KR200482918Y1 - Manual compression sprayers - Google Patents

Abstract

The present invention relates to a compression type passive atomizer, which comprises a cylinder (100) by coupling a spray cap (106) in front; A pumping means (200) having a piston (202) for compressing the air inside the cylinder; A tank 300 for supplying the liquid stored in the spray cap 106 to the tip of the spray cap 106; And a spray nozzle (400) coupled to a tip end of the spray cap (106) and spraying liquid discharged through the discharge port (501) through compressed air pressure inside the dust chamber (104);
A vortex forming groove 504 in which at least one outlet 501 for discharging the liquid is formed in the peripheral wall and in which the liquid discharged through the outlet 501 is collected, Since the nozzle tip 500 having the spray nozzle 505 is integrally formed in front of the spray cap 106, the spray particles are smaller and more minute, and the spray area is enlarged, so that the drug absorption power of the object Not only the chemical spraying effect is improved, but also the spraying duration and the spraying amount of the liquid are increased to improve the usability and efficiency.

Description

[0002] Manual compression sprayers [0003]

The present invention relates to a compression-type passive sprayer mainly used for spraying liquid, and more particularly, to a method of spraying liquid using manually compressed air pressure, Thereby improving the usability and efficiency of the sprayer.

The 'manual compression sprayer' applies the principle of the piston pump to compress the air by spraying the liquid material such as water or insecticide through the nozzle or using the compressed air manually.

That is, when the pressure in the main body of the atomizer is increased by using the piston provided in the main body of the atomizer, the valve of the liquid inlet provided in the main body of the atomizer is closed by the increased pressure to block the inflow of liquid, And the fluid is discharged together with spraying.

On the other hand, in order for the liquid pumped into the outflow pipe to be injected into small particles like mist, a narrow hole nozzle is required. When this nozzle is connected to the outflow pipe, the narrow hole interferes with the flow of the liquid, When pushed by pressure, liquid pushed at a high pressure is ejected into a narrow hole, and it collides with the air as it splits, so that it is sprayed as a small droplet of mist.

Such a manual spraying spraying machine is mainly used for horticultural use for producing and improving the crops necessary for living such as fruit trees, vegetables, flowers, etc., but also for the daily use of liquids for eradicating various harmful insects, It is widely used in various fields such as spraying.

A variety of techniques have been proposed for compression type passive sprayers, and a typical conventional compression type passive spraying machine will be described below.

Registration No. 20-0337282 discloses a cylinder 33 provided with a connection portion 32 below the side so as to be connected to a tank 31 for filling liquid such as water or medicines as shown in FIG. ; A nozzle (34) coupled to the tip of the cylinder (33) with spray nozzles; The nozzle 34 is connected to the tank 31 through a discharge hole 36 through a through hole 35 formed in a connecting portion 32 of the cylinder 33; A partition wall (37) formed in the cylinder (33) behind the connection portion (32); A rod 39 having a piston 38 at an inner end thereof in front of the partition wall 37; An actuator 41 having a knob 40 and being interlocked with a cylinder 33 and a finishing cap 42 at the rear end of the rod 39; The partition wall 37 is opened at the compression operation of the piston 38 so as to fill the tank 31 with the air required for spraying so that the air in the tank 31 is closed 1. A conventional atomizer (30) having an air valve assembly

The air valve assembly (50) includes: a fixing hole formed in the partition (37) of the cylinder (33); The valve body 55 has a locking projection 52 and a connecting hole 54 having a neck portion 53 for close contact so as to be tightly coupled to the fixing hole 51 in a tight state so as to protrude rearward. ); The valve body 55 may be formed to have a size enough to cover the air flow hole 56 formed outside the fixing hole 51 of the partition wall 37; Is easily opened by the air generated upon compression of the piston (38); And is configured in the form of a thin plate so as to be in close contact with the air flow hole (56) by a suction force when the piston (38) is contracted.

Public utility model publication No. 20-1993-23159 (November 25, 1993) Registration Utility Model Bulletin No. 20-0337282 (2004. 01. 07.)

When the user holds the cylinder with one hand while holding the handle with the other hand and reciprocates the handle back and forth, the piston connected to the handle and the rod reciprocates back and forth in the cylinder, The air is repeatedly compressed and the pressure inside the tank is increased by the compressed air pressure so that the liquid stored in the tank is injected through the atomizing holes of the nozzles provided at the tip of the cylinder in accordance with the increased air pressure.

However, in the conventional compression-type passive sprayer, the piston in the cylinder is reciprocated by reciprocating the piston in the cylinder while reciprocally compressing the air in the cylinder, thereby spraying the liquid using the compressed air. There was an inconvenience to make more reciprocation of the handle in order to increase the spraying amount of the liquid because it quickly escaped through the atomizing air.

That is, when the handle is advanced to the nozzle side, the air is compressed and simultaneously the liquid is sprayed while being discharged through the atomizing holes of the nozzle. Since the compressed air is discharged quickly through the atomizing nozzle, the atomizing of the liquid is instantaneously performed, . Therefore, in order to increase the spray amount of the liquid, it is necessary to reciprocate the handle more, so that there is inconvenience in using the user's arms and hands.

Therefore, there is an urgent need to develop a compression type passive sprayer capable of improving ease of use and efficiency by increasing the number of reciprocations of the piston, the duration of spraying of the liquid, and the spray amount of the liquid, which is a drawback of the prior art.

The compression type passive sprayer of the present invention is designed to solve the above-mentioned conventional problems and includes a compression chamber 103 partitioned by a partition wall 102 provided with an air valve 101, A cylinder 100 in which a finishing cap 105 is coupled to an opening of the compression chamber 103 and a spray cap 106 is coupled to an opening of the fin 104;

A piston 202 for compressing the air inside the compression chamber 103 is formed at one end of the rod 201 which is inserted into the compression chamber 103 through the center of the finishing cap 105, A pumping means 200 for compressing the air in the compression chamber 103 and supplying the compressed air to the decomposition chamber 104 while reciprocally moving forward and backward;

A tank 300 coupled to the connection portion 107 of the lower portion 104 of the cylinder 100 to supply the liquid stored in the hose 301 to the discharge port 501 at the tip of the spray cap 106 )Wow;

A spray nozzle 401 coupled to the tip of the spray cap 106 for spraying the liquid discharged to the discharge port 501 through the compressed air pressure in the dust chamber 104 is compressed For a manual passive sprayer;

At least one outlet 501 through which the liquid supplied through the hose 301 is discharged from the tank 300 is formed on the peripheral wall and an O-ring installation groove 502 is formed in the rear of the O- And the front surface of the vortex forming groove 504 forms a vortex forming groove 504 through which the liquid discharged through the vortex 501 flows. And a nozzle tip 500 including a male screw portion 506 for coupling the spray nozzle 400 to the spray cap 106 (see FIG. 10) The atomized particles are smaller and more minute, and the sprayed area is enlarged. As a result, the drug absorption ability of the object is improved by ignoring the contents of the medicines and the like, thereby improving the spraying effect of the medicament, And It is possible to achieve the object of increasing the usability and the efficiency by increasing the amount of spray.

As described above, the compression-type passive sprayer according to the present invention collects in the vortex-forming groove immediately before the liquid is sprayed and causes the vortex to be sprayed, thereby increasing the effect of the spraying caused by the collision with air in the spraying process, In addition, since the swirling flow of the liquid just before spraying increases the spray area in the spraying process, the spraying range is widened and the spraying effect is uniform.

Further, in the process of spraying the liquid with the air pressure compressed by the pumping, the compressed air pressure is gradually discharged through the spray nozzles so that the spray duration of the liquid is prolonged, and the spraying of the liquid for several tens of seconds So that the convenience of spraying and efficiency are maximized.

Further, since the expansion cap having a plurality of spray nozzles can be used as needed, the spraying range can be further enlarged, thereby further improving convenience and efficiency of liquid spraying.

1 is a perspective view of an embodiment of a compression type passive atomizer of the present invention;
FIG. 2 is a side elevational side sectional view, in accordance with an embodiment of a compression type passive atomizer of the present invention; FIG.
Figure 3 is a partially enlarged cross-sectional view of Figure 2 in accordance with an embodiment of the present invention of a compression type passive atomizer.
4 is a perspective view of a nozzle tip according to an embodiment of a compressed manual sprayer of the present invention;
5 is a side cross-sectional view of the spray nozzle coupling portion showing the liquid spray angle according to the position of the spray nozzle according to the embodiment of the compression type passive sprayer of the present invention.
6 is a perspective view in accordance with another embodiment of a compressed manual sprayer of the present invention;
FIGS. 7 and 8 are side cross-sectional views of a spray nozzle coupling portion according to another embodiment of the compressed manual sprayer of the present invention. FIG.
Figure 9 is a side cross-sectional view of a prior art passive atomizer.

Hereinafter, the construction and operation of the compression-type passive atomizer according to a preferred embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

The compression type passive sprayer according to the present invention forms a partition wall 104 with a compression chamber 103 partitioned by a partition wall 102 having an air valve 101, A cylinder 100 having a spray cap 106 coupled to an opening of the atomizer 104;

A piston 202 for compressing the air inside the compression chamber 103 is formed at one end of the rod 201 which is inserted into the compression chamber 103 through the center of the finishing cap 105, A pumping means 200 for compressing the air in the compression chamber 103 and supplying the compressed air to the decomposition chamber 104 while reciprocally moving forward and backward;

A tank 300 coupled to the connection portion 107 of the lower portion 104 of the cylinder 100 to supply the liquid stored in the hose 301 to the discharge port 501 at the tip of the spray cap 106 )Wow;

And a spray nozzle 400 coupled to the tip of the spray cap 106 for spraying the liquid discharged through the discharge port 501 through compressed air pressure in the dust chamber 104, However, the present invention is not limited to the above-described embodiments, and various changes and modifications may be made without departing from the scope of the present invention.

The compression type passive sprayer of the present invention is a preferred embodiment in which at least one outlet 501 for discharging the liquid supplied through the hose 301 from the tank 300 is formed on the peripheral wall and an o- A groove 502 is formed to form a leak preventing o-ring 503. A front surface of the o-ring 503 forms a vortex forming groove 504 in which the liquid discharged through the outlet 501 collects. The inclined grooves 505 are formed in an oblique symmetrical structure when viewed from the front and include a male screw portion 506 for engaging the spray nozzle 400. [ The nozzle tip 500 is integrally formed in front of the spray cap 106 so that the nozzle tip 500 is inserted into the spray nozzle 400.

That is, the nozzle tip 500 is integrally protruded from the tip of the spray cap 106 so that the nozzle tip 500 is sprayed to the nozzle tip 500 by spraying the spray nozzle 400 to the male screw portion 506 of the nozzle tip 500 And is inserted into the nozzle 400.

The liquid stored in the tank 300 coupled to the connecting portion 107 of the lower portion 104 of the cylinder 100 and discharged through the hose 301 integrally protrudes from the tip of the spray cap 106 And is discharged through the discharge port 501 of the formed nozzle tip 500.

At this time, the discharged liquid moves forward of the nozzle tip 500 according to the space structure between the spray nozzle 400 screwed to the male screw portion 506 of the nozzle tip 500 and the nozzle tip 500, A swirling groove 504 for collecting the liquid discharged through the discharge port 501 is formed on the front surface of the nozzle tip 500. A discharge port 501 is formed in the corner of the tip of the nozzle tip 500, An inclined groove 505 for guiding the liquid into the vortex forming groove 504 is formed in an oblique symmetrical structure when viewed from the front side so that the vortex forming groove 504 is formed by the discharge pressure of the liquid discharged through the discharge port 501 The gathering liquid is caused to rotate while causing vortex in the process of gathering into the vortex forming groove 504 through the inclined groove 505 and simultaneously the pressure of the compressed air acting by the pumping means 200 causes the spray nozzle 400 ) To be sprayed through the atomizing hole (401) The impure liquid is sprayed in the form of fine particles, such as a mist.

The compressed air compressed by the pumping means 200 in the process of spraying the liquid causing the eddy current in the vortex forming groove 504 into the spray holes 401 of the spray nozzle 400 by the pressure of the compressed air also causes vortex The compressed air is discharged to the outside through the spray hole 401 together with the sprayed liquid, so that the compressed air can be sprayed through the spray hole 401 for several tens of seconds by only one pumping using the pumping means 200 The duration of the spraying of the liquid sprayed by the pressure of the compressed air lasts for several tens of seconds.

5 (a), the spray nozzle 400 is tightly coupled to the tip of the spray cap 106, so that the inside of the spray hole 401 of the spray nozzle 400 and the swirling flow of the nozzle tip 500 The spray angle of the liquid to be sprayed through the atomizing hole 401 becomes large and the atomizing nozzle 400 is positioned at the tip end of the atomizing cap 106 as shown in FIG. The spray angle of the liquid sprayed through the atomizing hole 401 becomes small when the space between the atomizing hole 401 of the atomizing nozzle 400 and the vortex forming groove 504 of the nozzle tip 500 is wide, The spray angle of the liquid can be adjusted by adjusting the position of the spray nozzle 400 screwed to the male screw portion 506 of the nozzle tip 500.

6 to 8 illustrate another embodiment of the present invention in which at least one outlet 501 for discharging the liquid supplied through the hose 301 from the tank 300 is formed on the peripheral wall Forming a swirling groove 504 for collecting the liquid discharged through the discharge port 501 and guiding the liquid discharged through the discharge port 501 to the vortex forming groove 504 at the corner of the front end At least one nozzle tip 500 having a male screw portion 506 formed therein so as to be inserted into the spray nozzle 400 is formed at least at one end of the nozzle groove 500 in an oblique symmetrical structure when viewed from the front And an extension cap 600 formed at the distal end thereof with a fastening screw portion 601 which closely contacts the screw portion 106a at the tip of the spray cap 106 and is fastened together by a fastening nut 602 .

That is, by forming at least one or more nozzle tips 500 at the distal end portion and screwing the expansion cap 600 screwed into each nozzle tip 500 into the tip portion of the spray cap 106, When the extension cap 600 having a plurality of nozzle tips 500 is screwed to the spray cap 106 in accordance with the spray nozzles 400 according to the present invention, The spraying range of the liquid can be greatly increased by forming the angle of the plurality of nozzle tips 500 formed at the tip of the extension cap 600 at a predetermined angle.

It is also noted that the nozzle tip 500 can be formed in such a manner that it can be disassembled and assembled to the tip end of the spray cap 106 having the male screw portion 106a as shown in FIG.

The operation of the compression type manual sprayer to which the present invention is applied will be described as follows.

In order to spray a liquid such as a medicament by using the compression type passive sprayer of the present invention, first, a stopper 303 screwed to a discharge port 302 formed at one side of an upper portion of the tank 300 is opened, and the discharge port 302 is opened After injecting the required liquid into the tank 300, the cap 303 is closed.

In order to spray the liquid stored in the tank 300, the cylinder 100 is held with one hand so that the spray nozzle 400 faces the object, while the handle 203 of the pumping means 200 is held by the other hand When the knob 203 is reciprocated in the front-rear direction of the cylinder 100, air in the cylinder 100 is repeatedly compressed.

When the air inside the cylinder 100 is compressed as described above, the pressure inside the tank 300, which is screwed to the connecting portion 107 of the cylinder 100, is increased by the pressure inside the cylinder 100, The stored liquid is introduced into one end of the hose 301 which is locked in the tank 300 and then discharged through the other end of the hose 301 leading to the tip of the spray cap 106.

The liquid discharged through the hose 301 is discharged through the discharge port 501 of the nozzle tip 500 formed in the expansion cap 600 screwed to the tip of the spray cap 106 or the tip of the spray cap 106, Liquid is introduced into the vortex forming groove 504 through the inclined groove 505 formed in the nozzle tip 500 and a vortex of the liquid is formed in the vortex forming groove 504. At the same time, The liquid is sprayed evenly over a large area because the liquid is sprayed through the spray hole 401 of the spray nozzle 400 by the pressure of the compressed air by the spray nozzle 200,

The compressed air generated by the pumping using the pumping means 200 is discharged together with the liquid while spraying the liquid stored in the tank 300 through the spray hole 401 of the spray nozzle 400, Since the discharge time of the compressed air is delayed by the development, the duration of the spraying of the liquid is maintained for several tens of seconds or more. Therefore, after the pumping means 200 is pumped once, the sprayed liquid can be continuously sprayed to various points Not only the convenience and efficiency of the spraying operation are improved but also the number of pumping operations of the pumping means 200 can be reduced so that the fatigue of the operator due to the spraying operation can be reduced.

When the spray area of the liquid is further enlarged, the extension cap 600 having a plurality of spray nozzles 400 is coupled to the spray cap 106 in front of the spray cap 106 so that the liquid sprayed through each spray nozzle 400 As the spraying ranges are combined, the liquid can be sprayed over a large area with only one spraying, which makes it possible to further improve the convenience and efficiency of the spraying operation.

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 exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

100: Cylinder 101: Air valve
102: partition 103: compression chamber
104: minute fact 105: finishing cap
106: Spray cap 107: Connection
200: pumping means 201: load
202: piston 203: handle
300: tank 301: hose
302: input port 303: plug
400: Spray nozzle 401:
500: nozzle tip 501: outlet
502: O-ring mounting groove 503: O-ring
504: vortex forming groove 505: inclined groove
506: male thread part 600: expansion cap
601: fastening screw portion 602: fastening nut

Claims (3)

delete A partition wall 102 provided with an air valve 101 and a partition wall 104 are formed in the compression chamber 103. A finishing cap 105 is coupled to an opening of the compression chamber 103, A cylinder 100 having a spray cap 106 coupled to the opening of the branch 104;
A piston 202 for compressing the air inside the compression chamber 103 is formed at one end of the rod 201 which is inserted into the compression chamber 103 through the center of the finishing cap 105, A pumping means 200 for compressing the air in the compression chamber 103 and supplying the compressed air to the decomposition chamber 104 while reciprocally moving forward and backward;
A tank 300 coupled to the connection portion 107 of the lower portion 104 of the cylinder 100 to supply the liquid stored in the hose 301 to the discharge port 501 at the tip of the spray cap 106 )Wow;
And a spray nozzle 400 coupled to the tip of the spray cap 106 and having spray nozzles 401 for spraying the liquid stored in the tank 300 through compressed air pressure in the dust chamber 104 A compression type manual sprayer comprising:
At least one outlet 501 through which the liquid supplied through the hose 301 is discharged from the tank 300 is formed on the peripheral wall and an O-ring installation groove 502 is formed in the rear of the O- And the front surface of the vortex forming groove 504 forms a vortex forming groove 504 through which the liquid discharged through the vortex 501 flows. And a nozzle tip 500 having a male screw portion 506 for engaging with the spray nozzle 400 is disposed at a tip end portion of the nozzle tip 500, And at the distal end thereof an extension cap 600 having a fastening screw portion 601 formed in tight contact with a male screw portion 506 at the distal end of the spray cap 106 and being fastened together by a fastening nut 602, Characterized in that the compressible passive component weapon. 3. The method of claim 2,
Wherein the nozzle tip (500) is disassemblyable and assemblable at the tip of the spray cap (106).

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