KR20160076579A - a minute particle producing device using ultrasonic - Google Patents

Abstract

Disclosed is an apparatus to produce a minute particle such as a nanoparticle from a particle of an object material to be pulverized (for example, paint, cosmetic material, etc.) using an ultrasonic wave generated by a vibration plate which sprays the hydraulic pressure in a high pressure condition. A minute particle producing device using an ultrasonic wave according to the present invention includes: a raw material tank receiving the object material to be pulverized; a hydraulic pump discharging water in a high pressure condition; a pipe conduit transferring the high pressure water discharged from the hydraulic pump into the inside of the raw material tank; a nozzle spraying the high pressure water supplied through the pipe conduit; and a vibration plate producing the ultrasonic wave by the high pressure water sprayed from the nozzle. The object material to be pulverized and received in the raw material tank can be atomized by dispersing or pulverizing the object material using ultrasonic wave generated by the vibration plate.

Description

TECHNICAL FIELD [0001] The present invention relates to a particle generating device using ultrasonic waves,

[0001] The present invention relates to a particulate generation apparatus, and more particularly, to a particulate generation apparatus, in which particles of a pulverized material (for example, powdery paint, cosmetic raw material, etc.) are dispersed using ultrasound generated by a diaphragm, And an ultrasonic wave generating device for generating a particle size of the ultrasonic wave.

Generally, devices for spraying a disinfectant such as insecticide or bactericide include a nozzle disinfecting device for diluting a disinfectant with water and spraying the disinfectant through a spray nozzle and a disinfecting device for disinfecting the disinfectant together with the combustion gas by burning the combustible material , And a device for using a bromine-based compound as a fuming gas.

Such conventional disinfection, insecticidal methods and apparatuses can not effectively spray disinfectant, but rather cause soil contamination and excessive use of disinfectant, resulting in environmental pollution.

Korean Patent No. 0742635 discloses an " ultrasonic vaporization disinfecting device ".

1, there are a plurality of vaporization tanks 12 for vaporizing the liquid disinfecting agent 11 by air pressure, a liquid disinfecting agent 11 generated in the vaporization tank 12, A plurality of vaporization tanks 12 for introducing the sterilization agent 11 and vaporizing the sterilization agent 11 are connected to the upper connection pipe 13 and the lower connection pipe 14 And an ultrasonic generator 16 connected to the air compressor 51 at the inside of the vaporization tank 12.

2, the pneumatic ultrasonic generator 16 includes a plurality of pneumatic ultrasonic generators 16 connected to a compressed air distribution pipe 42 connected to a compressed air supply pipe 41, The vibrating plate 16 has a cylindrical ultrasonic vibrator 43 and a diaphragm 44 having pores at the center is provided on the inside of the cylindrical ultrasonic vibrator 43. Outside the cylindrical ultrasonic vibrator 43, ).

Accordingly, the compressed air supplied to the compressed air distribution pipe is supplied to the interior of the ultrasonic generator along the flow path, and then passes through the pores formed in the diaphragm to micro-shake the diaphragm at a high speed. As a result, The molecules were broken up to be non-equalized.

However, in the pneumatic ultrasonic generator of the prior art, a high-pressure impact is constantly applied to a certain portion of the diaphragm, so that the diaphragm is punctured to cause a hole, thereby causing a trouble.

An embodiment of the present invention relates to an apparatus for producing fine particles using ultrasound which is capable of pulverizing or dispersing pulverized particles in a powder state by ultrasonic waves generated by a diaphragm in which a water pressure at a high pressure is sprinkled.

The embodiments of the present invention are characterized in that various types of wave ranges are formed by controlling the sizes of hydraulic pressures applied to a plurality of diaphragms provided in a plurality of material tanks or by making diaphragm materials different from each other, To the particulate matter generation device.

An apparatus for generating fine particles using ultrasonic waves according to an embodiment of the present invention includes:

A raw material tank in which the pulverized material is accommodated;

A water pressure pump for discharging water in a high pressure state;

A pipe for moving the high-pressure water discharged from the hydraulic pump into the raw material tank;

A nozzle for spraying high-pressure water supplied through the pipe;

And a diaphragm for generating ultrasonic waves by high-pressure water sprayed from the nozzle, wherein the pulverized material contained in the raw material tank is dispersed or pulverized by ultrasound generated by the diaphragm, Generating device.

And a vortex generating unit formed at a periphery of the nozzle to increase vibration of the diaphragm and forming a vortex in the water sprinkled on the diaphragm.

A plurality of diaphragms are provided in the raw material tank to increase the dispersion or crushing rate of the pulverized product, and various types of wavelength bands can be formed when controlling the magnitude of hydraulic pressure applied to the diaphragm.

The embodiment of the present invention configured as described above has the following advantages.

The water pressure in the high pressure state is sprinkled on the diaphragm supported on the raw material tank, and the particles of the pulverized material are finely pulverized or dispersed by ultrasonic waves generated thereby to collect the finely divided particles and to utilize them for industrial use.

In addition, by adjusting the hydraulic pressure applied to a plurality of diaphragms provided in the raw material tank, or by making diaphragm materials different, various types of wave ranges are formed to maximize the dispersion and crushing effects of the pulverized material, .

1 and 2 are schematic views of a conventional ultrasonic generator,
3 is a schematic view of an apparatus for generating fine particles using ultrasonic waves according to an embodiment of the present invention,
FIG. 4 is an enlarged view of a nozzle for supplying a water pressure to a diaphragm in an apparatus for generating fine particles using ultrasonic waves according to an embodiment of the present invention;
5 is a plan view showing a modified example of a diaphragm provided in a plurality of material tanks in an apparatus for producing fine particles using ultrasonic waves according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, which are intended to illustrate the present invention so that those skilled in the art can easily carry out the invention. And does not mean that the technical idea and scope of the invention are limited.

FIG. 3 is a schematic view of an apparatus for generating fine particles using ultrasonic waves according to an embodiment of the present invention. FIG. 4 is an enlarged view of a nozzle for supplying a water pressure to a diaphragm in an apparatus for generating fine particles using ultrasonic waves according to an embodiment of the present invention And FIG. 5 is a plan view showing a modified example of a diaphragm provided in a plurality of feed tanks in an apparatus for producing fine particles using ultrasonic waves according to an embodiment of the present invention.

3 to 5, the apparatus for generating fine particles using ultrasonic waves according to an embodiment of the present invention includes:

A raw material tank 100 in which a crushed material (for example, paint, cosmetics, etc.) is accommodated and a lid 100a is openably and closably mounted in an opening;

A water pressure pump 101 for discharging water in a high pressure state;

A pipeline (102) for moving high pressure water discharged from the hydraulic pump (101) into the raw material tank (100);

A nozzle 103 for spraying high pressure water supplied through the pipeline 102;

And a diaphragm 104 for generating ultrasonic waves by high-pressure water sprayed from the nozzle 103. The pulverized material contained in the material tank is dispersed or pulverized by ultrasonic waves generated by the diaphragm 104 to be atomized .

The vortex generating unit 105 may be provided at the periphery of the nozzle 103 to increase vibrations of the diaphragm 104 and may form a vortex in the water sprinkled on the diaphragm 104 .

In this case, since the technique of generating ultrasonic waves by sprinkling the high pressure water supplied from the hydraulic pump 101 on the diaphragm 104 through the nozzle 103 is a technical content used in the related art, The description is omitted.

A plurality of diaphragms 104 are provided in the raw material tank 100 to increase the dispersion or crushing rate of the pulverized material so that various sizes of wavebands can be obtained when controlling the magnitude of water pressure applied to the diaphragm 104 .

The apparatus for spraying medicines using ultrasonic vibration includes an ultrasonic generator (A) disposed inside the vaporization tank (T) storing the disinfectant (100) and connected to the air compressor to non-vaporize the disinfectant.

The ultrasonic generator A comprises a main body 1, an auxiliary body 2, and a vibration plate 3.

The main body 1 is provided with a connection port 16 connected to the air compressor and at least one discharge port 12 formed on the other side thereof and connected to the connection port 16 and the discharge port 12 A plurality of flow paths 10 are formed.

The auxiliary body 2 is connected to the discharge hole 12 of the main body 1 and has a passage 21 formed therein and a plurality of pores 22 formed on the outer surface thereof.

The diaphragm 3 is fixed at one end by screws 242 to the step 24 formed in the auxiliary body 2 so as to correspond to the pores 22 and the other end is spaced apart from the outer surface of the auxiliary body 2 by a predetermined distance As the cantilever type coupling is performed, the shaking operation due to the collision of the high-pressure compressed air can be performed.

At one side of the diaphragm 3, a reinforcing means 9 is formed at a portion corresponding to the pores 22. [ In other words, high-pressure compressed air is discharged from the pores 22 and strikes the diaphragm 3 to form ultrasonic waves due to tremble, so that the high-pressure compressed air against the local portion of the diaphragm 3 is struck.

Therefore, the diaphragm 3 made of a relatively thin thin plate has perforations due to a high-pressure impact on the local site, so that the reinforcing means 9 is formed on the area to be hit.

For example, the reinforcing means 9 comprises a plate portion 92 formed to face the pores 22, and a rod connected to the rear surface of the plate portion 92 and coupled through the diaphragm 3.

After passing through the diaphragm 3, the rear end of the barrel is pressed and expanded by a hammer or the like to form a rivet head 94 to have an adhesive force.

The plate portion 92 is formed by protruding the upper surface 92 in a dome shape so as to disperse the fluid (high-pressure air).

As another example, the reinforcing means 9 'includes a plate portion 92' formed with a screw rod 922 'screwed into the through hole 30 of the diaphragm 3 and arranged to face the pores 22, And a nut 95 'screwed to the screw rod 922'.

Therefore, after the screw rod 922 'is passed through the through hole 30 of the diaphragm 3, the nut 95' is fastened and attached to the diaphragm 3.

Preferably, the plate portion 92 'should be convexly hemispherical. By forming the hemispherical shape, the high-pressure air striking the plate portion 92 'can be dispersed, and the concentrated impact pressure can be dispersed and reduced.

Best Mode for Carrying Out the Invention Hereinafter, an example of use of an apparatus for generating fine particles using ultrasonic waves according to an embodiment of the present invention will be described with reference to the accompanying drawings.

3 to 5, the ultrasonic generator A according to the present invention is installed in the vaporization tank T, and the installation position is set so as to be locked at a predetermined depth in the sanitizer. Preferably, it is connected to the height adjusting device so that it can be lifted or lowered according to the water level fluctuation of the sanitizing agent.

The height adjusting device includes a water level sensor 7 installed inside the vaporization tank T and sensing the water level; A motor 8 mounted on the upper portion of the vaporization tank T; And a connecting means (9) for connecting the motor (8) and the pneumatic ultrasonic generator (A1).

The level sensor 7 is for sensing the level fluctuation of the disinfectant 100, and it is not limited to the conventional float type but various types of level sensors can be applied.

The motor 8 is applied with a step motor whose rotation value is limited only by the set value, and is rotated in the forward direction or the reverse direction according to the signal of the control unit.

The connecting means 9 is a wire wound around a pulley of the motor 8, and the other end of the wire is connected to the pneumatic ultrasonic generator A1. Thus, the wire can be wound or loosened to adjust its length according to the rotation of the pulley.

The level sensor 7 is connected to a control unit (not shown) to transmit the level variation data to the control unit, and the control unit controls whether the motor 8 is operated based on the received data.

When the water level becomes lower or higher, the motor 8 is driven in the forward and reverse directions to increase or decrease the length of the connecting means 9 so that the pneumatic ultrasonic generator A1 is lowered or raised, To be maintained.

Meanwhile, a pump 410 is mounted on one side of the vaporization tank T, and a suction pipe 420 for sucking the liquid disinfectant therein is connected to a lower portion of the vaporization tank T, and a discharge pipe 430 are installed at the upper end of the pump 410. The discharge pipe 430 is connected to the air supply pipe H and a fluid is selected at the connection portion between the discharge pipe 430 and the air supply pipe H, A switching valve 450 is provided.

Therefore, the switching valve 450 is operated in one direction to supply the high-pressure air of the air supply pipe H to the ultrasonic generator A to generate ultrasonic waves.

On the other hand, when the switching valve 450 is operated in the other direction, the inflow of the high-pressure air is blocked, the liquid disinfecting agent or water is supplied from the outside and flows into the ultrasonic generator A according to the present invention, It is possible to stir the medicine in the tank.

100; Raw material tank
101; Hydraulic pump
102; pipeline
103; Nozzle
104; tympanum
105; The vortex generator

Claims (3)

A raw material tank in which the pulverized material is accommodated;
A water pressure pump for discharging water in a high pressure state;
A pipe for moving the high-pressure water discharged from the hydraulic pump into the raw material tank;
A nozzle for spraying high-pressure water supplied through the pipe;
And a diaphragm for generating ultrasonic waves by high-pressure water sprayed from the nozzle, wherein the pulverized material contained in the raw material tank is dispersed or pulverized by ultrasound generated by the diaphragm, Generating device. The method according to claim 1,
And a vortex generating unit formed at a periphery of the nozzle to increase vibrations of the diaphragm and generating a vortex in water sprinkled on the vibration plate. The method according to claim 1,
Wherein a plurality of diaphragms are provided in the raw material tank so as to increase the dispersion or crushing rate of the pulverized product, and various types of wavelength ranges can be formed when the magnitude of the hydraulic pressure applied to the diaphragm is respectively adjusted. A particle generation apparatus using the apparatus.

Images