KR20070102840A - A system for automatically supplying a liquefied fertilizer - Google Patents

Abstract

A system for automatically supplying a liquefied fertilizer is provided to supply a constant concentration of a liquefied fertilizer at all times by automatically changing the amount of a fertilizer coming into original water in a branch line according to a fertilizer concentration in a liquefied fertilizer supplied by a pump. A system for automatically supplying a liquefied fertilizer transfers a fertilizer from at least one fertilizer tank(15,16) to original water flowing in a branch line(14) and mixes the fertilizer with the original water to spray a mixture, wherein the branch lines connected to portions adjacent to an inlet and an outlet of a pump(12) are formed on an original water supply pipe(13) for supplying water to the pump from an original water tank(10). A flow control electric valve is installed on the branch line branched from a part adjacent to the outlet of the pump, wherein the flow control electric valve is configured to discharge the liquefied fertilizer through outlets(22,23) at controlled flux in mesh with a fertilizer concentration in the liquefied fertilizer discharged. At least one venturi tube(30,31) connected to the fertilizer tank is provided on a pipe(24) connected to the outlet(22) of the electric valve. The amount of the fertilizer from the fertilizer tank to be mixed with original water is automatically controlled in mesh with a fertilizer concentration in the liquefied fertilizer.

Description

Liquid system automatic feeding system {A SYSTEM FOR AUTOMATICALLY SUPPLYING A LIQUEFIED FERTILIZER}

1 is a schematic configuration diagram of a conventional liquid fertilizer supply system.

2 is a schematic configuration diagram of a liquid fertilizer automatic supply system according to the present invention.

3 is a cross-sectional view of the flow control electric valve of FIG.

Explanation of symbols on the main parts of the drawings

10: raw water tank 12: pump

14: branch pipe 15, 16: fertilizer tank

20: electric valve 22, 23: outlet

30, 31: Venturi tube 35: (electric conductivity) sensor

The present invention relates to an automatic liquid fertilizer supply system, and in particular, the liquid fertilizer is automatically supplied to the arable land, such as the open field, vinyl house, glass greenhouse, liquid fertilizer diluted at least one or more components to maintain a predetermined fertilizer concentration in raw water It's about the system.

1 is a schematic configuration diagram of a conventional liquid fertilizer automatic supply device, the liquid fertilizer automatic supply device is a raw water tank (1) containing the raw water, and the raw water contained in the raw water tank (1) by pumping the raw water supply pipe (2) Raw water supply pump (3) for supplying raw water through the fertilizer from the fertilizer tank (5) for receiving at least one liquid fertilizer component in the raw water supplied by the raw water supply pump (4) is diluted Although not shown in the drawing in the state, the arable land is to be supplied with fertilizer to the plant through a spraying means such as, for example, a sprinkler.

In order to mix the fertilizer from the fertilizer tank with the raw water supplied by the pump, a branch pipe 6 is conventionally formed in the raw water supply pipe 2 so as to communicate between the discharge side and the inflow side of the raw water supply pump 3, The branch pipe is connected to the venturi pipe (7,8) connected to the fertilizer tank (5), the fertilizer from the fertilizer tank (5) flows into the venturi pipe at a low pressure in the venturi pipe and the inlet of the raw water supply pump (4) It flows into the side raw water supply pipe 2, and fertilizer is automatically mixed with raw water by a supply pump, and it discharges as liquid ratio. At this time, the pipe between the venturi pipe (7, 8) and the fertilizer tank (5) is provided with an intermittent valve (9) for intermittently opening and closing the flow.

On the discharge side of the raw water supply pump, a signal is output to a controller (not shown) by an EC sensor 8 that measures electric conductivity (hereinafter referred to as EC) according to the concentration of fertilizer components mixed in raw water. When the concentration of the fertilizer component supplied compared to the predetermined concentration value is low, the number of openings of the control valve 9 is increased to allow more fertilizer components to flow into the raw water supply pipe through the branch pipe.

However, in the conventional liquid fertilizer supply system, since the fertilizer component is intermittently supplied from the fertilizer tank, there is a problem that the concentration of the fertilizer component in the liquid fertilizer discharged through the pump varies greatly by flow time.

That is, the EC sensor for measuring the concentration of the fertilizer component in the liquid ratio discharged by the pump is to measure the concentration of the fertilizer component in the flow when the fertilizer is supplied by the intermittent valve 9, while the intermittent valve (9) Since the fertilizer component is not supplied at the moment when) is closed, the concentration of the fertilizer component is momentarily low in the flow of the liquid fertilizer discharged by the pump at that time. Therefore, the concentration variation of the fertilizer component in the liquid fertilizer flow discharged by the pump has a problem that it is not possible to always supply a constant concentration of fertilizer to the plant.

An object of the present invention is to provide an electrical conductivity (EC) according to the concentration of the fertilizer component of the liquid fertilizer supplied by the pump in supplying the fertilizer component through the venturi to the raw water flowing through the branch pipe formed over the front and rear sides of the liquid fertilizer supply pump By controlling the valve of the branch pipe in conjunction with the change, the flow rate of raw water passing through the branch pipe is changed, and the amount of fertilizer flowing into the raw water of the branch pipe through the venturi from the fertilizer tank is automatically changed according to the pressure change in the venturi. It is to provide a liquid ratio automatic supply system that always supplies a uniform liquid ratio.

In order to achieve the object of the present invention, the liquid liquid automatic supply system according to the present invention, in the raw water supply pipe for supplying water from the raw water tank to form a branch pipe connected to the inlet and outlet portion of the pump and at least one A liquid fertilizer supply system that injects fertilizer from the fertilizer tank into the raw water flowing through the branch pipe and mixes and sprays it with the raw water to which the branch pipe is connected.The liquid fertilizer flows through the branch pipe in conjunction with the fertilizer concentration in the discharged liquid fertilizer. A flow control electric valve for discharging at a controlled flow rate is installed in a branch pipe branched from a portion adjacent to the discharge port side of the pump, and at least one venturi pipe connected to the fertilizer tank is provided in a pipe connected to the outlet of the electric valve. Fertilizer in conjunction with the flow rate of raw water discharged from the electric valve in conjunction with the liquid fertilizer concentration From croissant it is configured to characterized in that configured to automatically control the amount of fertilizer to be mixed into the raw water.

The electric valve is preferably a three-way electric valve or a two-way electric valve.

A sensor for measuring the electrical conductivity of the liquid ratio of the pump discharge side is provided, and the electric valve is configured to control the opening degree of the electric valve outlet in accordance with the output signal of the electrical conductivity sensor, if the fertilizer concentration of the liquid ratio is lower than the preset value When the opening degree of the valve is enlarged and the fertilizer concentration of the liquid fertilizer is higher than the preset value, it is preferable that the opening degree of the electric valve is controlled to be reduced.

Hereinafter, with reference to the accompanying drawings showing an embodiment of the present invention will be described in more detail the present invention.

In the liquid ratio automatic supply system according to the present invention schematically shown in FIG. 2, a branch pipe (a branch pipe) from a portion adjacent to the inlet and outlet of the pump 12 to the raw water supply pipe 13 for supplying water from the raw water tank to the pump 12. 14) and at least one, in this embodiment, the fertilizer is introduced from the two fertilizer tanks (15, 16) into the venturi tube provided in the branch pipe and introduced into the raw water through the branch pipe so that The mixed liquid fertilizer is sprayed to the arable land through a nozzle not shown in the drawings is the same as the conventional liquid fertilizer supply system.

In the liquid liquid automatic supply system according to the present invention, an electric valve, for example, a three-way electric valve (20), is installed in a branch pipe (14) branched from the raw water supply pipe on the discharge port side of the pump (12). The raw water introduced through the inlet 21 of the valve is discharged by selectively controlling the flow rate through the first outlet 22 and the second outlet 23. The inlet 21 of the three-way electric valve is connected to the raw water supply pipe on the discharge port side of the pump 12 through a branch pipe, and the first outlet 22 and the second outlet 23 are pipes 24 and 25, respectively. It is connected to the return portion 26 side of the branch pipe 14 connected to the raw water supply pipe on the suction port side of the pump 12 through.

Venturi pipes 30 and 31 for introducing fertilizer from the fertilizer tank are connected in parallel to the pipe 24 to which the first outlet 22 of the three-way electric valve 20 is connected, and the venturi pipe 30, Each of the 31 is connected to fertilizer tanks 15 and 16. Thus, when the liquid fertilizer flowing through the first outlet 22 of the three-way electric valve 20 to the pipe 24 passes through the venturi pipes 30 and 31, the fertilizer is ventilated from the fertilizer tanks 15 and 16. By flowing into the liquid rain stream passing through the pipe is mixed with the raw water on the pump inlet side through the return portion (26).

At this time, since the pressure of the venturi tube decreases in inverse proportion to the square of the increase in the flow rate of the liquid ratio in the branch pipe passing through the venturi tube, the pressure difference from the fertilizer tanks 15 and 16 to the venturi tubes 30 and 31. Liquor flows in. Therefore, as the flow rate of the three-way electric valve 20 to the first outlet 22 increases, the amount of fertilizer flowing from the fertilizer tank to the venturi tube increases, and when the flow rate to the first outlet decreases, the venturi from the fertilizer tank The amount of fertilizer entering the pipe is reduced.

Accordingly, the first outlet 22 of the three-way electric valve 20 directed to the venturi tubes 30 and 31 and the second outlet for directly returning the liquid ratio branched to the branch pipe 14 to the pump suction side from the branched raw water. By controlling the flow amount toward 23, the liquid fertilizer inflow from the fertilizer tank is controlled, so that it is possible to automatically control the fertilizer concentration spread by the pump.

3 illustrates a state in which the liquid ratio introduced into the three-way electric valve is discharged to the second outlet 23, and FIG. 4 illustrates that the liquid outlet through the branch pipe is partially opened by opening the first outlet 22 partially. Shows the state of supply to.

As such, the control of the three-way electric valve 20 for controlling the flow rate of the liquid water from the fertilizer tanks by controlling the flow of branched raw water to the venturi tubes 30 and 31 is performed by mixing fertilizer into the suction side of the pump. The fertilizer concentration of the liquid fertilizer to be sprayed is measured by the electric conductivity EC with the sensor 35 and is controlled by a controller although not shown in the figure.

That is, according to the fertilizer concentration, the electrical conductivity in the liquid fertilizer contained in the raw water is different, and the electrical conductivity value of the liquid fertilizer sprayed by the pump in advance corresponding to the required fertilizer concentration. Then, the electrical conductivity of the liquid ratio on the pump discharge side is measured by the sensor 35 and compared with the electrical conductivity value corresponding to the required fertilizer concentration set in advance by the controller. While opening the first outlet 22 further, the degree of opening of the second outlet 23 is reduced to increase the flow rate of raw water to the venturi tubes 30 and 31 so that the pressure in the venturi tube is further reduced, thereby reducing the pressure from the fertilizer tank. When the amount of fertilizer introduced is increased and the concentration of fertilizer in the liquid ratio discharged by the pump is larger than the set value, the opening degree of the first outlet 22 is decreased to reduce the amount of raw water flowing into the venturi tube. The pressure drop in the furnace is made small so that the fertilizer inflow from the fertilizer tank is reduced.

Accordingly, the first outlet 22 and the second outlet 23 of the three-way electric valve 20 are controlled by the controller in response to a signal of electrical conductivity measured by the sensor 37 with the fertilizer concentration in the liquid ratio discharged by the pump. By automatically controlling the opening degree of), the fertilizer concentration in the liquid ratio discharged by the pump is automatically controlled so that it is always kept constant at a preset value.

Reference numeral 38, which is not described in the drawings, is an on / off valve for opening and closing the pipe flowing into the venturi tube from the fertilizer tank.

In addition, instead of the three-way electric valve used in the above embodiment, a two-way electric valve without a second outlet may be used. In this case, only the opening degree of the raw water inlet and the first outlet 22 flowing through the branch pipe are controlled.

According to the present invention, the amount of liquid fertilizer discharged from the electric valve of the branch pipe is adjusted according to the fertilizer concentration of the liquid fertilizer on the discharge port side in which the fertilizer is mixed with raw water by the pump and thus the pressure in the venturi tube is continuously changed to the fertilizer tank. There is a convenience that the fertilizer inflow from the automatic control in conjunction with the fertilizer concentration in the liquid fertilizer discharged by the pump, there is an advantage that the variation in the fertilizer concentration in the liquid fertilizer discharged by the pump can be minimized, thereby Fertilizer concentration can always supply a constant liquid ratio has the advantage of maintaining a constant quality of the crop.

Claims (4)

Forming a branch pipe 14 connected to the inlet and outlet of the pump 12 in the feed water supply pipe 13 for supplying water from the raw water tank 10 to the pump 12 in the liquid ratio automatic supplying system; In the liquid fertilizer supply system in which the fertilizer from one fertilizer tank (15, 16) is sucked into the raw water flowing through the branch pipe and mixed with the raw water to which the branch pipe is connected, the liquid fertilizer supply system is connected to the fertilizer concentration in the discharged liquid fertilizer Branch pipe 14 branched from the portion adjacent to the discharge port side of the pump 12, the flow control electric valve 20 to discharge the liquid ratio introduced through the engine 14 at a controlled flow rate through the outlet (22, 23) And at least one venturi pipe (30, 31) connected to the fertilizer tanks (32, 33) is provided in the pipe (24) connected to the outlet (22) of the electric valve (20). To the flow rate of raw water discharged from the electric valve 20 Copper to liquid ratio automatic supply system, characterized in that is configured to automatically control the amount of fertilizer to be mixed into the raw water from a manure tank 32,33. The liquid ratio automatic supply system according to claim 1, wherein the electric valve (20) is a three-way electric valve. The liquid ratio automatic supply system according to claim 1, wherein the electric valve (20) is a two-way electric valve. The sensor 35 according to any one of claims 1 to 3, wherein a sensor 35 for measuring the electrical conductivity of the liquid ratio on the pump discharge side is provided, and the electric valve allows the opening degree of the electric valve outlet to be controlled according to the output signal of the electric conductivity sensor. And when the fertilizer concentration of the liquid fertilizer is lower than a predetermined value, the outlet side opening of the electric valve is enlarged. If the fertilizer concentration of the liquid fertilizer is higher than the preset value, the outlet side opening of the electric valve is reduced.

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