KR900000289Y1 - Sprayer - Google Patents

Abstract

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Description

sprayer

1 is a side cross-sectional view showing the structure of the present invention.

2 is a partial cutaway cross-sectional view showing the structure of the nozzle in the present invention.

3 is a partial cross-sectional view showing a modification of the spray amount adjusting means in the present invention.

4 is a partial perspective view showing a modification of the nozzle body in the present invention.

* Explanation of symbols for main parts of the drawings

2: cylinder 3: piston

4: adjusting means 9: cylinder stopper

18: nozzle 19: nozzle body

20: nozzle cap 25: channel

28: graduation 29: reference line

201: end of channel

The present invention relates to a manual nebulizer, and more particularly to a nebulizer capable of adjusting the amount of each stroke spray.

In general, the manual nebulizer is composed of a compression unit for generating a high pressure by a piston and a nozzle for atomizing and discharging the liquid, and the liquid is sucked from the reservoir by the high pressure generated in the compression unit and sprayed through the nozzle.

This type of manual spraying machine does not have control of spraying volume, spraying angle and atomization, so it causes severe waste of chemicals due to overspreading, and damages to crops and human beings. There are problems such as causing environmental pollution.

Conventionally, in order to solve the above-mentioned problem, adjustment of the spray amount or adjustment of the spray state through the nozzle has been attempted.

For example, the "spray control device of sprayer" of Publication No. 409 in Korean Utility Model Publication No. 145, and the "Nozzle tip of sprayer" of Publication No. 769 in Korean Utility Model Publication No. 151. .

The former flow control device installs a pressure control chamber equipped with a float piston on the passage so as to communicate with the cylinder so that the amount of spray can be controlled by increasing or decreasing the volume inside the cylinder. The latter nozzle tip is placed on the outer periphery of the body. The grooves are engraved in a spiral shape so that the turning force can be obtained when the liquid is sprayed to make the spraying state uniform.

However, the former flow control device is not suitable for the manual sprayer because the volume of the sprayer is increased by the pressure regulating chamber, and the latter nozzle tip is sprayed into a hollow-conetype during high pressure spraying. Can not do it.

As a manual sprayer used for spraying pesticides or pesticides, it is best to obtain the maximum spraying effect with the minimum amount of medicine by controlling the spraying amount per dose, and easily adjusting the spraying angle and atomization of the medicine. It can be used repeatedly for the same purpose by remembering the atomization degree, and it is possible to improve the compatibility of parts and accessories by not deviating from the conventional sprayer type. It can be said to have.

It is an object of the present invention to provide a nebulizer that can be easily and conveniently adjusted to the spray amount and the spray angle and atomization of the medicament and can be repeatedly used for the same purpose by the user remembering the adjusted degree.

Another object of the present invention is to provide a nebulizer capable of concise structure and having a function suitable for weighing.

The present invention is composed of a control means for controlling the reciprocating stroke length of the piston which is normally equipped with a sprayer, and a nozzle that can be remembered by the user after adjusting the spray pressure by increasing or decreasing the area of the injection passage. When described in detail as follows.

In Fig. 1, reference numeral 1 denotes a pump of the nebulizer, 2 denotes a cylinder formed in the pump 1, and 3 denotes a piston installed in the cylinder 2.

At the side end of the cylinder 2, an adjusting means 4 for controlling the reciprocating stroke length of the paston 3 is provided.

The adjusting means 4 hold the knob 5, the bushing nut 6 and the flange 7 and are screwed into the cylinder cap 9 with the piston rod 8 penetrated therein.

Accordingly, when the knob 5 is rotated and operated, the adjusting means 4 enters or exits the cylinder 2 in a spiral to control the reciprocating stroke length of the piston 3.

As a result, the spray amount is adjusted as the internal volume of the cylinder 2 is varied.

The stop nut 6 tightens the adjusting means 4 to the cylinder stopper 9 so that the adjustment state is not changed.

The adjustment of the spray amount on the adjusting means 4 can be carried out by seeding the shaft scale 10 on the piston rod 8.

This measuring scale 10 is read on the basis of the knob 5 of the adjusting means 4, and the piston 3 is pushed into the inner wall surface 2a of the cylinder 2, and then the adjusting means ( 4) The maximum value is displayed at the position of maximum exit from the cylinder (2), on the contrary, the minimum value is displayed at the position where the adjusting means (4) is fully entered into the cylinder (2). Can be planned.

An extrusion passage 11 is drilled through the inner wall surface 2a of the cylinder 2, which is in communication with a suction pipe 13 in which a ball valve 12 is built, and a spring (2) at the end thereof. It is always closed by the check valve 15 which is subjected to the elastic force of 14).

The spring 14 of the check valve 15 is supported by the elbow 16 so that when the check valve 15 is opened, the extrusion passage 11 communicates with the nozzle 18 via a passage 17 drilled in the elbow 16. Can be.

The nozzle 18 is shown in detail in its internal structure through FIG.

The nozzle 18 is composed of a nozzle body 19 and a nozzle cap 20, and the female screw 22 of the nozzle cap 20 is screwed onto the male screw 21 of the nozzle body l9.

A splitter plate 23 is formed at the front end of the nozzle body 19, and a jetting hole 24 communicating with the passage 18 of the elbow 17, which is located at the rear of the splitter plate 23, is drilled. At least two channels 25 are engraved on the outer circumference of 23 to provide a minimum passage through which the injection holes 24 can communicate with the spray holes 26 drilled through the nozzle cap 20.

The inner surface of the nozzle cap 20 may form an inclined surface 27 to be in close contact with the outer circumferential surface of the splitter plate 23.

Therefore, when the nozzle cap 20 is released or tightened from the nozzle body 19, the separation plate 23 and the inclined surface 27 are opened or closed.

The gap between the splitter plate 23 and the inclined surface 27 marks the scales 28 on the nozzle cap 20, and the reference point 29, which is the reference for these scales 28, is placed on the corresponding portion of the nozzle body 19. It can be easily adjusted by marking.

In addition, the seal 30 fitted to the nozzle body 19 is to prevent the back flow when spraying.

In FIG. 1, when the handle of the piston 3 is pulled out, a negative pressure is generated inside the cylinder 2 so that the check valve 15 is closed and the ball valve 12 is opened to inhale the spray liquid through the suction pipe 13. do.

At this time, the amount of suction is sucked by the amount quantitatively adjusted by the adjusting means (4).

Subsequently, when the knob of the piston 3 is pushed, the check valve 5 is opened and the ball valve 12 is closed. Therefore, the sprayed liquid sucked into the cylinder 2 passes through the extrusion passage 11 and passes through the nozzle 18 through the nozzle 18. It is sprayed through the injection hole 24 of 19, some hit the splitter plate 23, and some are sprayed through the spray hole 26 while causing a vortex through the channel 25.

At this time, if the splitter plate 23 is in close contact with the inclined surface 27 of the nozzle cap 20, the spray liquid is communicated to the spray hole 26 through the channel 25, so that the sprayed liquid is discharged at a high pressure, so that the maximum spray angle And sprayed to the atomization, on the contrary, the greater the distance between the splitter plate 23 and the inclined surface 27, the greater the amount of collision between the splitter plate 23 and the discharged between the splitter plate 23 and the inclined surface 27. As a result, the spray angle and atomization rate are reduced proportionally.

Therefore, the user can easily adjust the spray angle and atomization degree through the scale 28 of the nozzle cap 20 and the reference point 29 of the nozzle body 19, and the user repeatedly remembers the adjustment degree for the same use. Can be used.

The present invention, since the piston (3) is suction-extruded by a designated amount every time the reciprocating once, it is also possible to quantitatively measure the specific drug when preparing the drug using this.

Adjusting means for adjusting the spray amount in the present invention can be modified as shown in FIG.

A pipe-like stopper 101 is fixed to the inside of the cylinder 2, and a threaded portion 102 is formed on the outer circumference of the piston rod 8, and the adjusting nut 103 is screwed into the threaded portion 102 so that the piston 3 If the adjusting nut 103 is regulated by the stopper 101 on the pipe during the reciprocating stroke, the inner volume of the cylinder 2 is increased by operating the adjusting nut 103 to move the position in the threaded portion 102. It can be changed so that the same effect as in the above-described embodiment can be obtained.

Known atomizer nozzles have the disadvantage that the spray shape is rapidly sprayed into a hollow-conetype when sprayed at the maximum spray angle and atomization degree.

This can be solved by deforming the nozzle body 19 as shown in FIG.

That is, when the channel 25 engraved on the splitter plate 23 extends to the head surface of the splitter plate 23 and the terminal portion 201 is collected to be discontinuous or continuous in the center side, the spray liquid is sprayed. When it is discharged through the groove of the channel 25 to flow along the end portion 201 to the stop point, the spray form can achieve the effect of being uniformly dispersed in a ful1-cone type.

The present invention can be distributed by limiting the drug to only the desired area by adjusting the spray amount, the spray angle, and the atomization as described above. It is possible to reduce the maximum force and to use the function to determine the amount of suction into the cylinder through the scale engraved on the piston rod. Do.

Claims (3)

In a hand-held sprayer equipped with a nozzle at the front end side of a pump holding a piston and a cylinder, it is screwed into the cylinder stopper 9 to increase or decrease the internal volume of the cylinder 2 by the reciprocating stroke of the piston 3. The center of the head surface of the splitter plate 23 is provided with the end portion 201 of the channel 25, which has a plurality of adjustment means 4 and is engraved on the outer circumference of the splitter plate 23 in the nozzle body 19. Sprayer, characterized in that extending to the formed at a predetermined interval gathering. The adjusting means (4) according to claim 1, wherein the adjusting means (4) fixes the pipe-like stopper (101) inside the cylinder (2), and forms the threaded portion (102) at the tip of the piston rod (8) to adjust the nut (103). Sprayer, characterized in that made by screwing. The nozzle cap (20) according to claim 1 or 2, wherein the measurement scale (10) and the scale (28) are engraved on the piston rod (8) and the nozzle cap (20), respectively. Sprayer, characterized in that the reference line (29) corresponding to the graduation (28) of the carved.