15a having the lid 15b is fastened to the end of the spray hose 14 by the fastener 13. In addition, the branch hole is formed by cutting only one side coupling portion of the main supply pipe 10 and is cut in a circular or elliptical shape. The branch socket 12 can be easily inserted and easily coupled.

And, referring to Figure 1b, the fountain mechanism 200 is connected between the main supply pipe 16 and the main supply pipe 16 is a water supply branch branch socket 18 branched from the main supply pipe 16, And it is connected to the branch socket 18 is made of a jet hose 14 that the water is finally ejected. In the fountain 200, as in the example of the fountain 100, one end of the discharge hose 14 is connected to the branch socket 18 by a fastener 13, the other end of the water tank 15a Connected with

The fountain mechanisms 100 and 200 of the present embodiment configured as described above are branched into a plurality of branch sockets 12 and 18 where water flowing through the main supply pipes 10 and 16 is branched from the main supply pipes 10 and 16. In this way, water is jetted and supplied over the entire surface through a jet hose 14 connected to the branch sockets 12 and 18 branched in this way.

In this case, the diameters of the branch sockets 12 and 18 branched from the main supply pipes 10 and 16 are generally smaller than the diameters of the main supply pipes 10 and 16, so that the water may be evenly divided. Of course, above all, to increase the ejection pressure. Of course, the main supply pipe (10, 16) may be implemented in the form of a pipe or hose.

The branch sockets 12 and 18 have a function of providing a flow path for supplying water to the jet hose 14, and the branch sockets 12 and 18 inside the branch sockets 12 and 18 than the pressure inside the main supply pipes 10 and 16. This function increases the pressure so that the ejection pressure is set high. As described above, the diameter of the branch sockets 12 and 18 is configured to have a diameter smaller than that of the main supply pipes 10 and 16.

In addition, the jet hose 14 has a structure in which water is ejected through the perforated or cut holes while rotating around the periphery thereof. That is, as shown in Figure 2, a plurality of fountain holes 140 are formed on the outer periphery of the jet hose 14, the water can be supplied sprayed in all directions. At this time, assuming that the pressure formed in the jet hose 14 is constant, the spray amount and the spraying range of water vary according to the size of the hole formed in the jet hose 14. In addition, the diameter of the spray hose 14 may be formed to be smaller than or equal to the diameter of the branch sockets 12 and 18 may help to increase the ejection pressure, a large diameter spray hose 14 for convenience Can be used.

As the specific shape of the jet hose 14, if it is classified according to the material, it may be a form in which the cut-out fountain hole is formed on the outer peripheral surface of the cylindrical hose coated with polyethylene on the inner and outer surfaces of the teaching material. In addition, according to the shape, it is possible to apply various types of blow hoses such as a tubular structure having a diameter of a predetermined size and a bulb-like structure in which the middle part is convexly protruding. An example of this will be described in detail below.

The more specific action through each component examined as above will be described in detail.

First, the fountain mechanisms 100 and 200 of the present embodiment are connected to the main supply pipes 10 and 16 that supply water in a row at regular intervals. The main supply pipe (10, 16) is fixed to a certain height from the bottom surface inside the facility does not affect the working line of the worker. Water pressurized at a constant pressure is supplied through the main supply pipes 10 and 16, and thus water flowing through the main supply pipes 10 and 16 is sequentially supplied to the jet hose 14 which is branched. Accordingly, the water is filled in the jet hose 14, the pressure of a certain size is acting. When the water is filled in the spray hose 14, the pressure is maximized. At this time, the water is sprayed evenly to the surroundings through the fountain hole 140 of the cut state formed around the spray hose (14). If the pressure inside the jet hose 14 does not satisfy a pressure condition of a predetermined size or more, the fountain hole 140 is not opened. When the size exceeds the pressure, the fountain hole 140 is opened and water is supplied. Therefore, the phenomenon that water flows down naturally does not occur in the jet hose 14, so that water droplets splash on the soil and contaminate crops.

A preferred example of the jet hose 14 for performing such a function will be described in more detail with reference to FIGS. 3 and 4.

3 and 4 show various embodiments of the spray hose 14 applied to the present embodiment, and FIG. 3 is a spray hose 14a having a woven cloth structure coated with tarpaulin. Fountain holes 140 of a cut shape are formed over. The jet hose 14a having the constant fountain holes 140 has a vibration plate 142 that allows water to be sprayed while shaking at a constant pressure. In addition, the jet hose 14a is preferably made of a tubular jet hose 14a having a diameter similar to the diameter of the branch sockets 12 and 18, which is a main supply pipe 10 having a relatively large diameter. High pressure is formed through the branch sockets 12 and 18 having a smaller diameter in 16), so that water may be sprayed in the form of mist or jetted to a long distance according to the size of the fountain hole 140. The bottom of the jet hose 14a may be closed by a sealing means such as the water gasket 15a described above.

In addition, as another example of the jet hose 14, the fountain holes 140 are formed in the outer circumference protruding convexly protruding as the jet hose 14b of the bulb-like structure. The bulb type hose is formed to protrude convexly from the central portion, and water may be ejected at various angles through the fountain holes 140 formed in the central portion, thereby providing water to a large area of cultivation space. Will be able to supply. And, it has a water tank 150 of the protruding form at the bottom of the discharge hose, there is further formed a cover 152 for discharging the standing water as needed when the water is not ejected. The water collecting unit 150 is intended to allow water to accumulate for a long time when the water present in the spray hose 14b does not satisfy a condition of a predetermined pressure or more. As a result, when the spray hose 14b does not eject water, the water does not flow out. In addition, the cover 152 for discharging the water accumulated in the water holding unit 150 of the jet hose (14b) can prevent the contamination inside the jet hose (14b) when the water supply is not made for a long time Get the effect. The cover 152 may be formed of a screw opening and closing structure to facilitate opening and closing.

FIG. 5 is a view illustrating an example in which water is ejected in a state in which a plurality of fountain devices 100 are connected to the main supply pipe 10 according to an embodiment of the present invention. Water is evenly ejected from each direction from each other to be evenly supplied to the crops cultivated in the facility (300).

According to the embodiment according to the present invention, regardless of the size of the crop can be supplied to the water in the form of water droplets or mist at a constant height, because the water does not flow down water droplets fall into the soil and splashed by the pathogen in the soil Contamination is prevented. In addition, the ability to eject water in all directions can be obtained through the various types of jet hose.

Unlike the embodiment of the present invention described above, it is a matter of course that the fountain hole formed in the ejection hose can be manufactured in a perforated form instead of a cut-out form. When the supply pressure is low, when the supply pressure is low, the water flows through the fountain hole through which the water is supplied to the fountain device. Such an example may be applied when the crop is grown large or water droplets naturally flow downwards regardless of the installation location of the fountain, so as not to affect the crop.

As described above, according to the present invention, water is supplied in all directions when a pressure equal to or greater than a predetermined size is applied, and when the pressure is not satisfied, water ejection is stopped to prevent the flow of water.

Water can be sprayed in all directions through a fountain hole formed around the spray hose, and water is supplied in the form of water droplets or mist at a constant height regardless of the size of the crop. Pollution by is effective.

1A and 1B show an embodiment of a socket-type vertical fountain device according to the present invention, FIG. 1A shows a clamp type structure, and FIG. 1B is an exploded perspective view showing a connector connection type structure.

2 is a planar cross-sectional view showing a state in which water is ejected from the spray hose applied to the embodiment of the present invention.

3 and 4 are views showing various embodiments of the spray hose applied to the embodiment of the present invention.

5 is a view showing a state in which a plurality of water fountains are connected to the main supply pipe according to an embodiment of the present invention the water is ejected.

* Explanation of symbols for the main parts of the drawings

10, 16: Main supply pipe 12, 18: Branch socket

14, 14a, 14b: ejection hose 15a, 150: water pregnant women

15b, 152: Stopper 140: Fountain hole

142: connector 100, 200: ejection mechanism

Claims (6)

delete delete Main supply pipe for supplying water fixed to the upper space inside the facility for crop cultivation, branch sockets installed at regular intervals on the main supply pipe for branching the water flow path, and detachably connected to the branch socket In the socket-type vertical fountain device comprising a vertical jetting means is formed on the outer surface of the plurality of fountain holes to which water is injected, And said ejection means is a tubular hose made of polyethylene interwoven fabric and having a vibration plate around said fountain. delete The method of claim 3, wherein In the blowing means, A socket-type vertical fountain device, characterized in that the protruding water trap is formed to accommodate a certain amount of water. A vertical fountain hose according to claim 3, which is used for the fountain device.