KR102451094B1 - Spraying Nozzle and Spraying Apparatus using the same - Google Patents

Abstract

The present invention relates to a spray nozzle capable of spraying sterilizing water into small particles while moving for indoor and outdoor quarantine of a building, and a spraying device using the same, specifically coupled to a supply unit and a supply unit to which sterilization water is supplied, and the sterilizing water It is formed to be spaced apart from the injection unit and the injection unit for jetting air, and is formed inside the blower unit and the blower unit for discharging air, and includes a vortex generating unit that protrudes and sinks in a curved surface to generate a vortex.

Description

Spraying nozzle and spraying device using the same

The present invention relates to a spray nozzle capable of spraying sterilizing water into small particles while moving for indoor and outdoor quarantine of a building, and a spraying device using the same.

Patent Document 001 discloses a washing injection nozzle coupled to a high-pressure injection device to spray a fluid such as hot water or hot steam, wherein the supply pipe and By configuring the nozzles spaced apart and coupled at a predetermined interval, the nozzle vibrates as the spaced portion of the elastic body elastically vibrates by the pressure energy of the fluid when the fluid is injected through the nozzle, and the fluid injected through the nozzle also moves forward. It presents the technology of spraying while swinging toward the .

Patent Document 002 discloses that the disinfectant spraying device includes a generator that electrolyzes an electrolyte to generate hypochlorous acid, a body provided in the generator, and a body provided in the body, and the sterilizer generated by the generator passes through a nozzle. a water pump for spraying, an injection unit including a rechargeable battery for applying power to the water pump, and a control unit for controlling the generation unit and the injection unit, and determining whether the sterilizer generated by the generation unit is normally generated; technology that includes

Patent Document 003 discloses that the unmanned automatic sterilization disinfection spraying device includes a housing body, a chemical storage tank installed inside the housing body to store medicines, and a chemical storage tank connected to the medicine storage tank to make the medicines into ultra-fine particles to move the front of the housing body. A plurality of injection nozzles installed to be injected toward the injection nozzle, a pump means for pumping the medicine stored in the chemical storage tank to be supplied to the injection nozzle, and the medicine supplied from the chemical storage tank in the direction of the injection nozzle to the medicine storage tank At least one check valve installed in the flow path to prevent backflow, a UV sterilization lamp installed at the rear of the housing body, the emission direction facing the upper or rear of the housing body, and a status display window to display the operating state A technology comprising: a main controller provided with a control switch for controlling the pump means and UV sterilization lamp; is presenting

Patent Invention 004 discloses a casing, a combustion unit, a steam generating unit positioned above the combustion unit to generate steam by being heated by the heat generated by the combustion unit, and discharging the steam generated from the steam generating unit to the outside. a steam discharge pipe installed through one side of the casing, a disinfectant solution tank installed spaced apart from the casing and containing a disinfectant therein, and a disinfectant solution installed between the disinfectant solution tank and the steam discharge pipe to form a disinfectant solution supply line A technology for cleaning a steam sprayer connected to a supply pipe and one end of the steam discharge pipe to spray the disinfectant solution together with steam is proposed.

KR 20-2020-0002506 U (November 18, 2020) KR 10-2015-0061272 A (June 04, 2015) KR 10-2009-0097647 A (September 16, 2009) KR 10-2006-0125153 A (06 December 2006)

The present invention relates to a spray nozzle capable of spraying sterilizing water into small particles while moving for indoor and outdoor quarantine of a building, and a spraying device using the same.

In order to solve the problems of the prior inventions, the present invention is a supply unit 100 to which sterilizing water is supplied; an injection unit 200 coupled to the supply unit 100 and spraying sterilizing water; a blower 300 that is formed to be spaced apart from the injection unit 200 and discharges air; It is formed on the inside of the blower 300, and protrudes and sinks in a curved surface to generate a vortex generating unit 400;

The present invention is an invention for a spray nozzle, the supply unit 100 presented above; injection unit 200; blower 300; A vortex generating unit 400; is formed in the injection unit 200 in the invention consisting of, coupled to the supply unit 100, the inlet unit 220 into which the sterilizing water is introduced; A distribution unit 230 that is fastened to the inlet 220 and guides and distributes sterilizing water; is added.

The present invention is an invention for a spray nozzle, the supply unit 100 presented above; injection unit 200; blower 300; A vortex generating unit 400; is formed on the outside of the blower 300 in the invention consisting of, and as it rotates, an adjusting unit 310 for adjusting the distance between the blowing unit 300 and the spraying unit 200; add

The present invention is an invention for a spray nozzle, and the supply unit 100 presented above; the injection unit 200; blower 300; A vortex generating unit 400; is formed in the blower 300 in the invention consisting of, a receiving groove 320 in which the injection unit 200 is accommodated; A discharge groove 330 formed on the front surface of the receiving groove 320, through which the sterilizing water is discharged; is added.

The present invention is an invention for a spray nozzle, the supply unit 100 presented above; injection unit 200; blower 300; In the invention consisting of the vortex generating unit 400, the vortex generating unit 400 becomes narrower toward the front side.

The present invention provides a spraying device using a spraying nozzle, comprising: a spraying case 500 to which the spraying nozzle 10 is coupled to the front; a blower 600 which is formed on the rear surface of the injection case 500 and sucks air; It is fastened to the lower end of the injection case 500, and a storage case 700 in which sterilizing water is stored; consists of a configuration including.

The present invention is an invention of the injection nozzle, the injection case 500 presented above; blower 600; a storage case 700; a supply pipe 550 formed in the injection case 500 to supply sterilizing water by connecting the injection nozzle 10 and the storage case 700 to the invention consisting of; an induction space 560 formed in the injection case 500 and guiding air toward the injection nozzle 10; A control device 570 formed on the outside of the injection case 500 and controlling the injection amount by applying pressure to the supply pipe 550; is added.

The present invention is an invention of the injection nozzle, the injection case 500 presented above; blower 600; a storage case 700; a control plate 571 formed in the control device 570 in the invention comprising: a control plate 571 formed to have a narrower width toward one side from the inside of the injection case 500; a fixing body 572 formed on the control plate 571 and fixing the supply pipe 550; A pressure plate 573 that is formed at a position corresponding to the control plate 571 and the supply pipe 550 and applies pressure to the supply pipe 550 as it moves from the outside of the injection case 500; is added.

The present invention is an invention of the injection nozzle, the injection case 500 presented above; blower 600; Storage case 700; is formed inside the injection case 500 in the invention consisting of, and injects air into the storage case 700 as it is connected to the induction space 560 and the storage case 700 The injection tube 580; is added.

The present invention is an invention of the injection nozzle, the injection case 500 presented above; blower 600; Storage case 700; is formed in the blower 600 in the invention consisting of, a rotating shaft 610 that is rotated by a motor; an impeller 620 formed at an end of the rotation shaft 610 and sucking air; A control device 630 that controls the motor and adjusts the injection amount of the sterilizing water according to the control of the air pressure; is added.

The present invention can move and simply proceed with quarantine at a desired location.

According to the present invention, the particles of the sterilizing water can be sprayed small and uniform as the air is sprayed while forming a vortex.

The present invention can adjust the spray range of the sterilizing water by adjusting the discharge pressure of the air.

The present invention can control the injection amount of sterilizing water by adjusting the pressure of the supply pipe to which the sterilizing water is supplied.

In the present invention, as the storage case can be simply replaced in the spray case, the replacement of the sterilizing water can be performed simply.

The present invention can proceed with the supply of sterilizing water by utilizing the pressure of the discharged air.

1 is a perspective view showing an injection device to which the injection nozzle of the present invention is coupled.
2 to 3 are cross-sectional views showing the injection device shown in FIG.
Figure 4 is an exploded perspective view showing the injection nozzle of the present invention.
5 is a cross-sectional view showing the injection nozzle of the present invention.
Figure 6 is a bottom view showing the vortex generator of the present invention.
7 is a cross-sectional view showing the injection nozzle of the present invention.
Figure 8 is a cross-sectional view showing the injection nozzle is installed a control unit of the present invention.
Figure 9 is a cross-sectional view showing the injection device is installed in the injection tube of the present invention.
Figure 10 is a perspective view showing the injection device is installed with the control device of the present invention.

Hereinafter, the most preferred embodiment of the present invention will be described in detail in order to be described in detail enough to be easily practiced by those of ordinary skill in the art to which the present invention pertains.

The numbers cited in the examples below are not limited only to the objects of reference, and may be applied to all examples. An object that exhibits the same purpose and effect as the configuration presented in the embodiment corresponds to an equivalent replacement object. The higher-level concept presented in the examples includes sub-concept objects that are not described.

(Embodiment 1-1) In the present invention, in the injection nozzle, the supply unit 100 to which sterilizing water is supplied; an injection unit 200 coupled to the supply unit 100 and spraying sterilizing water; a blower 300 that is formed to be spaced apart from the injection unit 200 and discharges air; and a vortex generating unit 400 formed inside the blower 300 and protruding and recessed in a curved surface to generate a vortex.

(Embodiment 1-2) The injection nozzle of the present invention according to Embodiment 1-1, wherein the supply unit 100 is formed by being coupled to sterilizing water in a sterilizing apparatus in which sterilizing water is stored.

(Embodiment 1-3) In Embodiment 1-2, the injection nozzle of the present invention is formed in the injection unit 200, and includes a injection hole 210 through which sterilizing water is discharged.

(Embodiment 1-4) The injection nozzle of the present invention according to Embodiment 1-3, wherein the injection hole 210 is formed on both sides of one end of the injection unit 200, respectively.

(Embodiment 1-5) In Embodiment 1-1, the injection nozzle of the present invention is formed on the outside of the injection unit 200, and includes a through hole 240 through which air passes.

(Embodiment 1-6) In the injection nozzle of the present invention, in Embodiment 1-1, the blower 300 is formed to surround the outside of the injection unit 200, and the blower 300 and the and a ventilation space 340 through which air is discharged between the injection units 200 .

(Embodiment 1-7) In Embodiment 1-6, the injection nozzle of the present invention is formed such that the blowing space 340 becomes narrower toward the front, and is formed in a cross-sectional shape of oblique lines and steps; includes

The present invention relates to a spray nozzle, and specifically, the spray nozzle 10 is to control the sterilizing water supplied from the spray device 20 into particles that do not cause stains to spray. In general, the sterilizing water is formed of a solution harmless to the human body such as electrolyzed water, a mixture of water 20 and a sterilizing solution, purified water such as chlorous acid (Chlorite, ClO2-), disinfection, sterilization, and disinfectant.

Referring to FIG. 5 , the injection nozzle 10 is provided with a supply unit 100 to which sterilizing water is supplied, and the supply unit 100 is coupled to an injection device 20 to be described later to receive sterilizing water, and a supply hole therein. this is formed At this time, the supply unit 100 is coupled to the supply pipe 550 of the injector 20 to extend from the blowing unit 300 of the front. And the injection unit 200 formed by being coupled to the supply unit 100 is formed to have a larger diameter than the supply unit 100, and sprays sterilizing water. The spraying part 200 has a spraying hole 210 through which sterilizing water is sprayed in the center, and the spraying hole 210 extends to the supplying hole of the supplying part 100 . At this time, the injection hole 210 is formed on the front side of the injection unit 200 or on both sides of one end of the injection unit 200 depending on the shape of the injection unit 200 , respectively, to direct the sterilizing water toward the blowing unit 300 . spray In detail, the spray unit 200 is formed in a shape that is narrower in width toward the front, so that the sterilizing water is sprayed by the air discharged from the blower 300, and the air discharged from the blower 300 and The injection hole 210 is formed in the same position. However, when the shape of the injection unit 200 is formed so that the front and rear widths are the same, a plurality of injection holes 210 are formed on the side surface of the injection unit 200 as shown in FIG. It is discharged toward the blower 300, which is not. Accordingly, the sterilizing water is discharged to the blower 300 together with the air.

In addition, referring to FIG. 7 , the injection unit 200 has a through hole 240 formed on the outside so that air is transmitted to the blowing space 340 formed at a position spaced apart from the blowing unit 300 . The through-hole 240 is formed in plurality in the extension plate extending outwardly of the injection unit 200 , and the extension plate is engaged with the blower 300 , and air flows into the blowing space 340 through the through-hole 240 . it will be transmitted

The blower 300 is formed to surround the jetting unit 200 , and is formed to be spaced apart from the jetting unit 200 to discharge air into the blowing space 340 . At this time, the shape of the blower 300 is formed in various ways, and the vortex generator 400 is formed therein so that the air is discharged as a vortex. Accordingly, the sterilizing water is sprayed in a wide range at the same time as the particles become smaller by the vortex.

(Embodiment 2-1) The present invention relates to a spray nozzle, and in Example 1-1, an inlet 220 formed in the spray unit 200 and coupled to the supply unit 100 to introduce sterilizing water. ); and a distribution unit 230 coupled to the inlet 220 and guiding and distributing sterilizing water.

(Embodiment 2-2) In the injection nozzle of the present invention in Embodiment 2-1, the inlet portion 220 includes a plurality of extension portions 221 extending outwardly from one end of the supply portion 100; and a first guide groove 223 formed inside the extension portion 221 and guiding the sterilizing water.

(Example 2-3) In Example 2-2, the injection nozzle of the present invention includes an insertion protrusion 222 protruding from the front side of the extension part 221 and inserted into the distribution part 230; do.

(Embodiment 2-4) In the injection nozzle of the present invention in Embodiment 2-2, the distribution part 230 includes a distribution plate 231 formed to correspond to the extension part 221; and a second guide groove 232 formed in the distribution plate 231 and formed to correspond to the first guide groove 223 .

(Example 2-5) In Example 2-4, the jet nozzle of the present invention is formed on the distribution plate 231, and the jetting body 233 extending from the end of the second guide groove 232 to the front. ); includes.

(Example 2-6) In Example 2-3, the injection nozzle of the present invention is formed on the rear surface of the distribution unit 230, and includes an insertion groove 234 into which the insertion protrusion 222 is inserted. do.

The present invention relates to the injection unit 200 , and specifically, the injection unit 200 distributes the air supplied from the supply unit 100 in a plurality of directions and sprays the air. Referring to FIG. 4 , the spraying unit 200 may expand the spraying range of the sterilizing water by forming various spraying positions of the sterilizing water. The injection unit 200 is coupled to the supply unit 100 , and is coupled to the inlet 220 and the inlet 220 for introducing the sterilizing water, and a distribution unit 230 for distributing the sterilizing water is formed. At this time, the inlet part 220 and the distribution part 230 are formed in a corresponding shape to guide the sterilizing water and spray it in other directions, respectively. The inlet 220 has an extension 221 extending outwardly from one end of the supply unit 100 , and the extension 221 is formed in plurality to distribute the sterilizing water. In addition, a first guide groove 223 recessed inwardly is formed in the extension part 221 , and the distribution part 230 is a distribution plate having a shape corresponding to the first guide groove 223 and the extension part 221 . 231 and a second guide groove 232 are formed. Thus, as the first guide groove 223 and the second guide groove 232 come into contact, the sterilizing water is guided and sprayed in a plurality of directions. And the extension portion 221 has an insertion protrusion 222 protruding outwardly on the front surface is formed, and the distribution unit 230 has an insertion groove 234 at a position corresponding to the insertion protrusion 222 so that the insertion protrusion 222 is inserted. As this is formed, the distribution part 230 is fixed to the extension part 221 . In addition, the distribution unit 230 is formed at one end of the distribution plate 231 , the injection body 233 extending from the end of the second guide groove 232 to the front is formed, and the injection body 233 is the front surface. It is formed so that the width becomes narrower toward the direction, so that a plurality of blowing spaces 340 can be formed between the blowing unit 300 and the ventilating unit 300 .

Accordingly, the injection unit 200 of the present invention has at least one injection hole 210 is formed to control the injection amount of the sterilizing water.

(Example 3-1) The present invention relates to a spray nozzle, and in Example 2-1, it is formed on the outside of the blower 300, and as it rotates, the blower 300 and the jetting section ( 200) an adjustment unit 310 for adjusting the interval; includes.

(Embodiment 3-2) In Embodiment 3-1, the injection nozzle of the present invention comprises: a rotating body 311 formed in the adjusting unit 310 and rotating from the outside of the blowing unit 300; and an insert 312 inserted into one end of the rotating body 311 .

(Embodiment 3-3) The injection nozzle of the present invention according to Embodiment 3-1, wherein the rotating body 311 rotates without moving in the insert 312 .

(Embodiment 3-4) The injection nozzle of the present invention according to Embodiment 3-1, is formed on the inner circumferential surface of the rotating body 311, and includes a spiral groove for moving the blower 300.

(Example 3-5) In Example 3-1, the spray nozzle of the present invention includes a spiral protrusion formed on the outside of the blower 300 and fastened to the spiral groove.

(Embodiment 3-6) In the injection nozzle of the present invention, in Embodiment 3-1, the control unit 310 is formed on the front surface of the blower 300, and the spaced apart from the injection unit 200 is control; including.

The present invention relates to the control unit 310, and specifically, the control unit 310 is formed on the outside of the blower 300 and rotates in place to move the blower 300 to the front. 8 , the control unit 310 is inserted into one end of the rotating body 311 and rotating body 311 rotating from the outside of the blower 300 to rotate without moving the rotating body 311 . An insert 312 to be seated is formed. After the insert 312 is inserted into the rotating body 311, a fixture is formed at one end so as not to be separated. I never do that. And a spiral groove is formed on the inner circumferential surface of the rotating body 311, and the spiral groove is in contact with the spiral protrusion formed on the outside of the blowing unit 300, and as the rotating body 311 rotates, the blowing unit 300 moves forward and backward. will be. Accordingly, the separation interval between the blower 300 and the jetting unit 200 is adjusted to control the amount of air discharged through the blowing space 340 . This is to be able to adjust the spray amount and spray range of the sterilizing water.

In another embodiment, the adjusting unit 310 may be formed in the blower 300 to adjust the size of a discharge hole through which air is discharged from the blower 300 .

(Embodiment 4-1) The present invention relates to a spray nozzle, and in Example 3-1, a receiving groove 320 formed in the blower 300 and accommodating the spray unit 200; It is formed on the front surface of the receiving groove 320, the discharge groove 330 through which the sterilizing water is discharged; includes.

(Embodiment 4-2) The injection nozzle of the present invention according to Embodiment 4-1, wherein the vortex generating unit 400 becomes narrower toward the front side.

(Example 4-3) In the injection nozzle of the present invention, in Example 4-2, the angle of the vortex generating unit 400 changes toward the front, and is formed by being depressed toward the blowing unit 300. It includes a vortex groove (410).

(Embodiment 4-4) The injection nozzle of the present invention according to Embodiment 4-2, wherein the vortex groove 410 is centered in one direction to increase the vortex velocity.

(Example 4-5) In the injection nozzle of the present invention, in Example 4-4, the angle of the vortex generating unit 400 changes toward the front, and is formed to protrude toward the blower 300 It includes a vortex protrusion (420).

The present invention relates to the blower 300, and specifically, the blower 300 has the jetting unit 200 accommodated therein, and the blowing space 340 is formed in a space spaced apart from the jetting unit 200 to form a vortex. is generated and the air is expelled. Referring to FIG. 6 , the blower 300 is provided with a receiving groove 320 in which the injection unit 200 is accommodated, and a vortex generating unit 400 is formed in the receiving groove 320 to generate a vortex. and is emitted In addition, a discharge groove 330 through which air is discharged together with sterilizing water is formed on the front surface of the receiving groove 320 . The quantity and position of the receiving groove 320 and the discharge groove 330 are determined according to the quantity and position of the injection hole 210 of the injection unit 200 . In addition, the receiving groove 320 is formed to have a narrower width toward the front, but may be formed with a step difference according to the shape of the injection unit 200 .

And the vortex generating unit 400 formed in the receiving groove 320 is formed with a vortex groove 410 and a vortex protrusion 420 whose angle is variable toward the front, and the vortex groove 410 is a receiving groove 320 . It is formed to be depressed in the vortex groove 410 is formed so that the center of the sagging in one direction can increase the vortex speed. And the vortex groove 410 is formed in the shape of a semicircle, but may be formed in various cross-sectional shapes such as a triangle, a square, and the like. In addition, the vortex protrusion 420 may be formed in various heights, and the inclination of the vortex protrusion 420 may also be formed in various ways.

(Example 5-1) The present invention relates to a spraying device using a spray nozzle, and in Example 4-1, a spray case 500 to which the spray nozzle 10 is coupled to the front surface; a blower 600 which is formed on the rear surface of the injection case 500 and sucks air; and a storage case 700 that is fastened to the lower end of the spray case 500 and stores sterilizing water.

(Example 5-2) In Example 5-1, the injection device using the injection nozzle of the present invention is formed in the injection case 500 and is formed on the rear surface of the blower 600 so that air passes through a through portion 510 being; a coupling part 520 formed on the front surface of the injection case 500 and to which the injection nozzle 10 is coupled; It is formed in the penetrating part 510, the filtering part 530 for filtering foreign substances; includes.

(Example 5-3) In Example 5-1, the injection device using the injection nozzle of the present invention is formed at the lower end of the injection case 500, and a fastening part ( 540);

(Embodiment 5-4) In the injection device using the injection nozzle of the present invention, in Embodiment 5-3, the fastening part 540 is coupled to the storage case 700 by at least one of an interference fit and a helical coupling. include;

(Embodiment 5-5) In Embodiment 5-1, the injection device using the injection nozzle of the present invention includes: a rotating shaft 610 formed in the blower 600 and rotated by a motor; an impeller 620 formed at an end of the rotation shaft 610 and sucking air; and a control device 630 that controls the motor and adjusts the injection amount of the sterilizing water by adjusting the air pressure.

(Example 5-6) The injection device using the injection nozzle of the present invention according to Embodiment 5-1, wherein at least one impeller 620 is formed on the side surface of the motor; includes.

The present invention relates to the spraying device 20, and specifically, the spraying device 20 sprays and sprays sterilizing water to eradicate bacteria, pests, infectious diseases, and the like. Referring to FIGS. 1 to 2 , the spraying device 20 includes a spraying case 500 to which the spraying nozzle 10 is coupled, and a storage case 700 is fastened to the lower end of the spraying case 500 . And the blowing device 600 is formed inside the injection case 500 , and air is supplied to the injection nozzle 10 by the blowing device 600 . In the injection case 500 , the blower 600 is formed on the rear surface, and a through part 510 through which air passes is formed on the rear surface of the blower 600 . At this time, a plurality of holes are formed in the through part 510 to allow air to flow in, and a filtering part 530 for preventing foreign substances from being introduced through the holes is formed. The filtering part 530 is formed of various filters and is formed to be detachable from the through part 510 . In order to detach the filter unit 530 from the penetrating unit 510 , the filter unit 530 is fixed by a frame, and the frame can be raised and lowered from the top of the injection case 500 . And the blower 600 for moving air toward the inlet and injection nozzle 10 is formed with a motor and a rotating shaft 610 that rotates by the motor, and an impeller 620 is formed on the rotating shaft 610 to rotate the motor. The pressure inside the injection case 500 can be adjusted according to the total amount. At this time, the motor controls the amount of rotation by the control device 630, and the amount of sterilizing water and the range of spraying are adjusted according to the inflow and discharge of air. The coupling part 520 to be coupled is formed, and the coupling part 520 may be coupled to the jet nozzle 10 by helical coupling and interference fitting. In addition, a control unit 310 of the injection nozzle 10 is formed in the coupling portion 520 to change the position of the injection nozzle 10 .

A fastening part 540 to which the storage case 700 is fastened is formed at the lower end of the injection case 500, and the fastening part 540 is fastened to the storage case 700 by force fitting and helical coupling, but the storage case 700 A separate fixing device is formed so that it does not come off. As such, the storage case 700 fastened to the fastening part 540 is formed in various shapes, and sterilizing water is stored therein.

(Example 6-1) The present invention relates to a spraying device using a spray nozzle, and in Example 5-1, it is formed in the spray case 500, and the spray nozzle 10 and the storage case ( a supply pipe 550 for supplying sterilizing water by connecting 700; an induction space 560 formed in the injection case 500 and guiding air toward the injection nozzle 10; It is formed on the outside of the injection case 500, the control device 570 for controlling the injection amount by applying pressure to the supply pipe (550); includes.

(Example 6-2) In Example 6-1, the injection device using the injection nozzle of the present invention is formed inside the injection case 500, and the induction space 560 and the storage case 700 ) and an injection pipe 580 for injecting air into the storage case 700 as it is connected.

(Example 6-3) In Example 6-2, the injection device using the injection nozzle of the present invention, the supply pipe 550 is formed of a tube made of a rubber material; includes.

(Example 6-4) In Example 6-3, the injection device using the injection nozzle of the present invention is formed so that the induction space 560 extends from the blower 600 to the injection nozzle 10 to be; includes

(Example 6-5) In Example 6-4, the injection device using the injection nozzle of the present invention has a spiral groove formed at one end of the induction space 560 to generate a vortex.

The present invention relates to the spray case 500, and specifically, the spray case 500 supplies the spray nozzle 10 with the sterilizing water of the storage case 700 and discharges it by air. The injection case 500 has a supply pipe 550 connecting the injection nozzle 10 and the storage case 700 therein, and the supply pipe 550 is formed of a rubber tube, so that one end of the injection nozzle 10 is formed. is fastened to the supply unit 100 of And the other end of the supply pipe 550 is accommodated in the storage case 700 is supplied to the injection nozzle 10 by the pressure of the storage case (700).

And an induction space 560 in which the air introduced by the blower 600 is guided toward the injection nozzle 10 is formed in the injection case 500 . Referring to FIG. 3 , the induction space 560 is formed to surround the injection nozzle 10 and the supply pipe 550 , and the air generates a vortex spirally and is transmitted to the blower 300 of the injection nozzle 10 . A spiral groove is formed. At this time, an injection pipe 580 connecting the storage case 700 and the induction space 560 is formed in the induction space 560 as shown in FIG. 9 , and the injection tube 580 supplies air to the storage case 700 . ) to control the supply of sterilizing water by using the air introduced by the blower 600 by injecting into the inside. In this way, when the supply of sterilizing water is controlled through the injection pipe 580, the injection amount of the sterilizing water and the discharge amount of air can be kept constant, so that the spray size of the sterilizing water can be kept constant.

(Embodiment 7-1) The present invention relates to an injection device using a spray nozzle, and in Example 6-1, it is formed in the adjusting device 570, and is directed to one side from the inside of the injection case 500 a control plate 571 formed to be narrower as the width increases; a fixing body 572 formed on the control plate 571 and fixing the supply pipe 550; and a pressure plate 573 that is formed at a position corresponding to the control plate 571 and the supply pipe 550 and applies pressure to the supply pipe 550 as it moves from the outside of the injection case 500 .

(Example 7-2) In Example 7-1, the injection device using the injection nozzle of the present invention is that the separation distance from the control plate 571 is narrowed as the pressure plate 573 is moved; includes

The present invention relates to a control device 570, and specifically, the control device 570 applies pressure to the supply pipe 550 to control the injection amount of sterilizing water. As shown in FIG. 10 , the control device 570 may apply a pressure to the supply pipe 550 as the pressure plate 573 moving outside the injection case 500 is formed and the pressure plate 573 moves. At this time, the supply pipe 550 is formed inside the injection case 500 and fixed to the control plate 571 formed at a position corresponding to the pressure plate 573 , and the supply pipe 550 is fixed to the fixing body 572 . In addition, the throttle plate 571 is formed to have a narrower width as it goes in one direction, and as the pressure plate 573 moves, the separation distance between the throttle plate 571 and the pressure plate 573 is adjusted. Accordingly, the pressure applied to the supply pipe 550 fixed to the fixture 572 is adjusted, so that the injection amount of the sterilizing water supplied through the supply pipe 550 is adjusted.

10: injection nozzle 20: injection device
100: supply unit 200: injection unit
210: injection hole 220: inlet
221: extension 222: insertion projection
223: first guide groove 230: distribution unit
231: distribution plate 232: second guide groove
233: injection body 234: insertion groove
240: through hole 300: blower
310: control unit 311: rotating body
312: insert 320: receiving groove
330: exhaust groove 340: ventilation space
400: vortex generator 410: vortex groove
420: vortex protrusion 500: spray case
510: through portion 520: coupling portion
530: filtering unit 540: fastening unit
550: supply pipe 560: induction space
570: throttle 571: throttle
572: fixture 573: pressure plate
580: injection pipe 600: blower
610: rotation shaft 620: impeller
630: control unit 700: storage case

Claims (10)

a supply unit 100 to which sterilizing water is supplied;
an injection unit 200 coupled to the supply unit 100 and spraying sterilizing water;
a blower 300 that is formed to be spaced apart from the injection unit 200 and discharges air;
It is formed on the inside of the blower 300, and protrudes and sinks in a curved surface to generate a vortex generating unit 400 that generates a vortex; includes,
The supply unit 100 is formed by being coupled to the sterilizing water in the sterilizing device in which the sterilizing water is stored;
The injection unit 200,
Including; injection hole 210 through which sterilizing water is discharged;
The injection hole 210 is formed on both sides of one end of the injection unit 200, respectively;
an inlet 220 formed in the injection unit 200 and coupled to the supply unit 100 to receive sterilizing water; and
A distribution unit 230 that is fastened to the inlet 220 and guides and distributes sterilizing water;
The inlet 220 is
A plurality of extension parts 221 extending outwardly from one end of the supply part 100;
an insertion protrusion 222 protruding from the front side of the extension part 221 and inserted into the distribution part 230; and
A first guide groove 223 formed on the inside of the extension portion 221, through which the sterilizing water is guided;
The distribution unit 230,
a distribution plate 231 formed to correspond to the extension portion 221; and
and a second guide groove 232 formed in the distribution plate 231 and formed to correspond to the first guide groove 223;
A jet nozzle comprising a; is formed on the outside of the blower 300, and adjusts the distance between the blower 300 and the jetting part 200 as it rotates.
delete delete The method according to claim 1,
a receiving groove 320 formed in the blower 300 and accommodating the injection unit 200;
The injection nozzle comprising a; is formed in the front of the receiving groove (320), the discharge groove (330) through which the sterilizing water is discharged.
The method according to claim 1,
The vortex generating unit 400 has a width that becomes narrower toward the front.
In the injection device using the injection nozzle of claim 1,
the injection case 500 to which the injection nozzle 10 is coupled to the front;
a blower 600 which is formed on the rear surface of the injection case 500 and sucks air;
A spraying device using a spray nozzle comprising a; a storage case 700 that is fastened to the lower end of the spray case 500 and stores sterilizing water.
7. The method of claim 6,
a supply pipe 550 formed in the injection case 500 and connecting the injection nozzle 10 and the storage case 700 to supply sterilizing water;
an induction space 560 formed in the injection case 500 and guiding air toward the injection nozzle 10;
The injection device using the injection nozzle comprising a; is formed on the outside of the injection case 500, and adjusts the injection amount by applying pressure to the supply pipe (550).
8. The method of claim 7,
a control plate 571 formed in the control device 570 and formed to have a narrower width toward one side from the inside of the injection case 500;
a fixing body 572 formed on the control plate 571 and fixing the supply pipe 550;
A pressure plate 573 that is formed at a position corresponding to the control plate 571 and the supply pipe 550 and applies pressure to the supply pipe 550 as it moves from the outside of the injection case 500; spraying device using
7. The method of claim 6,
An injection pipe 580 formed in the injection case 500 and connected to the induction space 560 and the storage case 700 to inject air into the storage case 700; injection comprising a; A spraying device using a nozzle.
10. The method of claim 9,
a rotating shaft 610 formed in the blower 600 and rotated by a motor;
an impeller 620 formed at an end of the rotation shaft 610 and sucking air;
A control device 630 for controlling the motor and adjusting the injection amount of the sterilizing water by adjusting the air pressure.

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