KR20210071376A - Device for Supplying of Fertigation - Google Patents

Abstract

A fertilizer feeding device according to the present invention comprises: a blending tank (10) including a lid (12) for fertilizer input formed on one side of an upper portion and a lid (14) for water drainage formed on one side of a lower portion so that fertilizer is diluted and blended in water supplied; a water flow control pipe (20) coupled to horizontally pass through the center of the blending tank (10), wherein a pipe for watering is connected to an entry side, and a sprinkler or a spray hose is selectively connected to an exit side; and a switching valve (30) installed on the entry side of the water flow control pipe (20) and configured to control the flow of water so that water supplied through the pipe for watering flows into the blending tank (10) or is discharged to the outside without being mixed with blending water in the blending tank (10). Accordingly, manufacturing costs of the fertilizer feeding device can be lowered, and the fertilizer feeding device can be easily operated and can be freely stored and moved, thereby being conveniently usable. In addition, the fertilizer feeding device can selectively and easily supply (spray) blending water or water to a small-scale cultivation plot.

Description

Device for Supplying of Fertigation

The present invention relates to an irrigation fertilizer supply device, and more particularly, it is connected to an existing irrigation pipe, and fertilizer (solid or liquid) is diluted and mixed in water (irrigation) by water pressure and immediately supplied (sprayed) to the cultivation area. It relates to the administrative fee supply system.

In general, horticultural crops can expect good crop growth only when the amount of soil moisture and fertilization are adjusted according to the characteristics of the crops because the quantity and moisture requirements for proper growth are different for each crop or growth period.

In the cultivation method of the horticultural crops, fertigation cultivation uses comparative (mass elements and trace elements) components contained in the soil by performing irrigation and fertilizer at the same time on cultivated land, and clay and organic matter It is an agricultural method that utilizes the buffering capacity of

The advantage of the fertilized cultivation is that first, water and fertilizer are properly supplied to the crops to increase the yield and improve the quality of the crops. Second, the absorption and utilization rate of fertilizer is high, thereby reducing the fertilizer cost. Third, it is possible to slow or promote the growth of crops by controlling the amount of fertilization and irrigation according to the will of the grower. Fourth, by automating irrigation and fertilizer, labor can be saved and production costs can be lowered. Fifth, by irrigating using a drip hose, the humidity in the facility is lowered to suppress the occurrence of diseases. Sixth, it is possible to delay the period of salt disturbance in the facility by adjusting the amount of fertilizer. Seventh, pesticides can be easily controlled by supplying pesticides for irrigation.

Therefore, the oxygen fertilization supply device of the proposed conventional Patent Publication No. 10-1094830 (2011.12.09) is a fertilization device for manufacturing irrigation fertilizer by mixing filtered feed water and nutrient solution fertilizer; an official fee discharge pipe connected to the management device and supplying the manufactured official fee to the cultivation area; and a dissolved oxygen supply device connected to one side of the bureau discharge pipe to supply dissolved oxygen water to the bureau flowing through the bureau discharge pipe.

However, the conventional oxygen supply system configured as described above has a complicated structure in which a control panel, a nutrient solution fertilizer tank, a water supply tank, a dissolved oxygen supply device, an oxygen dissolved water storage tank, etc. are installed and controlled by various control valves, so the operation is complex. The manufacturing cost is high and storage and movement are not free, so it is inconvenient to use, and it has problems in that it is not suitable for supplying mixed water to a small plantation by connecting it to a sprinkler or a spray hose.

Republic of Korea Patent Publication No. 10-1094830 (2011.12.09)

An object of the present invention is to solve the problems in consideration of the existing problems. Regardless of the type of water source, it is connected to an existing irrigation pipe to dilute fertilizer into water by water pressure to supply compounding water. Because of its simple structure, not only can the manufacturing cost be lowered, but it is also easy to operate by anyone, and it is convenient to use because it is stored and moved freely. It is connected to a sprinkler or spray hose to selectively supply mixed water or water to small plantations (spray). It is to provide an administrative fee supply device that can do this.

The bureaucracy supply apparatus according to an embodiment of the present invention for solving the above technical problem is a mixing tank in which a lid for fertilizer input and a lid for water drainage are installed on one side of the upper side so that the fertilizer is diluted and blended in the water supplied; a water flow control pipe coupled to horizontally pass through the center of the mixing tank, a pipe for irrigation is connected to the inlet side, and a sprinkler or a spray hose is selectively connected to the outlet side; and a switching valve installed on the inlet side of the water flow control pipe to control the water flow so that the water supplied through the irrigation pipe flows into the mixing tank or is discharged to the outside without mixing with the mixing water in the mixing tank characterized in that

As another embodiment, the fertilizer input lid and the water drainage lid of the present invention are coupled or separated by a screw fastening method through the packing, and the fertilizer input lid is installed on the upper surface adjacent to the inlet side of the mixing tank, The water drainage lid is characterized in that it is installed on the bottom surface adjacent to the outlet side of the mixing tank.

As another embodiment, the water flow control pipe of the present invention, the inlet side first flow path protruding to the outside of the mixing tank and detachably connected to the pipe for watering; an outlet-side second flow path protruding to the outside of the mixing tank and detachably connected to a sprinkler or a spray hose; a third flow path formed to extend toward the upper side in the mixing tank with respect to one side of the first flow path to introduce water supplied through the first flow path into the mixing tank according to the control of the switching valve; a fourth flow path extending to the lower side in the mixing tank with respect to one side of the second flow path to discharge the mixing water in the mixing tank to the outside through the second flow path; And water supplied through the first flow path according to the control of the switching valve is formed to extend to connect to the upper side in the mixing tank with respect to the lower side in the mixing tank and one side of the second flow path with respect to one side of the first flow path. It is characterized in that it comprises a fifth flow path for guiding to be discharged to the outside through the second flow path without mixing with the mixing water in the mixing tank.

As another embodiment, an on/off valve for controlling the discharge or blocking of water or mixing water is installed at the end of the second flow path of the present invention.

As another embodiment, the third flow path and the fifth flow path of the present invention are branched in the vertical direction from the first flow path and are formed to extend toward the inside of the mixing tank, and the fourth flow path and the fifth flow path are the second flow path It is characterized in that it is branched in the vertical direction from the extended to face the inside of the mixing tank.

As another embodiment, at the end of the fourth flow path of the present invention, a sieve for filtering suspended substances in the mixing tank not to be discharged through the fourth flow path is installed, and at the inner center of the sieve, the sieve is filtered by the suspended substances A propeller for accelerating the flow of water when the water supplied through the first flow path is returned to the fourth flow path to remove the blockage is installed.

As another embodiment, the inside of the fourth flow path of the present invention is closed or opened so that water flowing from the first flow path to the second flow path through the fifth flow path does not flow back into the mixing tank through the fourth flow path. It is characterized in that for the check valve is installed.

According to the present invention, the water supplied to the inlet side of the water flow control pipe through the existing irrigation pipe regardless of the type of water source is mixed with the fertilizer put into the mixing tank to generate diluted mixing water. At the same time, the function of spraying the compounded water to the plantation through the existing sprinkler or spray hose connected to the outlet side of the water flow control pipe, and the existing water flow control pipe connected from the inlet to the outlet without being mixed with the mixed water stored in the mixing tank Because it is a simple structure with a function of spraying water to the plantation through a sprinkler or a spray hose, it can lower the manufacturing cost, and anyone can easily operate it, and it is convenient to use because it is stored and moved freely. There is an effect of selectively and easily supplying (spraying).

1 is a configuration cross-sectional view showing a state in which water is supplied to a mixing tank in the governmental fertilizer supply device according to the present invention, diluted with fertilizer, and then discharged to the outside;
Figure 2 is a structural cross-sectional view showing a state in which water is discharged to the outside without mixing with the mixing water in the mixing tank in the bureau supply device according to the present invention;
Figure 3 is a structural cross-sectional view showing a state in which water flows back into the mixing tank in the bureau supply device according to the present invention to remove foreign substances from the sieve.

In order to fully understand the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings Figs. Embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. Accordingly, the shape of elements in the drawings may be exaggerated to emphasize a clearer description. It should be noted that the same components in each drawing are sometimes illustrated with the same reference numerals. Detailed descriptions of well-known functions and configurations determined to unnecessarily obscure the gist of the present invention will be omitted.

1 to 3, in the bureaucracy supply device according to an embodiment of the present invention, the fertilizer input lid 12 on the upper one side and the water drainage lid 14 on the lower one side so that the fertilizer is diluted and blended in the supplied water. ) is installed in the mixing tank (10); A water flow control pipe 20 coupled to horizontally pass through the center of the mixing tank 10 to connect a pipe for irrigation to the inlet side, and a sprinkler or a spray hose to the outlet side; And it is installed on the inlet side of the water flow control pipe 20 so that the water supplied through the irrigation pipe flows into the mixing tank 10 or is discharged to the outside without mixing with the mixing water in the mixing tank 10. It consists of a switching valve 30 for controlling the water flow.

That is, the fertilizer input lid 12 and the water drainage lid 14 are coupled or separated by a screw fastening method via packing, and the fertilizer input lid 12 is located at the inlet side of the mixing tank 10 . It is installed on the adjacent upper surface, and the water drainage lid 14 is preferably installed on the bottom surface adjacent to the outlet side of the mixing tank 10, respectively.

The water flow control pipe 20, the inlet-side first flow path 21 protruding to the outside of the mixing tank 10 and detachably connected to the water pipe for irrigation; an outlet-side second flow path 22 that protrudes to the outside of the mixing tank 10 and is detachably connected to a sprinkler or a spray hose; The mixing tank (10) is formed to extend toward the upper side in the mixing tank (10) with respect to one side of the first flow path (21) and supplied through the first flow path (21) according to the control of the switching valve (30). a third flow path 23 introduced therein; A fourth flow path (24) extending from one side of the second flow path (22) to the lower side in the mixing tank (10) to discharge the mixing water in the mixing tank (10) to the outside through the second flow path (22) ; And is formed to extend to connect to the upper side in the mixing tank 10 with respect to one side of the lower side in the mixing tank 10 and the second flow path 22 with respect to one side of the first flow path 21, the switching valve ( 30) in accordance with the control of the first flow passage 21, the fifth flow passage 25 that induces the water supplied through the first flow passage 21 to be discharged to the outside through the second flow passage 22 without mixing with the mixing water in the mixing tank 10. consists of

At this time, an opening/closing valve 32 is installed at the end of the second flow path 22 to control to discharge or block water or mixing water.

The third flow path 23 and the fifth flow path 25 are branched vertically from the first flow path 21 to extend toward the inside of the mixing tank 10 .

The fourth flow path 24 and the fifth flow path 25 are branched vertically from the second flow path 22 to extend toward the inside of the mixing tank 10 .

A sieve 40 is installed at the end of the fourth flow path 24 to filter so that suspended substances such as solid fertilizers or residues that are not diluted in the mixing tank 10 are not discharged through the fourth flow path 24, and , In the inner center of the sieve 40, when the water flow supplied through the first flow path 21 is returned to the fourth flow path 24 to periodically remove clogging of the sieve 40 by the filtered suspended matter A propeller 42 for accelerating the flow of water is installed.

Water flowing from the first flow path 21 through the fifth flow path 25 toward the second flow path 22 toward the inside spaced apart from the end of the fourth flow path 24 by a predetermined distance flows through the fourth flow path 24 . A check valve 34 for direction switching is installed to close or open so as not to flow back into the mixing tank 10 through the.

The selector valve 30 includes a first flow path 21 so that water supplied through the first flow path 21 selectively opens or closes any one of the third flow path 23 and the fifth flow path 25; It is provided in the boundary part where the 3rd flow path 23 and the 5th flow path 25 contact.

The selector valve 30, the on/off valve 32 and the check valve 34 are preferably provided with a control handle so that the user can operate it from the outside, of which the check valve 34 is a lid for water drainage (14). can be opened and adjusted in the mixing tank (10).

Next, the operation and effect on the excess rain supply device of the present invention configured as described above will be described.

In order to induce the flow of water in the direction indicated by the arrow shown in FIG. 1 to inject the blended water into the cultivation area, first, the switching valve so that the first flow path 21 and the third flow path 23 are opened and the fifth flow path 25 is closed. After turning on the on/off valve 32 while adjusting the 30 upwards, when water is supplied through the irrigation pipe connected to the first flow path 21, the mixing tank ( 10) The water introduced into the mixing tank 10 is mixed with the fertilizer already put in the mixing tank 10 and diluted to produce mixing water, and the mixing water in the mixing tank 10 is discharged through the fourth flow path 24 by water pressure. As it flows toward the second flow path 22 , it is sprayed into the cultivation area by a sprinkler or a spray hose connected to the second flow path 22 .

On the other hand, in order to induce the flow of water in the direction indicated by the arrow shown in FIG. 2 to spray water (irrigation) in which fertilizer is not included in the cultivation area, first the first flow path 21 and the fifth flow path 25 are opened and the third flow path is opened. After turning on the on-off valve 32 while controlling the switching valve 30 to be closed so that the 23 is closed, when water is supplied through the irrigation pipe connected to the first flow path 21, the fifth flow path Water (irrigation water) supplied through (25) flows toward the second flow path (22) without passing through the mixing water stored in the mixing tank (10), and is sprayed on the cultivation area by a sprinkler or a spray hose connected to the second flow path (22). .

And, in order to induce the flow of water in the direction indicated by the arrow shown in FIG. 3 to remove suspended substances filtered by the sieve 40 installed in the fourth flow path 24 , first the first flow path 21 and the fifth flow path 25 . ) is opened and the third flow path 23 is closed while the switching valve 30 is adjusted downwardly while the on/off valve 32 is turned OFF, the check valve 34 is turned 180°, When water is supplied through a pipe for watering connected to the 1st flow path 21, the water flow supplied through the 5th flow path 25 is returned to the 4th flow path 24, and the suspended substances attached to the sieve 40 are mixed in the mixing tank. (10) It is removed so that it is separated toward the inside.

At this time, the propeller 42 installed on the inside of the sieve 40 accelerates the flow of water while rotating by the current returned from the fifth flow path 25 to the fourth flow path 24, so it is attached to the sieve 40. Suspended substances can be separated and removed quickly.

Therefore, in the governmental fertilizer supply device of the present invention, regardless of the type of water source, the water supplied to the inlet side of the water flow control pipe 20 through the existing irrigation pipe is mixed with the fertilizer injected into the mixing tank 10. The function of generating diluted mixed water and spraying the mixed water to the cultivation area through an existing sprinkler or spray hose connected to the outlet side of the water flow control pipe 20, and not mixing with the mixed water stored in the mixing tank 10 Because it is a simple structure that has a function of spraying water to the cultivation area through a conventional sprinkler or spray hose connected from the inlet side to the outlet side of the water flow control tube 20, not only can the manufacturing cost be lowered, but also anyone can easily operate it, It is convenient to use because it is stored and moved freely, and it has the advantage of being able to selectively and easily supply (spray) mixing water or water to small-scale cultivation areas.

On the other hand, the present invention is not limited to the above-described embodiments, but can be implemented with modifications and variations within the scope without departing from the gist of the present invention, and the technical idea to which such modifications and variations are applied also falls within the scope of the following claims. have to see

10: mixing tank 12: lid for fertilizer input
14: lid for water drainage 20: water flow control pipe
21: first euro 22: second euro
23: 3rd Euro 24: 4th Euro
25: fifth flow path 30: switching valve
32: on/off valve 34: check valve
40: sieve 42: propeller

Claims (7)

a compounding tank 10 in which a fertilizer input lid 12 and a water drainage lid 14 are installed on one side of the upper side so that the fertilizer is diluted and blended with the water supplied;
a water flow control pipe 20 coupled to horizontally pass through the center of the mixing tank 10, a water pipe for irrigation is connected to the inlet side, and a sprinkler or spray hose to the outlet side; and
It is installed on the inlet side of the water flow control pipe 20 so that water supplied through the irrigation pipe flows into the mixing tank 10 or is discharged to the outside without mixing with the mixing water in the mixing tank 10 . Pipeline supply device, characterized in that it comprises a switching valve (30) for controlling the flow. The method according to claim 1,
The fertilizer input lid 12 and the water drainage lid 14 are coupled or separated by a screw fastening method via packing,
The fertilizer input lid 12 is installed on the upper surface adjacent to the inlet side of the mixing tank 10,
The water drainage lid (14) is a bureaucracy supply device, characterized in that it is installed on the bottom surface adjacent to the outlet side of the mixing tank (10). The method according to claim 1,
The water flow control tube 20,
an inlet-side first flow path 21 protruding to the outside of the mixing tank 10 and detachably connected to the irrigation pipe;
an outlet-side second flow path 22 that protrudes to the outside of the mixing tank 10 and is detachably connected to a sprinkler or a spray hose;
The mixing tank (10) is formed to extend toward the upper side in the mixing tank (10) with respect to one side of the first flow path (21) and supplied through the first flow path (21) according to the control of the switching valve (30). a third flow path 23 introduced therein;
A fourth flow path (24) extending from one side of the second flow path (22) to the lower side in the mixing tank (10) to discharge the mixing water in the mixing tank (10) to the outside through the second flow path (22) ; and
The switching valve 30 is extended to connect to the upper side in the mixing tank 10 with respect to one side of the lower side in the mixing tank 10 and the one side of the second flow path 22 with respect to one side of the first flow path 21 . ) in accordance with the control of the fifth flow path 25 that induces the water supplied through the first flow path 21 to be discharged to the outside through the second flow path 22 without mixing with the mixing water in the mixing tank 10 . Official fee supply device, characterized in that it comprises. 4. The method according to claim 3,
An on-off valve (32) for controlling the discharge or blocking of water or mixing water is installed at the end of the second flow path (22). 4. The method according to claim 3,
The third flow path 23 and the fifth flow path 25 are branched in the vertical direction from the first flow path 21 and are formed to extend toward the inside of the mixing tank 10,
The fourth flow path 24 and the fifth flow path 25 are branched in the vertical direction from the second flow path 22 and extend toward the inside of the mixing tank 10 . 4. The method according to claim 3,
A sieve 40 is installed at the end of the fourth flow path 24 to filter the suspended substances in the mixing tank 10 so as not to be discharged through the fourth flow path 24,
In the inner center of the sieve 40, the sifter 40 is supplied through the first flow path 21 to remove clogging by the filtered suspended matter, and when the water flow is returned to the fourth flow path 24, the flow of water is reduced. An accelerating propeller 42 is installed. 4. The method according to claim 3,
On the inside of the fourth flow path 24 , water flowing from the first flow path 21 to the second flow path 22 through the fifth flow path 25 flows through the fourth flow path 24 to the mixing tank 10 . A bureau supply device, characterized in that a check valve (34) for switching the direction is installed to close or open so as not to reverse flow into the interior.

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