KR100884261B1 - Nullity Agricultural Chemicals Greenhouse Sterilizer - Google Patents

Abstract

The present invention relates to a pesticide-free greenhouse sterilizer using a high concentration of ozone water, and more particularly, an ozone generator (10) is inserted into the discharge tube and the stainless pipe is inserted into the cylinder tube and coupled to the injector pump; An injector pump 20 for compressing the ozone gas generated by the ozone generator 10 and supplying the ozone gas to the injection nozzle 30 through the ozone gas supply pipe 21; A water treatment apparatus 40 in which magnetic devices 41 are formed in pairs above and below so that the ground water supplied through the well is activated into use water; Located at the bottom of the intersection 51 of the mixer, the injection nozzle 30 including a plurality of injection holes 31 to inject the ozone gas supplied from the ozone gas supply pipe 21 to the intersection 51; Coupled with the water treatment apparatus 40 and the injection nozzle 30, the diameter of the cross-section on both sides of the cross-section of the cross-section 51 is coupled to the injection port 31 of the injection nozzle 30 is wide A mixer 50; A pressure pump 60 coupled to the rear end of the mixer 50 to pump the mixed water into the dissolution pipe 70 through the inlet pipe 61; A dissolution pipe 70 having a partition wall 73 formed by alternately coupling a plurality of plates longer than half of a dissolution pipe inner length with the dissolution pipe inner top and bottom; A transfer hose 75 connected to the dissolution pipe 70 to transfer sterilization water to a sterilization position; An injection pump 80 connected to the transfer hose 75 and mounted in the ultrafine particle spreader 90 to provide injection pressure; It is mounted on the monorail 100 and formed of a plurality of spray holes 91 and the ultra-fine particle spreader 90 for spraying the sterilization water; Unmanned automatic spraying of high concentration ozone water, including monorail 100 installed in the greenhouse and attached to the ultra-fine particle spreader 90, removes germs and viruses with minimum cost and labor to eliminate diseases and pollution in the greenhouse. At the same time, it can prevent the harm caused by spraying pesticides.

Ozone sterilization water, greenhouse sterilization, greenhouse air sterilizer, pesticide free

Description

Nullity Agricultural Chemicals Greenhouse Sterilizer

1 is a schematic diagram of a pesticide-free greenhouse sterilizer according to an embodiment of the present invention.

2 is a cross-sectional view of a water treatment apparatus according to an embodiment of the present invention.

3 is a cross-sectional view of a mixer according to an embodiment of the present invention.

4 is a cross-sectional view of a dissolution tube according to an embodiment of the present invention.

5 is a state diagram used in accordance with an embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

10: ozone generator 11: control switch

12: timer 20: injector pump

21: ozone gas supply pipe 30: injection nozzle

31: injection hole 40: water active treatment device

41: magnetic device 42: cylinder

50: Mixer 51: Intersection

52: mixing point 60: pressure pump

61: inlet tube 70: melting tube

71: pressure gauge 72: pressure sensor

73: compartment wall 74: pressure regulating valve

75: transfer hose 80: injection pump

90: ultra-fine particle sprayer 91: spray hole

92: on / off switch 100: monorail

The present invention relates to a pesticide-free greenhouse sterilizer using a high concentration of ozone water, and more particularly, to obtain a high concentration of ozone water by mixing the ozone bubble having a small particle size to increase the dissolution rate and the raw water to increase the dissolving power, and install a rail By unmanned automatic spraying using ultra-fine particle spreader in a greenhouse, it is a sterilization device that completely kills germs and viruses with minimum cost and labor to eliminate diseases and pollution in the greenhouse.

Conventional sterilization apparatus using ozone has a utility model registration publication "clean environment maintenance device of the barn using ozone water", the ozone water used to maintain the clean environment of the barn of the above design is ozone (O ₃ ) and a solution made by contacting the ozone (O ₃ ) with water, using a water tank bubble device to generate the ozone water. The above design removes odors and dust by spraying ozone water into the barn room, sterilizes various bacteria and viruses floating in the room, and also evaporates to control humidity. However, in the above invention, the water tank bubble device for generating ozone water generates ozone water at a low concentration, and the ozone water at low concentration has a problem of lowering sterilization power.

In order to solve the above problems, a sterilization apparatus using a high concentration has been devised, but there is a shortage of spraying power to send a high concentration of ozonated water to a greenhouse or a barn, and there is a disadvantage of not maintaining a high concentration in a range that does not harm crops.

Accordingly, it is an object of the present invention to provide a greenhouse sterilizer which completely sterilizes bacteria and viruses without harm to crops by using a device for producing high concentration ozone water.

Another object of the present invention is to provide a sterilization apparatus for simply disinfecting rock wool and pearlite by supplying high concentration ozone water to a water supply pipe of a hydroponic cultivation apparatus.

Still another object of the present invention is to provide a greenhouse sterilization apparatus which enables unmanned automatic spraying of ultra-fine particle spreader by installing rails in a greenhouse, which can be sterilized with minimal cost and labor and at the same time minimizes adverse effects on human body during ozone spraying. .

In order to achieve the above object, the pesticide-free greenhouse sterilizer includes: an ozone generator (10) having a cylindrical tube inserted therein and a discharge tube and a stainless pipe inserted therein and coupled with an injector pump; An injector pump 20 for compressing the ozone gas generated by the ozone generator 10 and supplying the ozone gas to the injection nozzle 30 through the ozone gas supply pipe 21; A water treatment apparatus 40 in which magnetic devices 41 are formed in pairs above and below so that the ground water supplied through the well is activated into use water; Located at the bottom of the intersection 51 of the mixer, the injection nozzle 30 including a plurality of injection holes 31 to inject the ozone gas supplied from the ozone gas supply pipe 21 to the intersection 51; Coupled with the water treatment apparatus 40 and the injection nozzle 30, the diameter of the cross-section on both sides of the cross-section of the cross-section 51 is coupled to the injection port 31 of the injection nozzle 30 is wide A mixer 50; A pressure pump 60 coupled to the rear end of the mixer 50 to pump the mixed water into the dissolution pipe 70 through the inlet pipe 61; A dissolution pipe 70 having a partition wall 73 formed by alternately coupling a plurality of plates longer than half of a dissolution pipe inner length with the dissolution pipe inner top and bottom; A transfer hose 75 connected to the dissolution pipe 70 to transfer sterilization water to a sterilization position; An injection pump 80 connected to the transfer hose 75 and mounted in the ultrafine particle spreader 90 to provide injection pressure; It is mounted on the monorail 100 and formed of a plurality of spray holes 91 and the ultra-fine particle spreader 90 for spraying the sterilization water; It is installed in a greenhouse and is characterized in that it comprises a monorail 100 which is attached to the ultra-fine particle spreader 90 is moved.

In addition, the dissolution pipe 70 is a pressure gauge (71) indicating the internal pressure of the dissolution pipe, a pressure control valve (74) for adjusting the transfer amount of sterilizing water at the end of the dissolution pipe, and the internal pressure of the dissolution pipe than the predetermined pressure It is characterized in that it comprises a pressure regulator (72) to stop the ozone generation when higher.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described to be easily carried out by those of ordinary skill in the art. In the accompanying drawings, it is to be noted that the same reference numerals as shown in the configuration or action, the same reference numerals are used as much as possible when indicating the same configuration or action in the other drawings. In addition, in describing the present invention below, when it is determined that a detailed description of a related known function or known configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Schematic diagram of a pesticide-free greenhouse sterilizer shown in FIG.

According to the schematic diagram, the pesticide-free greenhouse sterilizer is made as follows.

First, ozone is generated from high pressure oxygen or air using the ozone generator 10. The ozone generator 10 is an air-cooled ozone generator for cooling the discharge tube with air, and is more convenient to use than a conventional water-cooled ozone generator. The water-cooled ozone generator inserts a discharge tube of a glass tube between a high voltage electrode and a ground electrode to apply an alternating current high voltage, while air or oxygen enters through the air inlet and passes through the discharge tube to the ozone discharge port. In this way, the water-cooled ozone generator is space-constrained because of the use of water, and it is difficult to operate the equipment. The air-cooled ozone generator which does not have the above problems is coated with silver plating or silver foil at a certain distance from both ends of the discharge tube, and a ground wire is installed at the center of the silver plating, and a ground wire is installed on the discharge tube, and coated with silver plating outside the ground wire. A stainless steel pipe is inserted into the discharge tube, and a high voltage electrode is installed in the stainless pipe to apply an AC high voltage. In the interior of the discharge tube, discharge occurs and electrons emitted from the electrode of the stainless pipe collide with oxygen molecules of air or oxygen to dissociate oxygen into an atomic state, and the oxygen molecules in the state react with oxygen atoms to generate ozone. At the rear end of the stainless pipe, a cylindrical tube is inserted to be coupled to the injector pump 20 to transfer the generated ozone to the injector pump 20.

The present invention sprays the ozone gas generated in the ozone generator 10 in the injection nozzle 30 to form micro bubbles that are fine droplets. In order for the ozone gas injected into the injection nozzle 30 to be a micro bubble, the ozone gas has to be pushed to the injection hole 31 at a strong pressure, and the injector pump 20 receives the ozone gas generated from the ozone generator 10. The suction is pushed to the injection hole 31 of the injection nozzle 30 at a pressure of about 2.8kg / ㎠. The ozone gas pressurized by the injector pump 20 is moved to the injection nozzle 30 through the ozone gas supply pipe 21 so as to be mixed with the water used in the mixer 50 to generate micro bubbles as described below. The microbubble is a drop made of ozone in a micro size and is referred to as an "ozone bubble".

The injection nozzle 30 injects the compressed ozone gas transmitted from the ozone gas supply pipe 21 to the mixer 50, and a plurality of injection holes 31 are formed at the end of the injection nozzle to enable injection. The injection nozzle 30 has a shape that gradually decreases in diameter while going from the injector pump 20 side to the injection hole 31 side. The injection nozzle 30 injects ozone gas into the use water at a strong pressure provided by the injector pump 20 to generate micro bubbles, while the water is reversed into the ozone generator even when the ultra-fine particle spreader 90 is stopped. To prevent (逆水). The finer the diameter of the injection port, the smaller the buoyancy of ozone gas, so that it is easy to mix with the used water, and the surface area is wide, so that it is easily dissolved.

As shown in FIG. 1, groundwater (raw water) supplied through a well is transferred to the water active treatment device 40. The water treatment apparatus 40 shown in FIG. 2 is configured to be paired vertically in the cylinder 42 to insert a plurality of magnetic devices 41 which generate a strong magnetic field so that the same magnetic poles face each other. Consists of. The groundwater supplied from the well passes through the magnetic field, and the negative and positive charged particles are separated from the water molecule cluster (cluster), so that the solubility increases, so that the water quality of the groundwater (raw water) becomes uniform, that is, 'used water'. .

The ozone gas generated from the ozone generator 10 is strongly supplied to the injection nozzle 30 at a pressure provided by the injector pump 20, is ejected from the injection port 31 of the injection nozzle 30, and becomes an ozone bubble. The ozone bubble in which the ozone gas is changed and the water used to increase the dissolving power through the water active treatment device 40 are completely mixed in the mixer 50. An embodiment of the mixer 50 is shown in FIG. 3. Mixer 50 is composed of a cross point 51 and the mixing point 52, the volume of the cross point 51 where the use water transferred from the water treatment apparatus 40 and the micro ozone bubble supplied from the injection port 31 meets Is very small and then the volume of the mixing point 52 is sharply increased. From the above configuration, the ozone bubble injected from the injection port 31 and the used water transferred from the water treatment apparatus 40 have a very high moving speed at the cross point 51 and move quickly to the mixing point 52. The mixing point 52 has a volume larger than that of the crossing point 51 to lower the moving speed of the used water and the micro ozone bubble and make the mixed water completely mixed with the particles.

The mixed water is supplied to the spraying position through the dissolution pipe 70 at the pressure provided by the pressure pump 60, the pressure pump 60 is rotated in the tube and the cylinder groove is formed, the rotary disk The disk is rotated by engaging the gear with a rotating cap inserted into an outer diameter of the disk and having an inner diameter gear, a disk integrally formed with a piston flowing into the cylinder groove, and an inner diameter gear rotated by inserting a gear into the shaft of the disk. The piston is configured to act as an intake and exhaust in the cylinder groove, and the suction and discharge of the fluid is performed by the linear reciprocating motion of the piston. The pressure pump 60 configured as described above applies pressure to the mixed water flowing from the mixer 50 to the spraying position, absorbs the water pressure coming into the mixer 50, and prevents a reverse phenomenon of the ozone tube.

The dissolution pipe 70 is provided with a partition wall 73 that provides time for dissolving the mixed water transferred from the inlet pipe 61 into sterilized water which is a high concentration of ozone water to generate the mixed water as sterilized water. 70) a pressure gauge 71 indicating the pressure size in the chamber, a pressure regulator 72 for controlling the pressure, and a pressure regulating valve 74.

As shown in FIG. 4, the compartment wall 73 is formed of a plurality of plates attached to different positions in the dissolution pipe, and the length 77 of the plate is longer than half of the inner length of the dissolution pipe. Accordingly, the mixed water drawn into the dissolution pipe 70 is moved to the portion 76 where the plate is not formed. Through this operation, the mixed water mixed with the ozone bubble and the used water is completely dissolved to form a high concentration of ozone water.

The pressure gauge 71 and the pressure regulator 72 are attached to the outside of the dissolution tube. The pressure gauge 71 is displayed the pressure inside the dissolution tube. The pressure in the dissolution pipe 70 is maintained at 5 ~ 7kg / ㎠ using a pressure pump 60 and the pressure control valve (74). The pressure regulating valve 74 is mechanically configured so that the user visually sees the pressure inside the dissolution pipe through the pressure gauge 71. When the pressure is high, the pressure control valve 74 opens a lot, and the pressure inside the dissolution pipe is low. To open the pressure control valve a little to adjust the pressure in the melter. The pressure regulator 72 is an additional safety device, to prevent explosion when the pressure in the melter tube suddenly increases, and includes a controller to generate ozone and supply groundwater when the pressure inside the melter tube exceeds 10 kg / cm 2. Stop it. That is, the control unit sends a signal to the control switch 11 of the ozone generator and the check valve (not shown) of the well to stop the operation. The pressure provided by the pressure pump 60, the adjustment of the pressure regulating valve 74, and the compartment wall 73 allow the dissolution pipe to have a constant internal pressure and a sufficient dissolution time, so that the ozone concentration in the dissolution pipe 70 is 3 ppm. It is maintained at a high concentration. The high concentration ozone water has a strong sterilizing power and is called 'sterilization water'. At the end of the dissolution tube, a transfer hose 75 is attached to move the sterilization water to a position where sterilization is necessary.

The apparatuses (10) to (70) are referred to as 'sterilization water generator', and the sterilization water generator may be used in greenhouse air or hydroponic cultivation apparatus.

Hydroponic cultivation device is usually a shape of a rectangular parallelepiped box without the top plate and the side plate in the width direction is selectively removed, and is configured to allow the boxes to be inclined for watering. Hydroponic cultivation equipment includes rock wool and pearlite to nourish the crop. Harvesting crops in a hydroponic cultivation apparatus contaminated the rock wool and pearlite, and thus necessitated new rock wool and pearlite, which caused a cost increase. The sterilizing water of the present invention sterilizes the contaminated rock wool and pearlite to enable reuse. When the transfer hose 75 connected to the dissolution pipe 70 of the sterilization water generator supplies sterilization water generated in the dissolution pipe to the water supply pipe (not shown) of the hydroponic cultivation device, the contaminated rock wool and perlite can be sterilized. .

In addition, by using the sterilizing water generating device can be sterilized in the greenhouse by spraying the sterilizing water in the greenhouse air to support the air instead of spraying directly on the crop.

Sterilized water transferred to the greenhouse is sprayed at a high pressure by the injection pump 80 mounted on the ultra-fine particle spreader 90 is sprayed in the state of fine particles concentrated in the room through the spray hole 91 having a fine hole. The sterilized importer of the applied strong sterilizing power floats in the indoor atmosphere and is instantly killed by combining with bacteria, viruses and mutual attraction force. Residual ozone is reduced to oxygen after a half-life (usually 25 to 30 minutes) and is farmed in the air, which does not harm crops.

The ultra-fine particle duster 90 is attached to the on / off switch 92 can be provided to control the operation of the user grasping the ultra-fine particle duster 90 spray bar, when the switch 92 is off the injection pump When the operation of the 80 stops and the pressure of the dissolution pipe 70 increases as the operation of the injection pump 80 stops, and the pressure regulator 72 detects this, the ozone generator 10 connected to the pressure regulator 72 is stopped. The control switch 11 automatically stops ozone generation.

Ultra-fine particle spreader 90 can be mounted on the monorail 100 in the greenhouse as shown in FIG. 5 to spray unattended high concentration ozone water. The monorail 100 is formed by separating the intermediate rotor between the inner rail and the outer rail in a sandwiched state to attach the support to the steel frame of the greenhouse ceiling and mount the monorail 100 to the support. In addition, a rail for moving the hose is attached to the cradle connected to the steel frame in the upper greenhouse, and hanging the hook to the rail, and then mounted through the transfer hose 75 between the loop ultra-fine particle spreader 90 is a rail The transfer hose 75 is provided to be easily moved when moving (100).

In addition, a timer 12 may be attached to the ozone generator. The timer 12 controls the operation time of the ozone generator and prevents excessive ozone injection by specifying a predicted time when the ultra-fine particle spreader 90 is automatically sprayed on the monorail 100.

All fungi such as fungi, yeast, and bacteria are sprayed at 1ppm of ozone water and are 100% killed when they are contacted within 5 seconds.As a result of spraying high concentration of 3ppm ozone water used in the greenhouse sterilizer, a strong sterilization effect is obtained. By automatically spraying and suspending sterilized water in the air, it saves human labor and no risk of exposure to ozone.

Although illustrated and described in the specific embodiments to illustrate the technical spirit of the present invention, the present invention is not limited to the same configuration and operation as the specific embodiment as described above, within the limits that various modifications do not depart from the scope of the invention It can be carried out in. Therefore, such modifications should also be regarded as belonging to the scope of the present invention, and the scope of the present invention should be determined by the claims below.

Therefore, as described above, the present invention can provide high concentration ozone water to enhance sterilization power.

In addition, the present invention can cultivate pesticide-friendly agricultural products by raising a high concentration of ozone water in the air to sterilize.

In addition, the present invention is unmanned spraying with an automatic spraying device is harmless to the human body and is easy to use.

Claims (5)

In a pesticide-free greenhouse sterilizer using a high concentration ozone sterilization water, An ozone generator 10 into which a discharge tube and a stainless pipe are inserted and the cylindrical tube is inserted to be coupled to the injector pump; An injector pump 20 for compressing the ozone gas generated by the ozone generator 10 and supplying the ozone gas to the injection nozzle 30 through the ozone gas supply pipe 21; A water treatment apparatus 40 in which magnetic devices 41 are formed in pairs above and below so that the ground water supplied through the well is activated into use water; Located at the bottom of the intersection 51 of the mixer, the injection nozzle 30 including a plurality of injection holes 31 to inject the ozone gas supplied from the ozone gas supply pipe 21 to the intersection 51; Coupled with the water treatment apparatus 40 and the injection nozzle 30, the diameter of the cross-section on both sides of the cross-section of the cross-section 51 is coupled to the injection port 31 of the injection nozzle 30 is wide A mixer 50; A pressure pump 60 coupled to the rear end of the mixer 50 to pump the mixed water into the dissolution pipe 70 through the inlet pipe 61; A dissolution pipe 70 having a partition wall 73 formed by alternately coupling a plurality of plates longer than half of a dissolution pipe inner length with the dissolution pipe inner top and bottom; A transfer hose 75 connected to the dissolution pipe 70 to transfer sterilization water to a sterilization position; An injection pump 80 connected to the transfer hose 75 and mounted in the ultrafine particle spreader 90 to provide injection pressure; It is mounted on the monorail 100 and formed of a plurality of spray holes 91 and the ultra-fine particle spreader 90 for spraying the sterilization water; A pesticide-free greenhouse sterilizer, characterized in that made in the greenhouse comprises a monorail (100) to which the ultra-fine particle spreader (90) is attached and moved. The method of claim 1, The dissolution tube 70 is A pressure gauge 71 representing the internal pressure of the melting pipe, A pressure regulating valve (74) for adjusting a feed amount of sterilizing water at the dissolution pipe end; The pesticide greenhouse sterilization apparatus further comprises a pressure regulator (72) to stop the ozone generation when the pressure inside the melt pipe is higher than the predetermined pressure. The method of claim 1, The greenhouse is a pesticide-free greenhouse sterilizer characterized in that the support is connected to the upper reinforcement of the house to support the monorail (100), the connecting ring for mounting the transfer hose (75), and the rail to which the connecting ring is moved. In the device for sterilizing hydroponic cultivation apparatus using high concentration ozone sterilization water, An ozone generator 10 into which a discharge tube and a stainless pipe are inserted and the cylindrical tube is inserted to be coupled to the injector pump; An injector pump 20 for compressing the ozone gas generated by the ozone generator 10 and supplying the ozone gas to the injection nozzle 30 through the ozone gas supply pipe 21; A water treatment apparatus 40 in which magnetic devices 41 are formed in pairs above and below so that the ground water supplied through the well is activated into use water; Located at the bottom of the intersection 51 of the mixer, the injection nozzle 30 including a plurality of injection holes 31 to inject the ozone gas supplied from the ozone gas supply pipe 21 to the intersection 51; Coupled with the water treatment apparatus 40 and the injection nozzle 30, the diameter of the cross-section on both sides of the cross-section of the cross-section 51 is coupled to the injection port 31 of the injection nozzle 30 is wide A mixer 50; A pressure pump 60 coupled to the rear end of the mixer 50 to pump the mixed water into the dissolution pipe 70 through the inlet pipe 61; A dissolution pipe 70 having a partition wall 73 formed by alternately coupling a plurality of plates longer than half of a dissolution pipe inner length with the dissolution pipe inner top and bottom; A transfer hose 75 connected to the dissolution pipe 70 to transfer sterilization water to a sterilization position; Sterilization apparatus of hydroponic cultivation device, characterized in that it comprises a feed water supply pipe of the hydroponic cultivation device connected to the transfer hose (75). The method of claim 4, wherein The dissolution tube 70 is A pressure gauge 71 representing the internal pressure of the melting pipe, A pressure regulating valve (74) for adjusting a feed amount of sterilizing water at the dissolution pipe end; Sterilizing apparatus for hydroponic cultivation device, characterized in that it further comprises a pressure regulator (72) to stop the ozone generation when the pressure inside the melt pipe is higher than the predetermined pressure.

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