KR101094830B1 - Apparatus for supplying oxygen into fertigation - Google Patents

Abstract

PURPOSE: An oxygen fertilizer feeder is provided to improve activation of crop root respiration by increasing dissolved oxygen of culture medium. CONSTITUTION: An oxygen fertilizer feeder comprises: a water supply unit supplying water; an oxygen supply unit supplying oxygen; an oxygen melting unit manufacturing oxygen dissolved water; a melt oxygen supply device(300) equipped with a branch pipe discharging the oxygen dissolved water; a water pipe supplying filtered water; an oxygen dissolved water storage tank(400) equipped with a control valve; an ozone water supply device supplying ozone water; a discharge pipe(500) supplying ozone water and oxygen dissolved water to culture medium; a fertilizing device which supplies fertilizer to ozone water and oxygen dissolved water.

Description

Apparatus for Supplying Oxygen into Fertigation}

The present invention relates to an oxygen fertilizer supply device, and more particularly, by mixing oxygen with fertilizer nutrient solution and simultaneously supplying nutrient solution and oxygen to the plantation so as to increase the dissolved oxygen content of the plantation so as to enhance the activation of crop root respiration. It relates to an oxygen tube ratio supply device.

In general, since horticultural crops have different amounts and moisture requirements for proper growth according to crops or growing seasons, good soil growth can be expected only when soil moisture and fertilization are adjusted according to crop characteristics.

In the cultivation method of the horticultural crops, the cultivation (Fertigation) cultivation using the comparison (mass elements and trace elements) contained in the soil by performing irrigation and fertilizer on the arable land simultaneously, and clay and organic matter It is a farming method that is grown using the buffering capacity of the plant.

The advantages of this fertilization are firstly, water and fertilizer are properly supplied to the crop to increase the yield of crops and to improve the quality. Second, the fertilizer absorption rate is high, reducing the fertilizer price. Third, according to the will of the grower, the amount of fertilization and irrigation can be controlled to slow down or promote the growth of crops. Fourth, by automating watering and fertilization can reduce labor and production costs can be lowered. Fifth, water droplets are used to reduce the humidity in the facility by irrigation to prevent disease. Sixth, the amount of fertilization can be adjusted to delay the period of salt disturbance in the facility. Seventh, it can easily control pests by supplying irrigation pesticides.

On the other hand, the disadvantage of the fertilization cultivation is that the soil is replaced with a solution, the oxygen absorbed into the root zone pores is closed and depends on the dissolved oxygen present in the solution, the dissolved oxygen in the dissolved solution is limited, the oxygen is insufficient when dissolved The phenomenon appears there is a problem that can worsen various physiological functions due to the deactivation of root respiration.

The present invention has been made to solve the conventional problems,

It is an object of the present invention to provide an oxygen fertilizer supplying device for increasing the dissolved oxygen of the plantation by increasing the dissolved oxygen of the plantation by dissolving oxygen in the fertilization nutrient solution at the same time supplying the nutrient solution and oxygen to the plantation.

In addition, it is an object of the present invention to provide an oxygen tube fertilizer supply apparatus that can maximize the dissolution rate of oxygen dissolved in the fertilizer nutrient solution to the maximum supply of dissolved oxygen to the plantation.

Oxygen tube fertilizer supply apparatus according to an embodiment of the present invention provided to achieve the above object is a tube fertilizer to produce a fertilizer by mixing the filtered feed water and nutrient fertilizer; A pipe-spout discharge pipe connected to the pipe-spray device for supplying the pipe fee manufactured to the plantation site; And a dissolved oxygen supply device connected to one side of the tube discharge pipe to supply oxygen dissolved water to the tube flow flowing through the tube discharge pipe.
Here, the tube discharge pipe is characterized in that the ozone water supply device for supplying ozone water to the pipe ratio flowing through the pipe discharge pipe.

Oxygen tube ratio supply apparatus according to another embodiment of the present invention is dissolved oxygen supply device for producing oxygen dissolved water; A water supply pipe for supplying filtered water; Oxygen dissolved water is supplied from the dissolved oxygen supply device, water is supplied from the water supply pipe to adjust the concentration of the dissolved oxygen water, and the oxygen dissolved water is stored to increase the dissolved rate of oxygen by mixing the dissolved oxygen dissolved water. Tank; A discharge pipe connected to the oxygen dissolved water storage tank to supply oxygen dissolved water to a plantation; And it is connected to one side of the discharge pipe characterized in that it comprises a pipe ratio device for supplying a pipe ratio to the dissolved oxygen flowing in the discharge pipe.

Here, the oxygen dissolved water storage tank is connected to the branch pipe of the dissolved oxygen supply device on the upper side, the water supply pipe to which the filtered water is supplied to the other side is connected, the water level for detecting the water level of water supplied to the inner side wall A sensor is provided, and a mixing member for mixing oxygen dissolved water is provided at the center of the inside, and the branch pipe and the water supply pipe have a control valve for automatically adjusting the water supply and the oxygen dissolved water supply according to the signal of the water level sensor. Characterized in that made up.

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In addition, the ozone water supply device for supplying ozone water is connected to the oxygen dissolved water storage tank, the branch pipe of the ozone water supply device is characterized in that the control valve for automatically adjusting the supply of ozone water in accordance with the signal of the water level sensor is provided. .

The dissolved oxygen supply device is connected to the water supply unit for supplying water, the oxygen supply unit for supplying oxygen, the water supply unit and the oxygen supply unit to dissolve water supplied from the water supply unit and oxygen supplied from the oxygen supply unit. It is characterized in that it is provided with an oxygen dissolving unit for producing oxygen dissolved water, and a branch pipe for discharging the oxygen dissolved water produced in the oxygen dissolving unit.

And, the fertilizer device is connected to the water supply pipe for supplying the filtered water is connected to the upper side, and the nutrient solution fertilizer supply pipe is connected to the other side to supply the nutrient fertilizer, in front of the various function keys for automatic management of the fertilizer It is characterized in that the control panel consisting of a touch screen is applied to apply a color LCD.

According to the oxygen fertilization supply device of the present invention, by dissolving oxygen in the fertilization nutrient solution to supply the nutrient solution and dissolved oxygen to the plantation at the same time to increase the dissolved oxygen of the plantation to solve the disadvantages of fertility cultivation by promoting the activation of crop root respiration It works.

In addition, oxygen dissolved water produced by the dissolved oxygen supply device can be stored in the oxygen dissolved water storage tank to adjust the concentration and mix to maximize the dissolved rate of oxygen, and then supply it to the plantation with a tube ratio to maximize the dissolved oxygen content of the plantation. It has an effect.

In addition, by dissolving the soil by supplying ozone water with dissolved oxygen and tube charges, there is an effect of suppressing harmful nematodes and harmful soil pathogens in the soil and increasing utilization efficiency of farmland.

1 is a view schematically showing the configuration of the oxygen tube ratio supply apparatus according to an embodiment of the present invention,
2 is a perspective view showing the configuration of the oxygen tube ratio supply apparatus according to an embodiment of the present invention,
3 is a view showing an example of the oxygen dissolution supply apparatus in the oxygen tube ratio supply apparatus according to an embodiment of the present invention,
4 is a view schematically showing the configuration of the oxygen tube ratio supply apparatus according to another embodiment of the present invention, and
5 is a perspective view showing the configuration of the oxygen tube ratio supply apparatus according to another embodiment of the present invention.

The above objects, features and other advantages of the present invention will become more apparent by describing the preferred embodiments of the present invention in detail with reference to the accompanying drawings. Hereinafter, an oxygen tube ratio supply apparatus according to an exemplary embodiment of the present invention will be described in detail with reference to the accompanying drawings. For the purposes of this specification, like reference numerals in the drawings denote like parts unless otherwise indicated.

1 is a view schematically showing the configuration of the oxygen tube ratio supply apparatus according to an embodiment of the present invention, Figure 2 is a view showing a configuration of the oxygen tube ratio supply apparatus according to an embodiment of the present invention in a perspective view. .

As shown in Figure 1, Figure 2 of the present invention is to provide a planting device 100 and a fertilizer produced by mixing the filtered feed water and nutrient fertilizer and the fertilizer produced by connecting to the planting device 100 to the plantation Is connected to the pipe discharge pipe 200 and the dissolved oxygen supply device 300 and the pipe discharge pipe connected to one side of the pipe discharge pipe 200 to manufacture and supply oxygen dissolved water to the pipe flow flowing through the pipe discharge pipe (200) It comprises an ozone water supply unit 350 for supplying ozone water to the tube ratio flowing through the tube discharge pipe.

The fertilization device 100 improves the problems of farming failure due to inadequate nutrient solution mixing ratio until the grower directly acquires the amount of nutrient solution for each crop at the expert level when mixing the nutrient solution raw material supplied as nutrients of plants, Even if you do not have expert knowledge of the nutrients supplied to plants, the amount of nutrient fertilizer is automatically adjusted according to the characteristics of each crop so that anyone can farm in an easy way.

The fertilizer device 100 is a device for producing a fertilizer by mixing water and nutrient fertilizer, the water supply pipe 110 for supplying filtered water to one side of the upper is connected, the nutrient solution fertilizer supply pipe for supplying nutrient fertilizer to the other side 120 is connected, the front is provided with a control panel 130 for controlling the supply of water supplied to the water supply pipe and nutrient fertilizer supplied to the nutrient fertilizer supply pipe.

Here, the water supply pipe 110 of the pipe apparatus 100 is connected to a water tank or groundwater, etc., the pump supplying water to the groundwater or water tank in the water supply pipe 110 and the pump 140 Filter 150 may be provided to filter the water drawn by. In addition, the water supply pipe is provided with a valve 160 controlled by the control panel 130 to adjust the amount of water supplied.

In addition, the nutrient fertilizer supply pipe 120 is connected to the nutrient fertilizer tank 170 for storing the nutrient fertilizer. In addition, the nutrient fertilizer supply pipe 120 is also provided with a valve 180 controlled by the control panel 130 to adjust the amount of nutrient fertilizer supply.

 The control panel 130 is provided with a touch screen to which a color LCD is applied.

The control panel 130 has an irrigation selection function to maintain the optimum moisture state of solar radiation by adopting a clear / cloudy watering, EC / pH setting function to set the EC / pH value per zone, irrigation amount and irrigation frequency of 15 days, etc. Watering report function to store and report watering information, nutrient solution alarm function to stop alarm occurrence and operation when it is out of setting range by setting EC / pH high / low value, and output test to test water supply, irrigation pump and various outputs Functions, one-touch emergency watering function for easy one-time watering over time, one-touch pause function for stopping operation in case of emergency, and error message function to output error details and countermeasure screen in case of system error The function keys are provided to automatically manage the video expense device.

The lower side of the tube apparatus 100 is connected to the tube of the discharge pipe for supplying the manufactured tube to the plantation, and the tube of the tube of the discharge pipe 200 connected to the tube of the device 100 in the tube of the control device 100 A pipe ratio discharge valve 210 for controlling the supply of the manufactured tube ratio is provided.

In addition, the pipe discharging pipe 200 is connected to the dissolved oxygen supply device 300 for manufacturing and supplying oxygen dissolved water to the rear position of the pipe discharge valve 210.

The dissolved oxygen supply device 300 is connected to a water supply unit 310 for supplying water, an oxygen supply unit 320 for supplying oxygen, a water supply unit 310 and an oxygen supply unit 320, and a water supply unit 310. Oxygen dissolving unit 330 for dissolving the water supplied from the oxygen and oxygen supplied from the oxygen supply unit 320 to produce oxygen dissolved water, and oxygen dissolved water prepared in the oxygen dissolving unit 330 to the tube discharge pipe 200 It is provided with a branch pipe 340 to supply.

Here, the water supply unit 310 may supply water filtered by pumping ground water or may supply water from a water tank. The oxygen supply unit 320 may be an oxygen generator that generates oxygen or an oxygen tank in which oxygen is stored.

The oxygen dissolving unit 330 is preferably provided with oxygen dissolved water having a high dissolved oxygen amount to increase the contact rate of the supplied water and oxygen to the maximum.

Here, the oxygen dissolving unit 330 is spaced at a predetermined distance from the rear end of the impeller 332 and the plurality of impeller 332 driven by the motor 331 as shown in Figure 3 the impeller 332 Water spraying plate 333 for spraying the water passing through), and a plurality of partition plates 334 are provided spaced apart from the rear end of the water spraying plate 333 and the aeration generating plate installed between the partition plate (334) 335, a mixing unit 337 including a flow guide plate 336 disposed at a rear end of the last partition plate among the partition plates 334, and a residence time of water discharged from the mixing unit 337 is extended. It is provided with a stabilization guide portion 339 provided with a plurality of guide plates 338 therein at regular intervals to lengthen the contact time with the oxygen to stably induce dissolved oxygen dissolved water rich in dissolved oxygen. desirable.

In addition, the oxygen dissolving unit 330 is more effective in increasing the amount of dissolved oxygen to be installed horizontally rather than vertically installed to increase the contact rate of water and oxygen.

Meanwhile, the ozone water supply device 350 for preparing and injecting ozone water may be connected to the pipe discharge pipe 200.

Here, the ozone water disinfects the soil and soon turns into oxygen. In addition, the ozone water disinfects the soil and prevents and inhibits serial damage and rooting diseases, which are referred to as root nematodes and root-knot pathogens, and crustal diseases, which occur just before harvest. And since sterilization of soil that takes many years before cultivation increases not only the utilization efficiency of farmland but also soil sterilization with ozone water during cultivation period, it can suppress harmful nematodes and harmful soil pathogens in soil. Even economical.

Therefore, the ozone water supply device is connected to the pipe discharge pipe through which the pipe fee and the oxygen dissolved water are discharged to further inject ozone water to have a sterilizing effect on the soil, while also having an oxygen supply effect as the ozone is changed into oxygen later. have.

One embodiment of the present invention made of the above configuration in the fertilizer device 100 after mixing the water and nutrient fertilizer to prepare the tube, and discharges to the tube discharge pipe 200 to supply the manufactured tube to the plantation.

Subsequently, in the dissolved oxygen supply device 300, the dissolved oxygen is supplied with a pipe ratio discharge pipe 200 in which a dissolved oxygen supply water having a high dissolved oxygen is produced to increase the contact ratio of the supplied water and oxygen to the maximum and is supplied to the pipe discharge pipe 200 through which the pipe ratio is discharged. Oxygen will be supplied to the plantation.

Subsequently, in the ozone water supply device connected to the pipe discharge pipe, ozone water is produced and supplied to the pipe discharge pipe where the pipe cost and the dissolved oxygen are discharged, so that the ozone water is supplied to the plantation along with the pipe fee and the dissolved oxygen to disinfect the soil and later change to oxygen. Increase the effect of supply That is, by increasing the dissolved oxygen of the plantation to promote the activation of crop root respiration.

4 is a view schematically showing a configuration of the oxygen tube ratio supply apparatus according to another embodiment of the present invention, Figure 5 is a view showing a configuration of the oxygen tube ratio supply apparatus according to another embodiment of the present invention in a perspective view. .

4 and 5, another embodiment of the present invention is a dissolved oxygen supply device for producing oxygen dissolved water 300, a water supply pipe 410 for supplying filtered water and the dissolved oxygen supply device Oxygen dissolved water storage tank receives oxygen dissolved water from the 300 and receives water from the water supply pipe 410 to adjust the concentration of the oxygen dissolved water and to mix the dissolved oxygen dissolved water to increase the oxygen dissolution rate. 400, the discharge pipe 500 is connected to the oxygen dissolved water storage tank 400 for supplying oxygen dissolved water to the plantation, and connected to one side of the discharge pipe 500 to the dissolved oxygen flowing in the discharge pipe 500 It includes a tube apparatus 100 for supplying the tube ratio.
Here, the dissolved oxygen supply device 300 is made of the same configuration as in one embodiment, the branch pipe 340 connected to the dissolved oxygen supply device 300 is connected to the upper one side of the oxygen dissolved water storage tank 400 do. In addition, the branch pipe 340 is provided with an automatic control valve 430 controlled by the signal of the water level sensor 420 to be described later.
The water supply pipe 410 is connected to the other upper portion of the oxygen dissolved water storage tank 400 to supply the filtered water to the oxygen dissolved water storage tank 400.
The water supply pipe 410 is connected to a water tank or ground water, and the water supply pipe 410 filters the water drawn by the pump 440 and the pump 440 that draws water from the ground water or the water tank. A filter 450 is provided. In addition, the branch pipe 410 is provided with an automatic control valve 430 controlled by the signal of the water level sensor 420 to be described later.
The oxygen dissolved water storage tank 400 is provided with a water level sensor 420 for detecting the water level of the water supplied to the inner side wall, the mixing member 425 for mixing the oxygen dissolved water in the center of the interior.
The oxygen dissolved water storage tank 400 receives oxygen dissolved water from the dissolved oxygen supply device 300 and receives water from the water supply pipe 410 to receive a predetermined level, and the water level sensor 420 detects this. By sending a signal to the automatic control valve 430 of the branch pipe 340 and the water supply pipe 410, the automatic control valve 430 receives the signal of the water level sensor 420 to stop the supply of oxygen dissolved water and water. That is, the dissolved oxygen dissolved water is diluted with water to adjust the concentration of the dissolved oxygen water. In addition, the mixing member 425 mixes the oxygen-dissolved water whose concentration is controlled to increase the contact ratio between water and oxygen to the maximum, thereby increasing the oxygen dissolution rate. Here, the mixing member 425 is applied to the impeller provided in the oxygen dissolving unit 330 of one embodiment.
On the other hand, the oxygen dissolved water storage tank 400 may be further connected to the ozone water supply device 350 for supplying ozone water. Here, the ozone water supply device 350 may be an ozone generator for generating ozone or an ozone water storage tank for preparing and storing ozone as ozone water.
A branch pipe 351 connected to the ozone water supply device 350 is connected to the oxygen dissolved water storage tank 400.
Accordingly, the oxygen dissolved water storage tank 400 adjusts the concentration by diluting the supplied oxygen dissolved water and ozone water with water, and mixes the adjusted oxygen dissolved water and ozone water with the mixing member 425 to increase the contact ratio. This increases the dissolution rate of oxygen and the sterilizing power of ozone to the maximum.
The lower side of the oxygen dissolved water storage tank 400 is connected to the discharge pipe 500 for supplying the dissolved dissolved oxygen and ozone water to the cultivation site to the maximum, the discharge pipe 500 to the discharge of oxygen dissolved water A control valve 510 for controlling is provided.

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In addition, the discharge pipe 500 is connected to the pipe ratio discharge pipe 200 of the pipe ratio device 100 for manufacturing and supplying the pipe ratio to the rear position of the control valve 510.

Here, the pipe ratio device 100 is made of the same configuration as the embodiment, the control pipe discharge pipe 200 is provided with a control valve for controlling the supply of the pipe ratio.

On the other hand, the oxygen tube ratio supply device is provided with a control means (not shown in the figure) for controlling a pump, a filter, a water level sensor and a control valve of each part, the control means may be connected to a microcomputer.

Another embodiment of the present invention having the above configuration is to supply the oxygen dissolved water and ozone water produced in the dissolved oxygen supply device 300 to the oxygen dissolved water storage tank 400, the oxygen dissolved water Dilute with water in the storage tank 400 to adjust the concentration, and then mix the dissolved oxygen and ozone water with the adjusted concentration with the mixing member 425 to increase the contact rate of water, oxygen and ozone water, and the dissolution rate of oxygen and the sterilization power of ozone. After raising as much as possible, it is supplied to the plantation through the discharge pipe (500). In addition, after the water and nutrient fertilizers are mixed in the tube fertilizer 100 to prepare the tube ratio, the manufactured tube ratio is supplied to the discharge pipe 500 through which oxygen dissolved water and ozone water are discharged, and the oxygen dissolved water and ozone water together with the plantation site. To be supplied.

Accordingly, another embodiment of the present invention is to promote the activation of crop root respiration by supplying the plantation by mixing oxygen dissolved water having a high dissolved oxygen amount, ozone water for sterilizing the soil, and the ratio of providing nutrients to the plantation, harmful soil pathogens And the like.

While preferred embodiments of the present invention have been described above, the present invention is not limited to the above-described specific embodiments. That is, those skilled in the art to which the present invention pertains can make many changes and modifications to the present invention without departing from the spirit and scope of the appended claims, and all such appropriate changes and modifications Equivalents should be considered to be within the scope of the present invention.

100: water pipe 110: water supply pipe
120: nutrient fertilizer supply pipe 130: control panel
140: pump 150: filter
160, 180: valve 170: nutrient fertilizer tank
200: pipe discharge pipe 210: pipe discharge valve
300: dissolved oxygen supply device 310: water supply unit
320: oxygen supply unit 330: oxygen dissolution unit
340: branch pipe 400: oxygen dissolved water storage tank
410: water supply pipe 420: water level sensor
430: control valve 440: pump
450: filter 500: discharge pipe
510: control valve

Claims (7)

delete Oxygen to produce oxygen dissolved water by dissolving the water supplied from the water supply unit and the oxygen supply unit for supplying water, the oxygen supply unit for supplying oxygen, the water supply unit and the oxygen supply unit and the oxygen supplied from the oxygen supply unit Dissolved oxygen supply device which is provided with a dissolution unit and the branch pipe for discharging the oxygen dissolved water produced in the oxygen dissolving unit;
A water supply pipe for supplying filtered water;
The branch pipe of the dissolved oxygen supply device is connected to the upper one side, the water supply pipe to which the filtered water is supplied to the upper other side is connected, and a water level sensor for detecting the water level of the water supplied to the inner side wall, the center of the inside An oxygen dissolved water storage tank having a mixing member for mixing oxygen dissolved water in the mixing pipe, wherein the branch pipe and the water supply pipe have a control valve for automatically controlling water supply and oxygen dissolved water supply according to a signal of the water level sensor;
An ozone water supply device connected to the oxygen dissolved water storage tank to supply ozone water;
A discharge pipe connected to the oxygen dissolved water storage tank and supplying ozone water and oxygen dissolved water to a plantation site; And
An apparatus for supplying oxygen pipe ratios, comprising: a pipe ratio device connected to one side of the discharge pipe and supplying a pipe ratio to ozone water and oxygen dissolved water flowing through the discharge pipe. The method of claim 2,
The fertilizer is connected to a water supply pipe for supplying filtered water, and a nutrient fertilizer supply pipe for supplying nutrient fertilizer, and is provided with a control panel consisting of various function keys for automatically managing the fertilizer in front and a touch screen to which color LCD is applied. Oxygen tube ratio supply, characterized in that. delete delete delete delete

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