KR101247530B1 - A liquid herbicide/medicine automatic sprayer for ultrasonic waves - Google Patents

Abstract

The present invention relates to an ultrasonic chemical spreader, and for this purpose, a housing having a blowing flow path formed therein, a flexible pipe coupled to the blowing flow path of the housing and provided with a handle for easy gripping, and mounted on an upper portion of the housing. And a chemical storage tank connected to a blowing flow passage, and an air compressor coupled to a lower portion of the housing to generate compressed air, wherein the chemical liquid can be converted into a liquid particulate state inside the chemical storage tank. A pair of ultrasonic vibrators are provided, and a Bernoulli tube is further formed in the distal end of the blowing passage so that the pressure is lowered so that the liquid particles generated in the chemical storage tank can be injected by blowing. .

Description

Ultrasonic Chemical Sprayer {A LIQUID HERBICIDE / MEDICINE AUTOMATIC SPRAYER FOR ULTRASONIC WAVES}

The present invention relates to an ultrasonic chemical sprayer, and more particularly, by using an ultrasonic vibrator to spray the liquid particles generated in the chemical storage tank by blowing, so that the chemical liquid can be sprayed over a wide range even with a small amount of the chemical liquid. The present invention also relates to an ultrasonic chemical sprayer having a structure that can control the ultrasonic vibrator and the air compressor to precisely control the concentration, the spraying range, and the spraying amount of the liquid fine particles.

In general, the chemical liquid spreader according to the prior art uses a method of spraying the chemical liquid using a manual pump, the sprayer sprayed by the manual pump is uneven because the size of the chemical liquid particles are uneven, the size of the chemical liquid particles are sprayed every

There is a big problem.

In addition, since the chemical liquid is required only if there is a flow rate of a certain speed or more, when injecting expensive medicines, there is another problem that the chemical liquid is not sprayed and is dropped at the inlet of the injection tube, causing waste.

In addition, the chemical sprayer according to the prior art has a problem that it is difficult and uncomfortable to adjust the spray intensity at that time while looking at the position to spray, freely and sensibly, the pressure is to manually adjust the pressure, the strength of the pressure There is another problem that is uneven, and there is a need for improvement.

The present invention has been made in view of the above problems, and the first object of the present invention is to make it possible to spray the liquid fine particles generated in the chemical storage tank by blowing by using an ultrasonic vibrator, so that even a small amount of chemical liquid can be injected. An ultrasonic chemical spreader capable of spraying a chemical liquid over a range is provided.

Furthermore, a second object of the present invention is to provide an ultrasonic chemical liquid spreader having a structure capable of precisely adjusting the concentration and injection amount of liquid fine particles by controlling the ultrasonic vibrator and the air compressor.

The present invention relates to an ultrasonic chemical spreader according to the first aspect of the present invention for achieving the above object, a housing (10) having a blowing passage (11) formed therein, and a blowing passage (11) of the housing (10). And a flexible pipe 30 having a handle 31 so as to be easily gripped, and mounted on an upper portion of the housing 10 so as to be connected to a blowing flow path 11, and the chemical liquid inside as liquid fine particles. And a chemical liquid storage tank 20 having a pair of ultrasonic vibrators 23 and an air compressor 40 coupled to the lower portion of the housing 10 to generate compressed air. A Bernoulli tube 111 is further formed at the distal end of the air flow passage 11 to reduce the pressure so that the liquid fine particles generated in the chemical liquid storage tank 20 may be blown by blowing. Tank 20 increases the capacity of the chemical liquid It further includes a secondary tank 21 extending downward to both sides, one of the two auxiliary tank 21 is connected to the Bernoulli tube 111 of the blowing flow passage 11, Bernoulli tube 111 The auxiliary tank 21 is connected to the partition wall 22 is characterized in that further formed.

In the second invention, in the first invention, the handle 31 controls the frequency of the ultrasonic vibrator 23 and the output of the air compressor 40 so that the concentration of the liquid fine particles, the injection range and the injection amount can be adjusted. It is preferable to further include a control unit.

The fourth invention, in the first invention, it is preferable that the upper end of the partition 22 is configured to be spaced apart from the upper end of the chemical storage tank 20 to block the chemical liquid and guide only the liquid fine particles.

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According to the ultrasonic chemical spreader according to the present invention, it is possible to spray the liquid fine particles generated in the chemical storage tank by blowing by using an ultrasonic vibrator, so that the chemical liquid can be sprayed over a wide range even with a small amount of the chemical liquid. .

In addition, by controlling the ultrasonic vibrator and the conveying means there is an effect that can precisely adjust the concentration and the injection amount of the liquid fine particles.

In addition, the Bernoulli principle can be dispensed with a chemical solution is characterized by a very simple configuration.

1 is a block diagram of the ultrasonic chemical spreader according to the present invention,
Partial sectional view of FIG. 2,
3 is an enlarged view illustrating an enlarged main portion of the flexible tube extracted in FIGS. 1 and 2;
Figure 4 is an operation of the ultrasonic chemical sprayer according to the present invention.

Hereinafter, with reference to the accompanying drawings with respect to the ultrasonic chemical sprayer will be described in detail.

1 is a configuration diagram of the ultrasonic chemical spreader according to the present invention, a partial cross-sectional view of Figure 2, Figure 3 is an enlarged view of the main portion of the flexible tube extracted in Figures 1 and 2.

As shown in Figures 1 to 3, the present invention enables the injection of the liquid fine particles generated in the chemical liquid storage tank 20 by blowing using the ultrasonic vibrator 23 in a wide range even with a small amount of chemical liquid The present invention relates to an ultrasonic chemical sprayer having a structure capable of spraying a chemical liquid over the air, and also controlling the ultrasonic vibrator 23 and the air compressor 40 to precisely control the concentration, the spraying range, and the spray amount of the liquid fine particles. .

The ultrasonic chemical spreader is composed of three parts, the housing 10, the chemical storage tank 20 and the air compressor (40).

Here, the housing 10 has a structure in which a cochlear blowing air passage 11 is formed to extend the flow passage therein. At this time, the housing 10 may be formed with a shoulder strap (not shown) so that a person can surround the shoulder. The Bernoulli tube 111 is further formed at the distal end of the blow passage 11 to reduce the delivery pressure of the compressed air generated by the air compressor 40 to be described later and increase the speed.

In addition, the chemical storage tank 20 has a structure in which a chemical liquid such as a nutrient solution or a herbicide is stored therein and mounted on an upper portion of the housing 10.

The inner bottom surface of the chemical storage tank 20 is provided with a pair of ultrasonic vibrators 23 capable of atomizing the chemical in the form of fine particles (aerosols). The ultrasonic vibrator 23 is usually composed of a piezoelectric ceramic is configured to atomize the chemical liquid stored in the chemical liquid storage tank 20 in the form of liquid fine particles.

The chemical liquid storage tank 20 is connected to the Bernoulli tube 111 formed in the air flow passage 11, which is automatically converted into the particulate form into the Bernoulli tube 111, the discharge pressure is lowered by the pressure difference automatically It is a structure that makes it possible.

Meanwhile, the chemical storage tank 20 further includes an auxiliary tank 21 extending downwardly integrally. The auxiliary tank 21 increases the capacity of the chemical liquid, and also distributes the center of gravity to both sides of the chemical storage tank 20 so that the user can be more securely wrapped around the shoulder, and in addition to the distribution of the center of gravity As a result, the fatigue accumulation can be reduced.

In addition, any one of the two auxiliary tanks 21 extending on both sides of the chemical storage tank 20 is connected to the Bernoulli tube 111 of the air flow passage 11, at this time is connected to the Bernoulli tube (111) The auxiliary tank 21 is a structure in which the partition wall 22 is further formed. The upper end of the partition wall 22 is configured to be spaced apart from the upper end of the chemical storage tank 20 to block the chemical and induce only liquid fine particles.

Such a partition wall 22 is to prevent the chemical liquid that is not atomized to be introduced into the Bernoulli tube 111, so as to reduce the consumption of the chemical liquid and to introduce only the liquid fine particles of the atomized aerosol form.

Accordingly, the liquid fine particles atomized by the ultrasonic vibrator 23 may flow into the Bernoulli tube 111 through the separation space and the auxiliary tank 21 formed in the upper portion of the partition wall 22 through the chemical liquid storage tank 20. Provide structure.

On the other hand, the ventilation passage 11 of the housing 10 has a structure in which a flexible pipe 30 having a handle 31 is connected to be easily gripped by a user.

In addition, the air compressor 40 is configured to compress air into an air tank (not shown) by driving a small engine 41 equipped with a fuel tank 411. Is connected to the air flow passage 11 of the housing 10. Such a configuration adjusts the output of the engine 41 to adjust the pressure of the air compressed into the air tank, and as a result, it is possible to control the injection amount and the injection range of the chemical liquid by adjusting the pressure of the air sent through the air tank. .

In addition, the handle 31 is configured to further include a control unit to control the frequency and the injection amount of the liquid fine particles by controlling the frequency of the ultrasonic vibrator 23 and the output of the air compressor 40.

The controller controls the frequency of the first lever 311 for controlling the opening degree of the throttle valve of the engine 41 and the second lever 312 for controlling the compressed air blowing amount of the air tank and the ultrasonic vibrator 23. 3 lever 313 can be comprised.

Therefore, the combination of the first, second, third levers 311, 312, 313 provides a structure for easily adjusting the concentration of the atomized liquid fine particles, the injection range, and the injection amount.

Hereinafter, the principle and operation of the ultrasonic chemical spreader according to the present invention will be briefly described together with the accompanying drawings.

Figure 4 is an operation of the ultrasonic chemical sprayer according to the present invention.

As shown in FIG. 4, first, the chemical liquid stored in the chemical storage tank 20 is converted into an aerosol, that is, liquid particulate state through the ultrasonic vibrator 23. At this time, the second lever 312 may be adjusted to control the frequency of the ultrasonic vibrator to adjust the atomization concentration of the liquid fine particles.

And the air is compressed by the operation of the engine 41 of the air compressor 40, and is sent out to the blowing flow path 11 of the housing.

Here, the compressed air sent out through the air flow passage 11 passes through the Bernoulli tube 111 and the pressure is lowered and the speed is increased. Then, the liquid fine particles of the chemical liquid storage tank 20 connected to the Bernoulli tube 111 pass through the auxiliary tank 21 through the upper space of the partition 22 to compensate for the pressure of the Bernoulli tube 111. Automatically flows into).

Therefore, the compressed air sent out through the Bernoulli tube 111 is mixed with the liquid fine particles is injected to the outside through the flexible tube (30).

At this time, the handle of the flexible pipe 30 has a first lever 311 for controlling the opening degree of the throttle valve of the engine 41, a second lever 312 for controlling the amount of blown air of the air tank and an ultrasonic vibrator. Combining the third lever 313 for controlling the frequency can be maximized the spray effect by combining the concentration of the chemical liquid, the injection amount of the chemical liquid and the injection range of the chemical liquid.

Although the present invention has been described in connection with the preferred embodiments mentioned above, various other modifications and variations will be possible without departing from the spirit and scope of the invention. It is, therefore, to be understood that the appended claims are intended to cover such modifications and changes as fall within the true scope of the invention.

10: housing 11: air flow passage 111: Bernoulli tube
20: chemical storage tank 21: auxiliary tank 22: partition
23: ultrasonic vibrator
30: flexible tube 31: handle 311: first lever
312: Lever 2 313: Lever 3
40: air compressor 41: engine 411: fuel tank

Claims (4)

A housing 10 having a blowing passage 11 formed therein,
A flexible pipe 30 coupled to the air flow passage 11 of the housing 10 and provided with a handle 31 so as to be easily gripped;
A chemical liquid storage tank 20 mounted on an upper portion of the housing 10 and connected to a blow passage 11 and having a pair of ultrasonic vibrators 23 to convert the chemical liquid into liquid fine particles therein;
It is configured to include; air compressor 40 is coupled to the lower portion of the housing 10 to generate compressed air
A Bernoulli tube 111 is further formed at the distal end of the blow passage 11 to reduce the pressure so that the liquid fine particles generated in the chemical liquid storage tank 20 can be blown by blowing.
The chemical liquid storage tank 20 further includes auxiliary tanks 21 extending downward to both sides to increase the capacity of the chemical liquid, and any one of the two auxiliary tanks 21 is Bernoulli of the air flow passage 11. Connected to the tube 111, the auxiliary tank 21 is connected to the Bernoulli tube (111), the ultrasonic chemical sprayer, characterized in that the partition 22 is further formed.
The method of claim 1,
The handle 31 further includes a control unit for controlling the frequency of the ultrasonic vibrator 23 and the output of the air compressor 40 to control the concentration of the liquid fine particles, the injection range and the injection amount. Chemical sprayer.
delete The method of claim 1,
The upper end of the partition wall 22 is separated from the upper end of the chemical storage tank 20, the ultrasonic chemical sprayer, characterized in that it is configured to block the chemical liquid and guide only the liquid fine particles.

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