KR101855213B1 - Nozzle for turning spray of vinyl house - Google Patents

Abstract

The present invention relates to a turning spray type spray nozzle for a vinyl greenhouse and, specifically, to a turning spray type spray nozzle for a vinyl greenhouse, capable of minimizing the amount of a chemical liquid staining a vinyl greenhouse after being sprayed. The turning spray type spray nozzle for a vinyl greenhouse comprises: a connection tube (20) formed in a tubular shape having an inner inlet (21) and installed in a longitudinal installation direction of the vinyl greenhouse (10); a supply tube (30) having a male screw unit (32) on the outer circumference of each end; a spacer tube (40) having an expansion protrusion unit (41) on an outer end and having a contraction protrusion unit (43) on an inner end, wherein a connection hole (45) is formed on the inner side of the contraction protrusion unit (43) and a filter net (47) is formed on an outer end of the contraction protrusion unit (43); a discharge amount control member (50) controlling a discharged amount of the liquid passing through the connection hole (45); a vortex generating member (60) comprising a blocking plate (61), a connection rod (63), a vortex forming body (65), and a nozzle tip (67) for maintaining a vortex; and a spray nozzle unit (70) having an accommodation tube (72) and an inclined tube (74), wherein a liquid spray hole (76) is formed at an end of the inclined tube (74) and the spray nozzle unit (70) also has an air supply tube (78).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a spray nozzle for a vinyl house,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a glow discharge spraying nozzle for a vinyl house, and more particularly, to a glow discharge spraying nozzle for a vinyl house, which is provided with nozzles for spraying liquids such as agricultural chemicals or water, And a supply pipe to which the liquid is injected so as to swing in a clockwise or counterclockwise direction due to the injection flow of air and liquid sprayed in mutually opposite directions, If the three fixing rings are formed symmetrically on the middle side and both sides thereof and one of the fixing rings formed on both sides of the fixing ring is fixed to the wire, if the supply tube is arranged to be inclined, The supply pipe and the spray nozzle connected thereto are inclined and sprayed The present invention relates to a swirling spray nozzle for a vinyl house, which can minimize the amount of chemical liquid injected into a vinyl house.

In general, a plastic house in which crops grow is equipped with a spray nozzle for efficiently supplying water or pesticides to crops.

The injection nozzle has a structure in which a coupling pipe is formed with a coupling part connected to a supply pipe and a fixing member is fastened to an outer side and an inflow hole is formed on an inner side and a pair of injection pipes provided at angles respectively symmetrical to both sides of the outer circumferential face of the coupling pipe, And a nozzle cap screwed to the spray tube and provided with a spray device therein.

Here, the structure of the spraying apparatus includes an O-ring for watertightness between the spraying tube and the nozzle cap, a filtering net for filtering foreign matter contained in the sprayed water or pesticide, an injection inner tube for finely passing water or agricultural chemicals, And a nozzle tip formed with an eddy groove so as to cause a vortex in agricultural chemicals and the like.

That is, when supplied to the spray tube through a connection pipe such as water or pesticide which flows quickly in the inside of the supply tube, the spray tube is sprayed by the spray tip and the nozzle tip of the spray device installed inside the spray tube.

However, a vortex groove is formed in the spray tip of the conventional injection nozzle to cause a vortex in the tip of the nozzle. In the conventional structure, a vortex is formed only by the vortex groove, It is difficult to form a stable vortex because of the inconsistency, and there is a problem in installation burden that it is necessary to increase the number of installation as much because the long distance injection is difficult.

In addition, since the nozzle tip of the conventional injection nozzle is made of ceramic and the vortex groove is not smooth and rough, there is a problem that the vortex flow is somewhat precarious and the process is not easy.

In order to solve these problems, the applicant of the present invention has proposed a connecting pipe which is connected to a supply pipe through a registered patent No. 10-0890547 and in which a fastening part for fastening the fastener is fastened to the outside and an inflow hole is formed inside; A pair of spray tubes provided at both sides of the outer circumferential surface of the coupling tube at symmetrical angles; A spray nozzle which is screwed into the spray tube and filters out foreign matter therein, an injection inner tube whose diameter is reduced, and a nozzle tip which is inserted into an end of the inner injection tube and has a discharge hole, ≪ / RTI > The injection nozzle for a plastic greenhouse according to any one of claims 1 to 3, wherein the filter net is provided inside a fixing pipe fixed to an inner end of a connection tube by a spacer tube formed inside the injection tube with a step formed at an outer end of the injection tube, A spray nozzle for a greenhouse has been disclosed in which a spraying projection for pressing and spraying a spray tube and a nozzle tip is provided on the bottom surface of the step of the spacer tube and the inner surface of the spray hole of the nozzle cap.

The applicant of the present invention has also proposed a method of manufacturing a vacuum cleaner having a connection pipe connected to a supply pipe through a No. 10-0950830 and formed with a fastening portion for fastening the fastener to the outside and having an inflow hole formed therein; A pair of spray tubes provided at both sides of the outer circumferential surface of the coupling tube at symmetrical angles; A nozzle cap screwed to the injection pipe and provided with a filter net for filtering out foreign substances therein, an injection inner pipe having a reduced diameter, and a nozzle tip inserted into an end of the injection inner pipe and having a discharge hole; And a spacer tube provided at an inner side of the injection tube and having a stepped end protruding from the end of the injection tube so that a filter net is installed at an inner end of the injection tube, A check valve for spraying the liquid sprayed to the spraying nozzle while spraying the foreign matter filtered by the filter net by opening the spraying pipe when the flow rate of the sprayed gas is higher than a predetermined level is provided.

Patent No. 10-0890547 Registration No. 10-0950830

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above problems, and it is an object of the present invention to provide a method and apparatus for supplying air and liquid to both sides of a connection pipe of a nozzle for spraying a liquid such as agricultural chemicals or water, The connection pipe is rotated in a clockwise or counterclockwise direction due to the injection flow of air and liquid sprayed in mutually opposite directions to form a swirling flow, When the one of the two coupling rings formed on both sides of the coupling ring is fixed to the wire and the supply pipe is arranged to be inclined, And the injection nozzle connected thereto can be inclined and sprayed The present invention has been accomplished as a technical problem by focusing on a swirling spray nozzle for a vinyl house which minimizes the amount of chemical solution injected into a vinyl house.

According to an aspect of the present invention, there is provided an air cleaner having an inner inflow hole (21) provided along a longitudinal direction of a vinyl house (10) to be connected and connected to a transfer pipe (12) (20) formed in a tube shape and having a fastening ring (23) connected to and fixed to a wire (14) provided in parallel with the transfer tube (12) on the outer peripheral edge; The connection rings 23 are formed in a ring shape so as to be connected and fixed to the wires 14 provided at the upper portion of the greenhouse 10 or wires at other positions by wire or wire, A supply pipe (30) which is installed so as to oppose each other so that air and liquid are injected in opposite mutually inclined directions, and in which a male screw portion (32) is formed at each end side outer periphery; The fastening rings 23 are formed on the intermediate side between the two side supply pipes 30 on the connecting pipe 20 and are formed symmetrically on both sides with respect to the intermediate fastening ring 23, The supply pipe 30 and the injection pipe 30 are connected to each other along the inclined direction of the vinyl house 10 in the greenhouse 10 by arranging the supply pipe 30 to be inclined when the connecting ring 23 of the greenhouse 10 is fixed to the wire 14. [ The nozzle 70 can be inclined and injected so that the amount of chemical liquid injected into the vinyl house 10 can be minimized and inserted into the inside of the supply pipe 30 in the form of a tube, A narrow end step portion 43 is formed at the inner end portion and a reduced step portion 43 is formed in the inside of the reduced end step portion 43, A communication hole 45 having a size smaller than the inner diameter of the communication hole 45 is formed, A spacer tube (40) in which a filter net (47) is formed at an outer end of the reduced step (43); The filter net 47 is fixed to the inside of the rim 49 of the fixed cap 48 closely fitted to the outside of the reduced stepped portion 43 so that the outer rim end of the reduced stepped portion 43 and the fixed cap 48 are inserted into the spacer tube 40 and partially inserted into the communication hole 45 to be transmitted to the supply pipe 30 A discharge amount regulating member 50 for regulating the discharge amount of the liquid passing through the communication hole 45 by the liquid pressure; A blocking plate 61 connected to the discharge amount regulating member 50 by an elastic spring 59 and a stopper plate 61 extending outwardly of the blocking plate 61 to a length smaller than the diameter of the blocking plates 61, And a plurality of inclined vortex grooves 66 are formed on the outer periphery of the connecting rod 63. The connecting rod 63 is formed to have a diameter larger than the diameter of the connecting rod 63, A vortex generating member 65 and a vortex generating member 60 formed at an outer end of the vortex forming member 65 and having a nozzle tip 67 for maintaining the vortex forming member 65 smaller than the diameter of the vortex forming member 65; A receiving tube 72 having a female screw portion 71 fastened to the male screw portion 32 of the supply tube 30 is formed at the inner peripheral edge of the vortex generating member 60 while receiving the vortex generating member 60, A slope tube 74 having an outwardly small width is formed in such a manner that the outer surface of the vortex forming body 65 is selectively in contact with the slope tube 74. A liquid spray hole 76 is formed at an end of the slope tube 74, And an air supply pipe (78) communicating with the outside on a receiving tube (72) in which the air supply pipe (78) is located. The air supply pipe (78) has an outer circumference formed in a cylindrical shape, And a hook portion 78a is formed on the outer peripheral edge of the air supply pipe 78 so as to be coupled to a one-touch nipple 80 provided at an end portion of the air supply hose 79, Thereby providing an intangible injection nozzle.

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The discharge amount adjusting member 50 is provided with a conical adjusting member 52 which is partially inserted into the communication hole 45 and is moved by the operation of the elastic spring 59 due to the liquid pressure, And a moving groove portion (54) is formed on the outer circumferential surface of the cylindrical body extending to the outer circumferential surface (52).

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According to the present invention, a supply pipe for spraying air and liquid in mutually opposite directions is formed on both sides of a connection pipe of a nozzle for supplying pesticide, water or other liquid to crops growing in a greenhouse by supplying air, The coupling ring being connected and fixed to a wire provided in parallel with the conveyance pipe so as to be symmetrical with respect to the intermediate side and both sides thereof, so as to be swiveled while being rotated in either the clockwise direction or the counterclockwise direction due to the jet flow of the jetted air and the liquid. If any one of the fastening rings formed on both sides is fixed to the wire, if the supply pipe is configured to be inclined, the supply pipe and the injection nozzle connected thereto are inclined along the inclined direction of the vinyl house in the plastic house, The amount of chemical solution injected into the vinyl house There is an effect that allows you to minimize.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a swirling spray nozzle for a greenhouse according to the present invention; FIG.
Fig. 3 is a detailed exploded view of the present invention
4 is a diagram illustrating an example of the use state according to the present invention
Figures 5 to 7 illustrate an example of another embodiment according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to a method and apparatus for supplying air, which is sprayed in mutually opposite directions, by forming a supply pipe for spraying air and liquid in mutually opposite directions on both sides of a connection pipe of a nozzle for spraying liquid such as pesticide or water, And a clamping ring connected and fixed to a wire provided parallel to the conveying pipe is formed symmetrically on the middle side and on both sides thereof so as to be swiveled while being rotated in either clockwise or counterclockwise direction due to the injection flow of the liquid. If any one of the fastening rings formed on both sides is fixed to the wire, if the supply pipe is configured to be inclined, the supply pipe and the injection nozzle connected thereto may be inclined and sprayed along the inclined direction of the vinyl house in the plastic house So that the amount of chemical solution injected into the vinyl house can be minimized. 1 to 7, a connection pipe 20, a supply pipe 30, a spacer pipe 40, a discharge amount regulating member 50, a vortex generating member (not shown) 60 and an injection nozzle 70.

1, the connection pipe 20 for implementing the gypsum spraying nozzle for a vinyl house according to the present invention is installed along the longitudinal direction of the installation of the greenhouse 10, (23) formed in the shape of a tube having an inner inflow hole (21) so as to be connected and connected to the pipe (12) and connected to a wire (14) provided in parallel with the transfer pipe (12) .

The inflow hole 21 is a space for continuously moving the pesticide or water liquid flowing in the transfer pipe 12 and the fastening ring 23 is connected to the wire 20 installed on the upper part of the plastic house 10 Or to be fixedly connected to the wire 14 or another wire by a wire or a wire.

A supply pipe 30 is provided on both sides of the connection pipe 20. 1, the supply pipe 30 for the implementation of the present invention is provided such that air and liquid are jetted in mutually oblique opposite directions on both sides of the connection pipe 20, So that the threaded portion 32 is formed.

By arranging the supply pipes 30 so as to oppose each other so as to be sprayed in mutually inclined opposite directions, as shown in FIG. 4, the flow of air and liquid sprayed in mutually opposite directions causes rotation in either clockwise or counterclockwise direction It is possible to implement the swirling flow.

5 (a), the supply pipe 30 may be formed on both sides of the connection pipe 20 so as to be symmetrically inclined in the same direction as shown in FIG. 5 (b) The connecting ring 23 is formed to be parallel to one side of the supply pipe 30 so that the connecting ring 23 is connected and fixed to the wire 14, So that the supply pipe 30 is inclined to one side.

6 and 7, the fastening ring 23 is connected to both the side supply pipes 30 on the connection pipe 20, And one of the coupling rings 23 formed on both sides of the coupling ring 23 is fixed to the wire 14 so as to be symmetrical with respect to the middle side coupling ring 23, The supply tube 30 and the injection nozzle 70 connected to the supply tube 30 can be inclined and sprayed along the inclined direction of the vinyl house 10 installed in the plastic greenhouse 10, It is possible to minimize the amount of the chemical liquid to be buried in the plastic greenhouse 10, thereby reducing the loss of the chemical liquid.

On the other hand, a tube-shaped spacer tube 40 is inserted into the supply tube 30 as shown in FIG. The spacer tube 40 is formed at its outer end with an enlarged step portion 41 which is in close contact with an outer edge portion of the supply pipe 30 and a reduced step portion 43 is formed at an inner end portion of the enlarged step portion 41, 43 is formed with a communication hole 45 having a size smaller than the inner diameter of the reduced step portion 43.

A filter net 47 is provided at an outer end of the reduced step portion 43 to filter out foreign matter from the liquid flowing into the supply pipe 30. 3, the filter net 47 is fixed to the outside of the narrow end step portion 43. The filter net 47 is fixed to the outer end of the narrow end step portion 43, And the filter net 47 is fixed inside the rim 49 of the cap 48 so that the rim 47 is positioned between the outer edge of the narrowed step 43 and the inside of the rim 49 of the fixed cap 48. [ .

A discharge amount regulating member (50) is inserted into the spacer tube (40). The discharge amount regulating member 50 is a means for regulating the discharge amount of the liquid passing through the communication hole 45 by a liquid pressure partially inserted into the communication hole 45 and transmitted to the supply pipe 30, 3, the adjusting member 50 is provided with a conical adjusting piece 52 which is partially inserted into the communication hole 45 and is moved by the operation of the elastic spring 59 due to the liquid pressure, It is preferable that the moving groove portion 54 is formed so as to increase the flow velocity of the liquid on the outer peripheral edge of the cylindrical body extending to the outer peripheral portion 52.

3, the discharge amount regulating member 50 is connected to the vortex generating member 60 by an elastic spring 59. The vortex generating member 60 is formed of a disc-shaped A connecting rod 63 extending outwardly from the blocking plate 61 to a diameter smaller than the diameter of the blocking plate 61 and having a diameter larger than the diameter of the connecting rod 63, A vortex forming body 65 formed in an incised conical shape and having a plurality of inclined vortex grooves 66 formed at an outer periphery thereof and a vortex forming body 65 at an outer end of the vortex forming body 65, And a nozzle tip 67 for holding the vortex.

At this time, in order to generate a vortex when the liquid is moved, air is supplied at the initial point of the vortex formation of the liquid to form a vortex having a high pressure and a stable rotational force. The diameter of the blocking plate 61 And the vortex forming member 65 is formed on the end side of the connecting rod 63 so as to be larger than the diameter of the connecting rod 63. In this structure, And a connecting rod 63 disposed between the connecting rod 63 and the connecting rod 63. This interspace becomes a submerging space (s) for forming a vortex having a high-pressure and stable rotational force. In the submerged space s, a vortex is generated while the air flowing through the air supply pipe 78, which will be described later, is left for a while before being discharged. The inclined vortex groove (66) is formed in a spiral shape so that a strong vortex can be generated.

At this time, a hose 79 is connected to the air supply pipe 78 to allow air to pass therethrough and a hitch 79 is connected to the air supply pipe 78 so as to stably hold the hitch 79, .

3, the outer circumference of the air supply pipe 78 is formed in a cylindrical shape, and a latching portion 78a is formed on the outer circumference of the air supply pipe 78 so that air And is connected to a one-touch nipple 80 provided at an end of the supply hose 79. [

The spray nozzle 70 is connected to the supply pipe 30 to receive the vortex generating member 60 to spray the liquid.

3, the injection nozzle 70 includes a receiving tube 72 having a female threaded portion 71 that is fastened to the male threaded portion 32 of the supply tube 30 at its inner periphery while receiving the vortex generating member 60 And an inclined tube 74 having a small outward width is formed at an end of the receiving tube 72 so that the outer surface of the vortex forming body 65 is selectively in contact with the end of the vortex forming body 65, A liquid injection hole 76 is formed in which the nozzle tip 67 is exposed so as to be exposed to the outside and a distance from the outer periphery of the nozzle tip 67 for maintaining vortex is maintained, An air supply pipe 78 communicating with the outside is formed.

According to the above-described glow discharge spraying nozzle for a vinyl house of the present invention, air and liquid are supplied to opposite sides of a connection pipe of a nozzle for spraying liquid such as pesticide or water to crops growing in a greenhouse by supplying air. And a connection pipe which is connected and fixed to a wire provided in parallel with the transfer pipe so as to be swiveled while being rotated in either one of a clockwise direction and a counterclockwise direction due to the injection flow of air and liquid jetted in mutually opposite directions, If the ring is formed symmetrically on the middle side and both sides thereof and one of the two fastening rings formed on both sides of the ring is fixed to the wire so that the supply pipe is inclinedly positioned, The supply pipe and the spray nozzle connected thereto can be inclined and sprayed The chemical that is injected into the can to minimize the amount of prompts in the greenhouses.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Should be clarified. Therefore, it is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

10: vinyl house 12: conveying pipe
14: Wire 20: Connector
23: fastening ring 30: feed pipe
40: spacer tube 50: discharge amount regulating member
60: vortex generating member 70: injection nozzle

Claims (6)

And is formed in the shape of a tube having an inner inflow hole (21) installed along the longitudinal direction of the installation of the plastic greenhouse (10) so as to be connected and connected to the transfer pipe (12) A connection pipe (20) formed with a fastening ring (23) connected and fixed to a wire (14) provided in parallel with the transfer pipe (12);
The fastening ring 23 is formed in an annular shape so as to be connected and fixed to a wire 14 or another position wire provided on the upper portion of the greenhouse 10 by a wire or a wire,
A supply pipe (30) provided on both sides of the connection pipe (20) so as to face each other so that air and liquid are sprayed in mutually oblique opposite directions, and a male screw portion (32) is formed on each end side outer periphery;
The fastening rings 23 are formed on the intermediate side between the two side supply pipes 30 on the connecting pipe 20 and are formed symmetrically on both sides with respect to the intermediate fastening ring 23, The supply pipe 30 and the injection pipe 30 are connected to each other along the inclined direction of the vinyl house 10 in the greenhouse 10 by arranging the supply pipe 30 to be inclined when the connecting ring 23 of the greenhouse 10 is fixed to the wire 14. [ Since the nozzle 70 can be inclined and sprayed, the amount of chemical liquid injected into the plastic greenhouse 10 can be minimized,
An enlarged step portion 41 is formed at an outer end portion of the pipe 30 to be in close contact with the outer edge portion of the supply pipe 30 and a reduced step portion 43 is formed at the inner end portion A communicating hole 45 having a size smaller than the inner diameter of the reduced step portion 43 is formed inside the reduced step portion 43 and a filter net 47 is attached to the outer end portion of the reduced step portion 43 A spacer tube 40 formed;
The filter net 47 is fixed to the inside of the rim 49 of the fixed cap 48 closely fitted to the outside of the reduced stepped portion 43 so that the outer rim end of the reduced stepped portion 43 and the fixed cap 48 are positioned inside the rim 49,
A discharge amount adjusting member for adjusting the discharge amount of the liquid passing through the communication hole 45 by the liquid pressure inserted into the spacer tube 40 and partially inserted into the communication hole 45 to be transmitted to the supply pipe 30, (50);
A blocking plate 61 connected to the discharge amount regulating member 50 by an elastic spring 59 and a stopper plate 61 extending outwardly of the blocking plate 61 to a length smaller than the diameter of the blocking plates 61, And a plurality of inclined vortex grooves 66 are formed on the outer periphery of the connecting rod 63. The connecting rod 63 is formed to have a diameter larger than the diameter of the connecting rod 63, A vortex generating member 65 and a vortex generating member 60 formed at an outer end of the vortex forming member 65 and having a nozzle tip 67 for maintaining the vortex forming member 65 smaller than the diameter of the vortex forming member 65;
A receiving tube 72 having a female screw portion 71 fastened to the male screw portion 32 of the supply tube 30 is formed at the inner peripheral edge of the vortex generating member 60 while receiving the vortex generating member 60, A slope tube 74 having an outwardly small width is formed in such a manner that the outer surface of the vortex forming body 65 is selectively in contact with the slope tube 74. A liquid spray hole 76 is formed at an end of the slope tube 74, And an injection nozzle (70) for forming an air supply pipe (78) communicating with the outside on a receiving tube (72)
The air supply pipe 78 is formed in the shape of a cylinder with an outer periphery and a latching portion 78a is protruded on the outer peripheral edge of the air supply pipe 78 so that the one- (80). The swirling spray nozzle for a vinyl house according to claim 1,
delete delete delete The method according to claim 1,
The discharge amount adjusting member 50 is provided with a conical adjusting member 52 which is partially inserted into the communication hole 45 and is moved by the action of the elastic spring 59 due to the liquid pressure, Wherein a moving groove portion (54) is formed on the outer circumferential surface of the cylindrical body extending in the circumferential direction of the cylindrical body so as to increase the flow velocity of the liquid.
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