KR102551071B1 - Low pressure spray nozzle - Google Patents

Abstract

The content disclosed herein is that the curved structure for reducing the flow rate of the existing invention obstructs the flow of the fluid, thereby reducing the flow rate and allowing foreign matter to be deposited, whereas the present invention is manufactured in the form of an elastic means or a screw thread to reduce the flow rate. It relates to the provision of a low-pressure nozzle that prevents clogging while reducing and allows fluid to move at a high speed.
According to one embodiment of the disclosure in the present specification, the low-pressure nozzle is formed in a form in which a first space therein is opened forward, and a portion of one side is recessed to connect the first passage and the other side to the first space. A first body including a second passage part that is partially recessed and extends forward while penetrating the inside and is open to the front, a guide member formed in a form extending forward and backward and inserted into the first space, and a first nozzle space inside A second body coupled to the first body to be connected to the first space and formed with a first nozzle hole connected to the first nozzle space at the front and coupled to the front of the first body to form the second body and a third body having a second nozzle space connected to the first passage and the first nozzle hole and a second nozzle hole penetrating the front.

Description

Low pressure nozzle {LOW PRESSURE SPRAY NOZZLE}

The subject matter disclosed herein relates to a nozzle, and relates to a low-pressure nozzle ejecting a fluid.

Unless otherwise indicated herein, material described in this section is not prior art to the claims in this application, and it is not admitted that the material described in this section is prior art.

In general, when crops are grown in greenhouses, crops are sprayed with pesticides to control pests, nutrient side fertilization to help plants grow, and finely sprayed for the purpose of lowering the temperature in hot weather and humidifying to maintain humidity in the greenhouse. Install the nozzle at an appropriate location per area.

However, the conventional nozzle has an elastic means inside, and when the elastic force of the elastic means is lowered, it causes failure or malfunction, durability is reduced, and the disassembly and assembly cycle is shortened for maintenance of the elastic means, resulting in low maintainability. there is

In this regard, Korean Patent Registration No. 10-1681970 discloses a mist spray nozzle for a house and a device for controlling the growth environment of house-cultivated crops including the same, and Korean Patent Registration No. 10-1041168 discloses a low-pressure spray device. are doing

In addition, the existing inventions do not disclose a technique for reducing the clogging of nozzles according to use.

In the prior invention, the curved structure for reducing the flow rate obstructs the flow of the fluid, reducing the flow rate and allowing foreign matter to be deposited, whereas the present invention is manufactured in the form of an elastic means or screw thread to reduce the flow rate and prevent clogging. It is to provide a low pressure nozzle in which the fluid moves at a high speed.

In addition, it is not limited to the technical problems as described above, and it is obvious that other technical problems may be derived from the following description.

According to one embodiment of the disclosed subject matter, the low-pressure nozzle is formed in a form in which a first space therein is opened forward, and a portion of one side thereof is recessed, and a first passage portion connected to the first space and a portion of the other side surface are recessed. and a first body including a second passage part extending forwardly and opening forward while penetrating the inside, a guide member formed in a form extending forward and backward and inserted into the first space, and a first nozzle space inside the first body. A second body coupled to the first body to be connected to one space and having a first nozzle hole connected to the first nozzle space on the front surface is formed and coupled to the front of the first body to seal the second body; A third body having a second nozzle space connected to the first passage and the first nozzle hole and a second nozzle hole penetrating the front surface are formed therein.

In addition, the guide member may be formed with a square screw thread extending in a spiral shape along an extension direction on the outside and a screw groove extending in a spiral shape between the square screw thread and connecting the first passage portion and the first nozzle hole. .

In addition, one end of the second body is inserted into the first body, and a flange is formed outside the other end to be fixed to the third body, and the flange has a plurality of penetrations connecting the second nozzle space and the second passage. Balls may form.

The low-pressure nozzle may further include a ball inserted into the first space to seal the first passage and a spring disposed in front of the ball in the first space.

According to one embodiment disclosed in the present specification, the low-pressure nozzle uses an elastic means or a screw-type guide member therein to reduce the flow rate of the fluid supplied to the inside of the low-pressure nozzle while increasing the velocity of the fluid and preventing clogging. There are advantages.

In addition, the low-pressure nozzle uses an elastic means and a screw-type guide member to set the standard pressure required for the fluid to flow into the low-pressure nozzle, enabling fluid spray with a constant level of spraying force, while the failure of the elastic means occurs. Even in this case, it has the advantage of being able to spray fluid at low pressure.

In addition, since the effects of the present invention described as described above are naturally exhibited by the configuration of the described contents regardless of whether the inventor recognizes them, the above-described effects are only a few effects according to the described contents, and all the effects that the inventor grasps or realizes should not be accepted as written.

In addition, the effect of the present invention should be additionally grasped by the overall description of the specification, and even if it is not described in an explicit sentence, those skilled in the art to which the described contents belong will have such an effect through this specification. If the effect can be recognized as such, it should be regarded as the effect described in this specification.

1 is perspective views of a low pressure nozzle according to an embodiment of the present specification.
2 and 3 are exploded perspective views of the low pressure nozzle of FIG. 1;
4 is a cross-sectional view of the nozzle of FIG. 1 taken along II';

Hereinafter, with reference to the accompanying drawings, the configuration, operation and effect of the low pressure nozzle according to the preferred embodiment will be described. For reference, in the following drawings, each component is omitted or schematically illustrated for convenience and clarity, the size of each component does not reflect the actual size, and the same reference numerals refer to the same components throughout the specification. , and reference numerals for the same components in the individual drawings will be omitted.

The low pressure nozzle 100 includes a first body 200, a ball 300, a spring 350, a guide member 400, a second body 500, and a third body 600.

The first body 200 includes a first passage part 210 and a second passage part 220 .

One end of the first body 200 is formed in a cylindrical shape in which the first space 205 inside is open toward the first direction 1 corresponding to the front, and the other end has one end in the first direction 1 from one end. It is formed in a cylindrical shape extending by a predetermined distance with a reduced outer diameter.

A part of the inner surface of the first body 200 corresponding to the second direction (2) side of the first space 205 is depressed in a cylindrical shape toward the second direction (2) to form a second space 207, It is connected to the first passage part 210 to be described later.

The first passage part 210 includes a first groove 211 and a first passage 212 .

The first passage portion 210 is formed such that a portion of one side of the first body 200 is depressed to be connected to the second space 207 and the external space at one side of the first body 200, and the first passage portion 210 Through this, fluid or gas may be introduced into the second space 207 .

The first groove 211 is formed in a cylindrical shape by having one end of the side surface of the first body 200 in the second direction 2 depressed toward the first space 205 by a predetermined distance, and the first passage 212 ) is formed by recessing a portion of the inner surface of the first body 200 inside the first groove 211 toward the second space 207.

Therefore, the external fluid or gas flows into the first and second spaces 205 and 207 through the first groove 211 and the first passage 212, and the fluid or gas introduced into the first space 205 is moved in the first direction (1).

The second passage part 220 includes a second groove 221 and a second passage 222 .

In the second passage part 220, a portion of the other side surface of the first body 200 is depressed toward the first space 205 by a predetermined distance and passes through the first body 200 toward the first direction (1). It is bent and extended to open toward the first direction 1 so as to be spaced apart from the opening of the first space 205 at a position adjacent to the front edge of the first body 200 .

The second groove 221 is formed in a cylindrical shape by a portion of the other side surface of the first body 200 being depressed toward the first space 205 to a position adjacent to the first space 205 .

The second passage 222 is formed by a portion of the inner surface of the first body 200 corresponding to the first inner direction (1) side of the second groove 221 being depressed and extended toward the first direction (1) and the other side. 1 Connect the space on the first direction (1) side of the body 200 and the second groove 221.

The ball 300 is formed in a spherical or cone shape, is inserted into the first space 205, and a portion of the side surface in the second direction (2) side is the opening of the second space 207 in the first direction (1) side. It is inserted into the first and second spaces (205, 207) to seal between them.

One end of the spring 350 is formed in a form surrounding a portion of the ball 300 in the first direction (1), and the other end extends toward the first direction (1) in a spiral form from one end to guide member 400 Detachably coupled with

One end of the guide member 400 is a lead screw with a square screw thread 410 and a screw groove 420 formed between the square screw threads 410 extending in the first or second direction (1, 2) on the outside. It is formed in a shape, and a part of the rear surface toward the second direction (2) protrudes in the second direction (2) and is inserted into the other end of the spring (350).

The other end of the guide member 400 extends from one end to protrude forward in the first direction 1 of the first body 200 toward the first direction 1, and has a square screw thread 410 and a screw groove 420 is extended from one end to the other end of the guide member 400 in a spiral form along the outer surface of the other end.

The outer surface of the square screw thread 410 is in close contact with the inner surface of the first body 200 corresponding to the inside of the first space 205, and the screw groove 420 is formed in the form of a spiral passage so that the guide member 400 The first space 205 on the second direction (2) side of ) and the space on the first direction (1) side of the guide member 400 are connected to each other.

The third groove 232 is a circular part of the front center of the first direction (1) side of the first body 200 is depressed by a predetermined distance toward the second direction (2) and connected to the first space 205 It is formed as a space in the form of a cylinder.

One end of the second body 500 is formed in a cylindrical shape surrounding a portion of the other end of the guide member 400, the first nozzle space 505 is formed therein, and is inserted into the third groove 232 so that the outer surface is The third groove 232 is in close contact with the inner surface of the first body 200 inside.

The first nozzle space 505 is connected to the first space 205, and in a state where the second body 500 is coupled to the first body 200, the first space 205 is the first nozzle space 505 It is connected to and the first space 205 and the third groove 232 are blocked from each other.

The other end of the second body 500 is extended by a predetermined distance toward the first direction (1) from one end, and then extends toward the first direction (1) while the outer diameter is gradually reduced, so that the outer diameter is extended toward the inclined surface in the form of a conical side to the outside. is formed, and a central part of the front surface of the other end is depressed in the second direction (2) to form a second nozzle hole 607 connected to the first nozzle space 505.

The flange 510 has a part of the outer surface of the other end of the second body 500 corresponding to a position spaced apart from the front surface of the first body 200 in an annular shape toward the outside, and the outer surface is outside the other end of the first body 200. It protrudes until it reaches the same horizontal line as the side.

An annular third nozzle space 606 is formed between the rear surface of the flange 510 and the front surface of the first body 200 in a state in which one end of the second body 500 is inserted into the third groove 232, , the third nozzle space 606 is connected to the second passage 222 .

The plurality of through holes 508 are part of the rear circular shape of the flange 510 surrounding the other end of the second body 500 is depressed toward the first direction (1), so that the first direction (1) of the flange 510 ) side space and the second direction (2) side space are connected.

In the O-ring groove 503, a part of the outer surface of one end of the second body 500 is recessed by a predetermined distance toward the first nozzle space 505, and the first nozzle is spaced apart with the second body 500 therebetween. It is an O-ring groove formed as an annular space surrounding the space 505 .

An O-ring is inserted into the O-ring groove 503 to surround one end of the second body 500, and effectively maintains mutual airtightness between the liquid flowing into the first passage part 210 and the compressed air flowing into the second passage part 220. keep

One end of the third body 600 is formed in a container shape in which the second nozzle space 605 therein is open toward the second direction 2, and the other end of the first body 200 and the second body 500 In a state where is inserted into the second nozzle space 605, the inner surface of one end of the third body 600 is detachably coupled to the outer surface of the other end of the first body 200.

The other end of the third body 600 is extended by a predetermined distance toward the first direction (1) while maintaining a state in which the inner diameter of the inner surface is relatively smaller than the one end, and then the inner diameter is gradually reduced in the first direction (1). It extends to form the inner surface of the side shape of a cone.

A central part of the front surface of the other end of the third body 600 is depressed toward the second direction 2 so that the second nozzle hole 607 connecting the second nozzle space 605 and the front space of the third body 600 is formed. is formed

In a state where the third body 600 is coupled to the first body 200, the inner surface of the other end of the third body 600 in the second direction (2) inside the second nozzle space 605 has a through hole 508 It is in close contact with a front portion of the flange 510 corresponding to the outer side of them to fix the second body 500.

One end of the second body 500 is in close contact with the inner surface of the first body 200 in the third groove 232, and the front surface of the flange 510 is in close contact with the inner surface of the third body 600, In a state in which one end of the third body 600 is coupled to the first body 200, the inner surface of the other end of the third body 600 is spaced apart from the outer surface of the other end of the second body 500 to form a second passage 222. , the third nozzle space 606, the through holes 508, the second nozzle space 605, and the second nozzle hole 607 are connected to each other.

Therefore, the flow rate of the fluid introduced into the first passage 210 is reduced while passing through the ball 300 and the guide member 400, and is ejected into the second nozzle space 605 through the first nozzle hole 507. The fluid to be transferred passes through the second nozzle hole 607 to the front of the third body 600 with the pressure of the air moving to the second passage 220, the through holes 508, and the second nozzle space 605. is sprayed

In addition, the ball 300 and the spring 350 are connected to the first space 205 in a state in which spraying of the low pressure nozzle 100 is terminated when the supply of compressed air is stopped and the supply of fluid to the first passage part 210 is stopped. ) Check valve function to prevent the fluid flowing into the first passage part 210 from being sprayed thickly due to the residual pressure inside, and to prevent the dripping phenomenon by blocking the fluid flowing into the first space 205 below a certain pressure do.

In addition, even when the spring 350 and the ball 300 are not present in the first space 205, the fluid flowing into the first space 205 moves at a high speed while the flow rate decreases while passing through the screw groove 420. As a result, clogging is prevented.

In addition, since the fluid flows into the first space 205 only when the spring 350 is reduced by pushing the ball 300 toward the first direction (1), the pressure of the fluid is higher than the standard enough to reduce the spring 350. There is an advantage that can be controlled to flow into the first space 205 only when.

In addition, the square screw thread 410 may be formed with a screw thread having a triangular cross section instead of a square screw, and in this case, a portion of the fluid can be moved in the first direction (1) through the outer end of the screw thread, so that the guide member (400) can lower the reduction effect.

The fluid moving in the first direction 1 in the first space 205 along the threaded groove 420 moves from the first nozzle hole 507 to the second nozzle space 605, and the second passage 220 ) and through-holes 508 are vaporized or atomized by the high-pressure air flowing into the second nozzle space 605 and then sprayed forward of the low-pressure nozzle 100 through the second nozzle hole 607 .

On the other hand, in the side grooves 608 shown in FIG. 2 , a portion of the outer surface spaced apart from each other by the same distance along the outer surface of the other end of the third body 600 in the extension direction toward the second nozzle space 605 is predetermined. It is formed by being depressed by a distance of , and convenience is improved in the process of screwing the first and third bodies 200 and 600.

Although the preferred embodiments of the present invention have been described with reference to the accompanying drawings, the embodiments described in this specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention and represent all the technical ideas of the present invention. Since it is not, it should be understood that there may be various equivalents and modifications that can replace them at the time of this application. Therefore, the embodiments described above should be understood as illustrative and not restrictive in all respects, and the scope of the present invention is indicated by the claims to be described later rather than the detailed description, and the meaning and scope of the claims and their All changes or modified forms derived from equivalent concepts should be construed as being included in the scope of the present invention.

100: low pressure nozzle 200: first body
300: ball 400: guide member
500: second body 600: third body

Claims (4)

The first space inside is formed in a forward open form, and a portion of one side of the first passage portion connected to the first space is recessed and a portion of the other side is recessed and extends forward while penetrating the inside to open to the front. A first body including a second passage portion to be;
a guide member formed in a form extending forward and backward and inserted into the first space;
a second body coupled to the first body such that an internal first nozzle space is connected to the first space, and a first nozzle hole connected to the first nozzle space is formed on a front surface;
It is coupled to the front of the first body to seal the second body, and a second nozzle space connected to the first passage and the first nozzle hole and a second nozzle hole penetrating the front are formed therein, a third body whose inner diameter is gradually reduced toward the second nozzle hole;
a ball inserted into the first space to seal the first passage; and
Including; spring disposed in front of the ball in the first space,
One end of the second body is inserted into the first body, and a flange having a plurality of through holes connecting the second nozzle space and the second passage is disposed outside the other end of the second body,
In a state in which the third body is coupled to the first body, an inner surface of the third body is in close contact with the flange in which the plurality of through holes are formed to fix the second body to the third body,
A third nozzle space connecting the second passage and the plurality of through holes is formed between the rear surface of the flange and the front surface of the first body,
In a state in which the second body is inserted into the second nozzle space, one end of the third body extends toward the first body, and the outer surface of the other end of the first body, the second body, and the third nozzle placed around the space
Characterized in that the guide member has a square screw thread extending in a spiral shape along the extension direction on the outside and a screw groove extending in a spiral shape between the square screw thread and connecting the first passage portion and the first nozzle hole, low pressure nozzle. delete delete delete

Images