KR101505309B1 - Liquid sprayer and its nozzle body - Google Patents

Abstract

     The present invention relates to an atomizer, and even if it is repeatedly used, the remnants of the liquid agent are not dried around the nozzle, and the nozzle portion is operated during the use of the atomizer to pierce the liquid jetting port so that clogging of the nozzle is not caused, In order to prevent the medicinal droplets from falling on the crops or soil before and after the spraying machine is used, and to reduce the production cost of the sprayer, Jet tank; A nozzle body connected to one side of the nozzle body and connected to a liquid inflow path of the nozzle body and having a liquid transfer path therein, And a nozzle coupling nut for screwing the nozzle cap to the nozzle body; A needle portion inserted from a first cylinder formed on the other side of the nozzle body and inserted through the liquid transfer path so that the tip portion is detachably attached to the liquid injection port and the other side is formed with a sealing member and a partition plate and a protrusion coupled with the packing; A first spring fitted to the projection; A spring cap screwed into the nozzle body with the first spring inserted therein; An atomizing amount adjusting unit including an injection amount adjusting bolt and a second spring for limiting a retreat interval of the projection; A first air inflow path formed in the nozzle body and connected to the nozzle unit, an air distributor for supplying compressed air to a second air inflow path connected to the first cylinder formed on the other side of the nozzle body, And a third spring for preventing the shock, wherein the second cylinder is formed in the protruding portion of the needle portion so as to form a flat plate, and a third spring for preventing an impact, wherein the solenoid valve And a control unit for controlling the operation of the compressor, the air distributor, and the solenoid valve.

Description

[0001] Liquid sprayer and its nozzle body [0002]

The present invention relates to an atomizer having a nozzle clogging prevention function, and more particularly, to an atomizer having a nozzle member with a needle member to prevent clogging of the nozzle and fine adjustment of the injection amount.

In general, liquid spraying is performed in various industrial fields, and spraying of water or pesticide spraying on crops, spraying of paint in the field of construction, spraying of water on the road, etc., can be said to be numerous .

Such liquid spraying generally involves mixing liquid with air and pulverizing it into fine particles to spray the liquid onto the object. However, when a liquid containing a mucilage component is sprayed, nozzle clogging often occurs, which may waste time and effort. It is difficult to adapt to the spraying situation because it can not be controlled. When spraying pesticide, it starts spraying or when the spraying ends, non-granulated pesticide falls into crops or soil, There is a problem.

In recent years, in order to overcome the disadvantages of such an injector, there has been developed a spraying device for preventing clogging of the nozzles and controlling spraying amount, and for preventing the drops of pesticide occurring before and after the spraying from falling on the crops or the soil. For example, Korean Patent Registration No. 101218279 A second compressed air supply unit communicating with the liquid transfer path is separately provided to mitigate the clogging of the nozzle to remove debris from the pipeline of the nozzle by the compressed air. In order to adjust the injection amount, the pressurizing rod is connected to the liquid injection port 380 And the spray amount is adjusted by changing the position of the pressing rod by using the lever of the spray amount adjusting portion. However, in the above-mentioned patent, it is necessary to further include a separate compressed air supply unit in order to reduce nozzle clogging, so that the production cost of equipment is increased and the pressure rod is not normally closed at the liquid injection port 380, It is described that the pesticide droplets are damaged in the crop or the soil and the pressure rod is adjusted by using the lever. However, when the adjustment is made using the lever, the position of the pneumatic rod can be changed during operation of the spraying device, And it is difficult to maintain the adjusted position stably.

In the present invention, when the sprayer is repeatedly used, which is a problem of the conventional liquid sprayer as described above, the residue of the drug due to use is dried around the nozzle to clog the nozzle, or the nozzle clogging that occurs during use of the sprayer And to make it possible to finely adjust the amount of spraying, to prevent the medicinal droplets from falling on crops or soil before and after the spraying machine to cause damage, to maintain the adjusted spraying amount constantly, and to reduce the production cost of the spraying machine I made it.

According to an aspect of the present invention, there is provided a dispenser comprising: a dispenser tank having a dispensing liquid therein; A nozzle body 310 connected to the jetting tank 200 through a liquid supply pipe 210 and connected to one side of the nozzle body 310 and connected to a liquid inflow path 350 of the nozzle body 310 A nozzle cap 330 for covering the nozzle tube member 320 and a nozzle coupling 330 for screwing the nozzle cap 330 to the nozzle body 310. [ A nozzle unit 300 including a nut 340; The tip portion 510 is inserted into the liquid injection port 380 so as to be detachable from the first cylinder 390 formed on the other side of the nozzle body 310 and through the liquid transfer path, A needle portion 500 formed with a partition 520 and a protrusion 540 to which the packing 530 is attached; A first spring 600 fitted in the protrusion 540; A spring cap 700 screwed to the nozzle body 310 with the first spring 600 inserted therein; An atomizing amount adjusting unit 800 including an injection amount adjusting bolt 810 and a second spring 820 for limiting a retreat interval of the protrusion 540; A first air inflow path 360 formed in the nozzle body 310 and connected to the nozzle unit 300 and a second air inflow path 360 connected to the first cylinder 390 formed on the other side of the nozzle body 310. [ And a high pressure air generator 100 including an air distributor 120 for supplying compressed air to the air distributor 120 and a compressor 110 for generating and supplying compressed air to the air distributor 120, A second cylinder 544 is formed in the protrusion 540 of the needle unit 500 and includes a needle end 541 formed in a flat plate and a third spring 542 for preventing the shock. And a control unit for controlling the operation of the compressor (110), the air distributor (120) and the solenoid valve.

The present invention is advantageous in that even if the sprayer is used repeatedly, the passage of the liquid is basically blocked, the medicine is sprayed after the air is sprayed, and the spraying of the liquid is stopped after the spraying of the liquid is stopped even before the termination, The nozzle clogging phenomenon does not occur, the spray amount can be finely adjusted, the adjusted spray amount is continuously maintained, and the chemical drop is generated before and after the use of the sprayer, It is possible to prevent the occurrence of a breakdown in crops or soil and to reduce the production cost of the sprayer.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is an overall schematic view of the present invention and a cross-sectional view of a nozzle body portion.
Fig. 2 is a cross-
Fig. 3 is a cross-

The terms or words used in the specification and claims should not be construed in a conventional and dictionary sense and the inventor may properly define the concept of the term in order to best explain his or her invention Should be construed in accordance with the principles and meanings and concepts consistent with the technical idea of the present invention.

Hereinafter, a liquid atomizer and a nozzle body for a liquid atomizer according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Fig. 2 is a developed view of the nozzle body part, and Fig. 3 is an exploded view of the developed view of the needle part 500. Fig.

1 to 3, a liquid atomizer according to an embodiment of the present invention includes a high-pressure air generating unit 100, a jetting tank 200, a nozzle unit 300, a needle unit 500, (600), a spring cap, and a spray amount adjusting unit (800).

The present invention relates to a dispenser tank (200) having a dispensing liquid therein; A nozzle body 310 connected to the jetting tank 200 through a liquid supply pipe 210 and connected to one side of the nozzle body 310 and connected to a liquid inflow path 350 of the nozzle body 310 A nozzle cap 330 for covering the nozzle tube member 320 and a nozzle coupling 330 for screwing the nozzle cap 330 to the nozzle body 310. [ A nozzle unit 300 including a nut 340; The tip portion 510 is inserted into the liquid injection port 380 so as to be detachable from the first cylinder 390 formed on the other side of the nozzle body 310 and through the liquid transfer path so that the tip portion 510 is detachably inserted into the sealing member 400, a needle portion 500 having a diaphragm 520 and a protrusion 540 attached with a packing 530; A first spring 600 fitted in the protrusion 540; A spring cap 700 screwed to the nozzle body 310 with the first spring 600 inserted therein; An injection amount adjusting unit 800 including an injection amount adjusting bolt 810 and a second spring 820 for limiting a retreat interval of the protrusion 540; A first air inflow path 360 formed in the nozzle body 310 and connected to the nozzle unit 300 and a second air inflow path 360 connected to the first cylinder 390 formed on the other side of the nozzle body 310. [ And a high pressure air generator 100 including an air distributor 120 for supplying compressed air to the air distributor 120 and a compressor 110 for generating and supplying compressed air to the air distributor 120.

The high-pressure air generating unit 100 may include an air compressor 110 and an air distributor 120. The air compressor 110 may generate or stop the generation of high-pressure air according to a control signal transmitted from the controller .

The air distributor 120 stores the high-pressure air supplied from the air compressor 110 and separates the high-pressure air from the first air inflow path 360 in the nozzle body 310 through the first air supply pipe 121 The high-pressure air supplied and supplied is blown between the upper portion of the nozzle tube member 320 and the nozzle cap 330 through the jet port formed in the nozzle cap 330. The jetted high- A negative pressure according to the Bernoulli principle is formed in the liquid transfer path formed in the inside of the jetting tank 200, and the jetted substance stored in the jetting tank 200 is sucked and injected.

The air supplied to the second air inflow path 370 formed in the nozzle body 310 through the second air supply pipe 122 separated from the air distributor 120 is supplied to the second air inflow path 370 1 cylinder 390 and the inflow of the high pressure air pushes back the diaphragm 520 of the needle part 500. When the liquid spout 380 of the nozzle tube member 320 is released by the first spring 600, The tip end portion 510 of the needle portion 500 blocking the nozzle portion 500 is pushed back so that the liquid ejection opening 380 is opened to eject the liquid.

Since the cylinder and the injection nozzle are connected to each other by the existing needle, the high-pressure air spray and the needle secondary diaphragm are simultaneously pushed backward. Therefore, when the jet is initially started, the diaphragm is pushed backward by the high-pressure air, Since the air escapes in order to perform the injection action, the pressure for pushing the diaphragm is reduced, and the needle is narrowed again to cause unstable injection. In order to solve the above problems, the present invention is provided with a separate first cylinder 390 so as to maintain the pressure continuously even after the start of the injection so that the liquid injection is not unstable. In addition, In the present invention, the high-pressure air supplied to the first cylinder 390 can be controlled by a control signal, so that air (air) The liquid ejection port 380 is opened and the liquid ejection port 380 is opened. Accordingly, even when the liquid ejection is terminated, the liquid ejection port 380 is closed by the control signal and the high- When you fall on a crop or liquid sticks to the sprayer, It does not cause clogging phenomenon.

The dispenser tank 200 may store water, medicines, paints, and the like, which are objects to be sprayed, and may include a tank suited to the properties of the object to be stored. The stored liquid is sucked by a negative pressure generated in a separate pump or nozzle The liquid is injected from the liquid injection port 380 along the liquid transfer path formed inside the nozzle tube member 320 through the liquid inflow path 350 formed in the nozzle body 310 via the liquid supply pipe 210. The nozzle tube member 320 has a liquid injection hole 380 formed at one side thereof and a screw is formed at the other side thereof and is screwed to the nozzle body 310. A straight or spiral groove is formed on the surface of the nozzle tube member 320 The high pressure air supplied through the first air inflow path 360 of the nozzle body 310 can be linearly or spirally jetted.

The nozzle cap 330 covers the outside of the nozzle tube member 320 so that the high pressure air moves through the space formed inside the nozzle cap member 330 and the outside of the nozzle tube member 320, The high-pressure air and the liquid are injected through the injection port formed on the front surface of the nozzle. A flange is formed on the rear surface of the nozzle cap 330 and is fastened to a hollow bolt formed on the nozzle body 310 by a nozzle coupling nut 340.

The needle part 500 is a device for opening and closing the liquid ejection opening 380 using a needle-like tip part 510. The needle part 500 is provided at the center of the nozzle body 310 on the first cylinder 390 side of the nozzle body 310, And is inserted into the liquid injection port 380 of the nozzle tube member 320 while the other side is formed with the partition plate 520 and the protrusion 540 to which the packing 530 is attached.

A sealing member 400 for blocking a hole formed in the center of the nozzle body 310 to isolate the high pressure air supplied to the first cylinder 390 from the liquid inflow path 350 formed in the nozzle body 310, The ring 410 is formed of a stretchable material such as rubber or silicone so that the ring 410 is wound around the nozzle body 310 and is fastened to the hole of the nozzle body 310 by a threaded sealing cap 420 so that the needle can pass freely and is isolated from the liquid inflow path 350. A diaphragm 520 is formed on the other side of the needle unit 500 and a packing 530 is attached to the outer periphery of the diaphragm 520 to isolate the outside of the first cylinder 390, 390 is isolated from the outside so that when the high-pressure air enters into the first cylinder 390, it is pushed outward so that the tips 510 of the needles can be separated from the liquid injection port 380 and opened, The first spring 600 fastened to the protrusion 540 protruded outside the partition 520 and the spring cap 410 coupling the first spring 600 to the nozzle body 310 are combined So that the liquid jetting port 380 is blocked by the elasticity of the first spring 600.

When the diaphragm 520 is pushed backward, air trapped in the internal space formed by the diaphragm 520 and the cap 410 may be compressed to interfere with the operation of the diaphragm 520, It is preferable to form the vent hole 710 on one side.

A second cylinder 544 is formed in the protrusion 540 of the needle unit 500 to connect the needle end 541 formed with a flat plate to the third spring 542 and the protrusion lid 543, (510) contacts the liquid jetting port (380) to mitigate the impact so that the life of the needle can be extended.

On the other hand, if the distance between the liquid injection port 380 and the tip portion 510 of the needle is long, the amount of liquid injection becomes large and the liquid particles become large. When the gap is narrow, It is difficult to control the particle size and the injection amount when the liquid injection port 380 is opened or closed only by the high pressure air supplied to the first cylinder 390 and the elasticity of the first spring 600. In order to solve such a disadvantage, the present invention is characterized in that a bolt hole is formed at the center of the spring 410 cap by having a separate spray amount adjusting portion 800 including the adjusting bolt 810 and the second spring 820, The second spring 820 is coupled to the adjustment bolt 810 and is fastened to the bolt hole of the spring 410 cap so that the end of the bolt comes into contact with the lid of the protrusion 540, The distance between the tips of the needles 510 can be adjusted to control the amount of liquid injected and the size of the liquid particles. The second spring 820 fastened to the adjustment bolt 810 functions to prevent the position of the adjustment bolt 810 from being changed during operation.

In the present invention, the liquid supply pipe 210 may further include a solenoid valve, and may further include a controller for controlling the operation of the compressor 110, the air distributor 120, and the solenoid valve. The control unit may be connected to the air distributor 120 to supply the high-pressure air to the first air supply pipe 121 and the second air supply pipe 122 Timing can be controlled, and the operation of the compressor 110 can be controlled by connecting the compressor 110 to the control unit.

In the present invention, the first air supply pipe 121 and the second air supply pipe 122 are connected to the first air supply pipe 121 and the second air supply pipe 122, respectively, instead of the compressor 110 for supplying the high- And the air distributor 120 is used to reduce the manufacturing cost of the sprayer and reduce noise and installation space.

In addition, the liquid atomizer according to the embodiment of the present invention is further provided with a blowing fan (not shown) and a nozzle body of the present invention, sprayed through the nozzle unit 300, (Not shown) for spraying the medicament scattered by the plurality of spray holes formed on the surface to the outside.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. And changes may be made without departing from the spirit and scope of the invention.

100: high-pressure air generator 110: compressor
120: air distributor 121: first air supply pipe
122: second air supply pipe 200: jetting tank
210: liquid supply pipe 300: nozzle part
310: nozzle body 320: nozzle tube member
330: nozzle cap 340: nozzle coupling nut
350: liquid inflow path 360: first air inflow path
370: second air inflow path 380: liquid injection port 380:
390: first cylinder 400: sealing member
410: ring 420: sealing cap
500: Needle portion 510:
520: diaphragm 530: packing
540: protrusion 541: needle end
542: third spring 543: protrusion cover
544: second cylinder 600: first spring
700: spring cap 710: vent hole
800: spray amount adjusting portion 810: adjusting bolt
820: Second spring

Claims (4)

A jet tank (200) having a dispensing liquid therein;
A nozzle body 310 connected to the jetting tank 200 through a liquid supply pipe 210 and connected to one side of the nozzle body 310 and connected to a liquid inflow path 350 of the nozzle body 310 A nozzle cap 330 for covering the nozzle tube member 320 and a nozzle coupling 330 for screwing the nozzle cap 330 to the nozzle body 310. [ A nozzle unit 300 including a nut 340;
Is inserted from the first cylinder 390 formed on the other side of the nozzle body 310 and is inserted into the liquid injection port 380 so as to be detachable through the liquid transfer path so that the tip 510 can be detached from the liquid injection port 380, 400, a needle portion 500 having a partition 520 including a packing 530 and a protrusion 540 formed therein;
A first spring 600 fitted in the protrusion 540; A spring cap 700 screwed to the nozzle body 310 with the first spring 600 inserted therein; An atomizing amount adjusting unit 800 including an injection amount adjusting bolt 810 and a second spring 820 for limiting a retreat interval of the protrusion 540; And
A first air inflow path formed in the nozzle body 310 and connected to the nozzle unit 300 and a second air inflow path 370 connected to the first cylinder 390 formed on the other side of the nozzle body 310 And a high pressure air generator (100) including an air distributor (120) for supplying air and a compressor (110) for generating and supplying compressed air to the air distributor (120). The method of claim 1, wherein
Wherein a second cylinder (544) is formed in the protrusion (540) of the needle part (500) to include a needle end (541) formed in a flat plate and a third spring (542) for preventing the shock. The method according to any one of claims 1 to 3,
Further comprising a solenoid valve in the liquid supply pipe (210), and a control unit for controlling the operation of the compressor (110), the air distributor (120) and the solenoid valve. A nozzle body 310 through which a liquid is introduced through a liquid inflow path 350 and a liquid inflow path 350 connected to one side of the nozzle body 310 and connected to a liquid inflow path 350 of the nozzle body 310, A nozzle cap 330 for covering the nozzle tube member 320 and a nozzle coupling nut 340 for screwing the nozzle cap 330 to the nozzle body 310. [ A nozzle unit 300 including the nozzle unit 300;
Is inserted from the first cylinder 390 formed at the other side of the nozzle body 310 and is inserted into the liquid injection port 380 so as to be detachable through the liquid transfer path so that the tip end portion 510 can be detached from the liquid injection port 380, A needle portion 500 having a diaphragm 520 and a protrusion 540 to which a packing 530 is attached;
A first spring 600 fitted in the protrusion 540; A spring cap 700 screwed to the nozzle body 310 with the first spring 600 inserted therein; An injection amount adjusting unit including an injection amount adjusting bolt 810 and a second spring 820 for limiting a retreat interval of the protrusion 540; And
A first air inflow path 360 formed in the nozzle body 310 and connected to the nozzle unit 300 and a second air inflow path 370 connected to the first cylinder 390 formed on the other side of the nozzle body 310 Wherein the nozzle body comprises a plurality of nozzles.

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