KR100699415B1 - Electrostatic spray cleaning apparatus - Google Patents

Abstract

The cleaning device disclosed in the present invention is charged with a nozzle (10) for receiving and spraying the cleaning liquid from a separate cleaning liquid supplyer, and the liquid droplets of the cleaning liquid sprayed through the nozzle located in front of the cleaning liquid injection port of the nozzle, Corona electrode 20 for releasing a large amount of anions and ozone, and a power supply 30 for supplying a voltage to the corona electrode to cause an electric field, the corona electrode is a ring-shaped electrode set to perform a negative electrode corona discharge It is.

According to the present invention, it is possible to smoothly remove various contaminants on the surface of the object to be cleaned while reducing the kinetic energy loss and the amount of droplets scattered through the nozzle of the cleaning device.

Electrostatic spraying, cleaning, spray cleaning, corona, electrode

Description

Electrostatic Spray Cleaner {ELECTROSTATIC SPRAY CLEANING APPARATUS}             

1 is a schematic view of a conventional cleaning apparatus.

Figure 2 is a schematic diagram of the electrostatic spray cleaning apparatus according to an embodiment of the present invention.

Figure 3 is an exemplary view showing a cleaning process of the electrostatic spray cleaning apparatus according to an embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

10: nozzle

20: corona electrode

30: power supply

The present invention relates to an electrostatic spray cleaning device, and more particularly, to charge the droplet sprayed through the nozzle provided with the electrode of the cleaning device, and to ground the cleaning object to electrically charge the charged droplet and the grounded cleaning object. The present invention relates to an electrospray cleaning apparatus capable of smoothly removing contaminants on the surface of an object to be cleaned by combining with the resin.

In general, atomization and spraying of liquids have been applied in various fields such as spray coating, printing, coating, ultrafine particle production, object propulsion and cleaning equipment in space.

A conventional cleaning apparatus using atomization and spraying of the liquid will be described below with reference to FIG. 1.

As shown in FIG. 1, a cleaning apparatus using atomization and spraying of a liquid, which is conventionally applied, sprays a liquid to a target object to be cleaned through a nozzle at a predetermined high pressure.

The liquid sprayed through the nozzle is atomized to a small size, and the atomized liquid (hereinafter referred to as "droplet") collides with contaminants such as dust and dust on the surface of the object to adsorb contaminants, Remove the contaminants.

However, the droplets sprayed through the conventional cleaning apparatus shown in FIG. 1 are recombined with other droplets and increase in size before reaching the target object, whereby the kinetic energy of the sprayed droplets is reduced and thus scattered. As the amount of the droplets increases, the object is left out of the object to be cleaned, and thus there is a problem that the contaminants on the surface of the object cannot be smoothly removed.

In addition, as the amount of droplets scattered as described above increases, there is a problem in that waste of liquid (hereinafter referred to as "cleaning liquid") for cleaning supplied to the cleaning apparatus increases.

In addition, there is a problem that secondary contaminants such as various bacteria are caused due to aggregation and sticking phenomenon between the contaminants not removed on the surface of the object.

An object of the present invention is to solve the above problems, it is possible to smoothly remove various contaminants on the surface of the object to be cleaned while reducing the kinetic energy loss and the amount of droplets sprayed through the nozzle of the cleaning device. An electrospray cleaning apparatus is provided.

In addition, another object of the present invention is to provide an electrospray cleaning apparatus which can reduce the waste of cleaning liquid by reducing the amount of the droplets scattered.

Further, another object of the present invention, by reducing the amount of uncontaminated pollutants on the surface of the object to be cleaned, as described above, by sterilizing and removing various bacteria and microorganisms by the sterilizing power of anion and ozone, contaminants It also provides an electrospray cleaning apparatus that can reduce the possibility of the generation of secondary pollutants caused by coagulation of liver, bacterial propagation and settling.

The present invention for achieving the above object, relates to an electrospray cleaning apparatus, a nozzle (10) for receiving a cleaning liquid from a separate cleaning liquid supply, spraying and spraying the cleaning liquid; A corona electrode 20 positioned at the front end of the cleaning liquid injection hole of the nozzle 10 to charge droplets of the cleaning liquid sprayed through the nozzle 10 and release a large amount of anions and ozone; And a power supply 30 supplying a voltage to the corona electrode 20 to cause an electric field. Characterized in that it comprises a.

Preferably, the corona electrode 20 is characterized in that it is set to perform a negative electrode corona discharge.

In addition, the corona electrode 20 is preferably characterized in that the ring (Ring) shape.

And preferably, the power supply 30 is characterized in that for supplying a current of 2mA to 5mA to the corona electrode 20 at a voltage of 2kV to 5kV.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

Referring to Figure 2 with respect to the electrostatic spray cleaning apparatus according to an embodiment of the present invention.

Figure 2 is a schematic diagram of the electrostatic spray cleaning apparatus according to an embodiment of the present invention.

As shown in FIG. 2, the electrostatic spray cleaning apparatus includes a nozzle 10, a corona electrode 20, and a power supply 30.

The nozzle 10 receives a cleaning liquid from a cleaning liquid supplier (not shown) to perform a spray or spray function.

In addition, the corona electrode 20 is located in front of the tip of the injection port of the nozzle 10, and performs a function of charging the droplets of the cleaning liquid sprayed through the nozzle 10.

In the present embodiment, the corona electrode 20 will be set to have a ring shape, but the present invention is not limited thereto.

In addition, the power supply 30 supplies a voltage to the corona electrode 20 to perform a function of causing an electric field in the corona electrode.

In the present embodiment, the power supply 30 will be set to supply 2 kV to 5 kV of power to the corona electrode 20, but a material having a high flash point for the cleaning liquid supplied to the nozzle 10 (hereinafter, referred to as "ignition material"). In the case of inflow, there is a risk that the ignitable material may ignite and explode instantaneously, so that the current of the voltage supplied to the corona electrode 20 is usually 2mA to 5mA in order to prevent such a risk. It is desirable to limit.

Hereinafter, the operation of the electrostatic spray cleaning apparatus according to an embodiment of the present invention having the above-described configuration will be described with reference to FIG. 3.

Figure 3 is an exemplary view showing a cleaning process of the electrostatic spray cleaning apparatus according to an embodiment of the present invention.

As shown in FIG. 3, droplets of the cleaning liquid sprayed through the nozzle 10 pass through the corona electrode 20 located in front of the tip of the nozzle of the nozzle.

The corona electrode 20 receives power from the power supply 30 to generate a strong electric force. The droplets injected through the nozzle 10 are charged by the strong electric force while passing through the corona electrode 20. .

At this time, around the corona electrode 20 where the strong electric force acts, corona discharge is generated by the electrical destruction of gas molecules, the corona discharge is free electrons discharged by the electrical destruction of the gas molecules around the corona electrode 20 This forms dots, ribbons, and fluorescence around the corona electrode 20.

For reference, the shape of the fluorescence formed around the corona electrode 20 depends on the polarity of the corona electrode 20, and is divided into a positive electrode corona discharge and a negative electrode corona discharge according to the polarity.

The positive electrode corona discharge appears in a uniform form on the surface of the corona electrode 20, and the negative electrode corona discharge appears in the form of dots or ribbons around the corona electrode 20.

Looking at the corona discharge in more detail as follows.

The corona electrode 20 accelerates free electrons contained in the gas around the corona electrode 20 due to the strong electric force.

The accelerated free electrons move at high speed and collide with other molecules in the gas, and the collided molecules are charged with cations to release one more free electron.

The released free electrons collide with other molecules in the gas chain to produce a large amount of cations, free electrons (anions) and ozone. This process of ion growth is called avalanche multiplication.

The avalanche multiplication phenomenon is maintained as long as the accelerated free electrons collide with the gas molecules to generate ions, and this avalanche multiplication phenomenon is affected by the strength (strength) of the electric force.

Here, the anion and ozone move together with the droplets to the surface of the object to be cleaned, and the anion and ozone are electrically charged with various fine contaminants including dust, tobacco smoke, pollen, and bacteria, which are charged to the anode as is well known. To neutralize or decompose.

In the present embodiment, the corona discharge by the corona electrode 20 will be set to be a cathode corona discharge, but the present invention is not limited thereto, and may be set to be a cathode corona discharge.

On the other hand, the droplet has a predetermined surface tension in its characteristics, and when the electrical force of the surface tension or more is applied to the droplet, as described above, the droplet is charged through the corona electrode 20 and at the same time smaller droplets are split.

The surface tension of the droplet and the size of the droplet will be described in more detail with reference to Equation 1 as follows.

Q is the limit specific charge amount of the droplet, ε is the dielectric constant of the gas around the droplet, r is the surface tension of the droplet, d is the diameter (size) of the droplet.

As can be seen from Equation 1, the droplet has a Rayleigh's Limit, and the limit charged amount increases as the diameter of the droplet, i.e., its size, decreases, so that the droplet becomes less stable. It is in a stable state by dividing into.

In addition, as described above, the charged droplets are subjected to Coulombbic repulsion between the droplets, and before the droplets are injected through the nozzle 10 to reach the surface of the object to be cleaned, Since there is no reduction in the momentum (kinetic energy) caused by recombination between them, the droplets collide with the pollutants without losing momentum as soon as they reach the surface of the object to be cleaned, and as a result, the pollutants on the surface of the object to be cleaned are effectively removed. It can be cleaned by.

And, as shown in FIG. 3, the object to be cleaned is grounded and has the opposite polarity as that of the droplet, so that the droplet moves toward the object to be cleaned by an electric field formed between the droplet and the object to be cleaned. As the size of the droplet is smaller, the electric field is more affected, and thus the loss of the droplet due to the scattering of the droplet out of the object to be cleaned is reduced.

In the present embodiment, the object to be cleaned will be set to be grounded to the power supply 30, but the present invention is not limited thereto.

In this embodiment, the cleaning effective distance is formed according to the shape of the corona electrode 20, the voltage supplied to the corona electrode 20 and the pressure of the cleaning liquid supplied to the nozzle 10, the present invention is applied It may be desirable to set this in consideration of the relationship with the components of the system.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited to the drawing.

According to the present invention as described above, it is possible to smoothly remove various contaminants on the surface of the object to be cleaned while reducing the loss of kinetic energy and the amount of droplets sprayed through the nozzle of the cleaning device.

In addition, according to the present invention, by reducing the amount of the droplets scattered, there is an effect that can reduce the waste of the cleaning liquid.

According to the present invention, by reducing the amount of contaminants that are not removed from the surface of the object to be cleaned, by sterilizing and removing various bacteria and microorganisms using the sterilizing power of the anion and ozone, aggregation and fixation between the contaminants, There is also an effect to reduce the possibility of secondary pollutants caused by the reproduction of bacteria and microorganisms.

Claims (4)

In the electrostatic spray cleaning device, A nozzle (10) which receives the cleaning liquid from a separate cleaning liquid supplier and injects and sprays the cleaning liquid; A corona electrode 20 positioned at the front end of the cleaning liquid injection hole of the nozzle 10 to charge droplets of the cleaning liquid sprayed through the nozzle 10 and release a large amount of anions and ozone; And a power supply 30 supplying a voltage to the corona electrode 20 to cause an electric field. Including; The corona electrode 20 is a ring-shaped electrode is set to perform a negative electrode corona discharge, electrostatic spray cleaning apparatus, characterized in that to remove the contaminants on the surface of the object using the droplets sprayed through the nozzle. delete delete The method of claim 1, The power supply 30, Electrostatic spray cleaning apparatus, characterized in that for supplying a current of 2mA to 5mA to the corona electrode 20 at a voltage of 2kV to 5kV.

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