KR20190072041A - Sterilization Apparatus with Plasma Jet Spray Structure - Google Patents

Abstract

The present invention relates to a disinfection apparatus comprising a plasma-jet spraying structure, which prevents an ejectable fluid for disinfection from flowing backwards when sprayed, prevents a spray nozzle from thermal degradation, and enables control over desired flow rate and droplet size. In particular, a disinfection apparatus (1) comprises a spraying device (100) provided with a spray nozzle structure (120) spraying disinfectant liquid, wherein the spray nozzle structure (120) includes: a plasma electrode unit (121) for generating plasma; a plasma-jet spray nozzle (122) coupled to a leading end portion of the plasma electrode unit (121); a liquid spray nozzle (123) coupled to a leading end of the plasma-jet spray nozzle (122); and a connection tube (125) causing the disinfectant liquid to flow into the liquid spray nozzle (123), wherein a liquid film formation unit 129 is provided between the plasma-jet spray nozzle (122) and the liquid spray nozzle (123).

Description

[0001] Sterilization Apparatus with Plasma Jet Spray Structure [0002]

Disclosed is a disinfection apparatus having a plasma jet spraying structure. More particularly, the present invention relates to a disinfection apparatus having a plasma jet spraying structure, and more particularly, to a disinfection apparatus having a plasma jet spraying structure, It is.

Generally, a device for disinfection or sterilization is a method using high temperature steam, and a method using ethylene oxide gas, a method using ozone and water, a method using hydrogen peroxide vapor, a method using hydrogen peroxide and plasma, etc. .

In recent years, various combinations of ozone, hydrogen peroxide, plasma, ultraviolet rays, and photocatalyst (TiO ₂ ) have been tried to increase disinfection or sterilization efficiency.

In addition, the supply method of the disinfectant may be supplied in the form of steam, gas bubbler, or liquid (mist) mist.

In this disinfection (or sterilization, sterilization) method, hydrogen peroxide is brought into a gaseous state at a pressure lower than atmospheric pressure, hydrogen peroxide is activated by a low-temperature plasma, and ozone is further introduced at a separate inlet. Of hydrogen peroxide is decomposed while passing through the plasma, and the disinfection performance is rather reduced.

In addition, as a method of sterilizing the exposed area, a method of spraying hydrogen peroxide or a sterilizing agent is mainly used. This method has the merit of simplifying the apparatus since the closed container is removed and the decompressing process of the closed container is not necessary However, the disinfectant is sprayed with fine particles, which are then exposed to activation energy to further activate the disinfectant to sterilize the entire exposed surface or space.

However, due to the electric disturbing effect of liquid fine particles, it is difficult to apply plasma, and thus a method of activating liquid fine particles of a disinfecting agent with radicals or the like up to now has generated a classical electric arc between two electrodes, Only the method of letting the liquid fine particles passing therethrough is put into practical use. This method forms OH radicals when the fine particles pass through the arc discharge, but tends to be exhausted before they reach the surface of the object to be sterilized because the lifetime of the OH radical is short. Therefore, There is a problem that it can be done.

Japanese Patent No. 481570 (Notification date: November 16, 2011)

Disclosure of Invention Technical Problem [7] Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a disinfecting apparatus for disinfecting a disinfectant by spraying a disinfectant with compressed air, A disinfecting device having a plasma jet spraying structure capable of preventing thermal deformation of the liquid spraying nozzle by blocking heat generated from the plasma generating part and preventing the disinfectant from flowing back into the plasma jet spraying nozzle will be.

In order to solve the above-mentioned problem, a disinfecting apparatus including an injection device having a spray nozzle structure for spraying a disinfectant liquid,

The injection nozzle structure includes:

A plasma electrode part for generating a plasma;

A plasma jet spray nozzle coupled to a front end of the plasma electrode;

A liquid jet nozzle coupled to a front end of the plasma jet jet nozzle;

Wherein the disinfectant fluid is injected into the liquid injection nozzle,

A liquid film forming portion is formed between the plasma jet spraying nozzle and the liquid jetting nozzle.

In addition, the liquid film forming unit has a structure in which a space at a spray hole peripheral position of the plasma jet spraying nozzle is formed to be relatively narrower than other intervals.

In addition, the connection pipe has a structure in which a flow control valve is provided to regulate the flow rate of the disinfectant.

As described above, the disinfecting apparatus according to the present invention can prevent the thermal deformation of the liquid spraying nozzle by blocking the heat generated when the disinfectant is sprayed by the liquid film forming unit formed between the liquid spraying nozzle and the plasma jet spraying nozzle .

In addition, the present invention has the effect that the liquid film forming portion maintains a proper gap, and the liquid film is formed irrespective of the swinging or spraying height, and the disinfectant can be uniformly sprayed.

In addition, the present invention has an effect of preventing the disinfectant injected from flowing backward due to the liquid film forming portion and flowing into the plasma jet injection nozzle.

Further, in the present invention, the gap of the liquid film forming part is formed differently depending on the part, the liquid film forming part around the injection hole of the plasma jet spraying nozzle narrows the interval so as not to allow the reverse flow of the disinfectant liquid and the excessive injection amount, It is possible to form an optimum liquid film forming part which is relatively wide so as not to cause thermal deformation of the liquid jetting nozzle in consideration of the circulation speed and temperature rise of the disinfecting liquid.

In addition, the present invention has the effect of controlling the disinfectant flow rate and the spray droplet size required through the flow control valve.

1 is an exploded perspective view of a disinfection apparatus according to an embodiment of the present invention.
2 is an exploded perspective view of FIG.
3 is an enlarged perspective view of a disinfecting apparatus according to an embodiment of the present invention.
4 is a schematic cross-sectional view of an injection nozzle structure of a disinfection apparatus according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

As used herein, terms used in the present specification are selected from the general terms that are currently widely used, while taking into consideration the functions, but these may vary depending on the intention or custom of the artisan or the emergence of new techniques. Also, in certain cases, there may be a term selected by the applicant at will, in which case the meaning will be described in the description part of the corresponding specification. Accordingly, it is intended that the terminology used herein should be interpreted relative to the actual meaning of the term rather than the nomenclature, and its scope throughout this specification.

1 is an exploded perspective view of a disinfecting apparatus according to an embodiment of the present invention, and FIG. 2 is an exploded perspective view of FIG. 1. FIG.

1 and 2, a disinfecting apparatus 1 according to an embodiment of the present invention includes a main body 10, an air compressor 20 provided inside the main body 10, A medicine container 30, a PCB assembly 40, a PCB cover 50, and a body cover 60 are provided.

The injection device 100 is connected to the main body 10 through the connection cable 12 and injects the disinfectant. The injection device 100 can be mounted on a cart (or a carrier / cart, etc.) for easy movement.

The injection apparatus 100 includes a spray cover 110, a spray nozzle structure 120 provided inside the spray cover 110, and a lower part of the spray nozzle structure 120 The high voltage generating device 130 is provided.

The spray cover 110 may have a structure in which two divided covers are assembled and a handle 112 is formed in an upper portion of the spray cover 110.

4, the injection nozzle structure 120 includes a plasma electrode part 121, a plasma jet spray nozzle 122 provided at the tip of the plasma electrode part 121, And a liquid spray nozzle 123 provided at the tip of the jet spray nozzle 122.

The plasma jet spraying nozzle 122 and the liquid spraying nozzle 123 may be screwed and fixed when engaged.

A hose 124 for supplying compressed air is connected to the rear end of the plasma electrode unit 121. A connection pipe 125 and a connection pipe 125 are connected to a lower portion of the liquid injection nozzle 123, The branch pipe 126 is connected to the one side of the connecting pipe 125 and the flow control valve 127 is connected to the connecting pipe 125 and the solution hose 128 is connected to the branch pipe 126 .

A liquid film forming part 129 is formed between the plasma jet nozzle 122 and the liquid jet nozzle 123 to form a liquid film.

In other words, the liquid injection nozzle 123 is provided with a connection pipe 125 and an inflow hole 123a communicating with the liquid film forming unit 129, so that the disinfectant flows into the liquid film forming unit 129).

In the embodiment of the present invention, the liquid film forming portions 129 are preferably formed at intervals of 0.1 mm to 1 mm.

The appropriate intervals (0.1 mm to 1 mm) of the liquid film forming units 129 can be set at uniform intervals over the entire liquid film forming unit 129, but more preferably, have.

4, the liquid film forming portion 129 corresponding to the periphery of the spray hole 122b has a gap (a slope portion located on the peripheral surface of the spray hole 122b is the liquid film forming portion 129) And the other remaining portion is formed to have a relatively wide gap.

In order to prevent the possibility of backflow and an excessive amount of injection, and also to be close to the injection hole 122b, the circulation of the disinfectant solution is required This is because the temperature is rapidly increased and the liquid injection nozzle 123 is not thermally deformed.

Further, forming the remaining space of the liquid film forming portion 129 relatively wide is distant from the spray hole 122b, so that the circulation of the disinfectant liquid is not fast and the temperature can be raised.

Further, the hose 124 allows the compressed air discharged from the air compressor 20 to be transported.

4, when the compressed air is discharged to the outside through the spray hole 123b of the liquid spray nozzle 123, a plurality of holes (not shown) are formed in the plasma electrode part 121 compressed air passes through the plasma electrode part 121 and compressed air passing through the plasma electrode part 121 passes through the hole of the plasma jet part 122 And passes through the inclined outlet hole 122a and the spray hole 122b, and the disinfectant is jetted by the plasma jet.

The injection protection cover 140 may be coupled to the tip of the liquid injection nozzle 123.

The plasma jet nozzle 122 has an outflow hole 122a having an inclined structure and a linear spray hole 122b. The liquid jet nozzle 123 communicates with the spray hole 122b to be compressed And has a structure in which a spray hole 123b for spraying the disinfectant liquid to the outside of the spray apparatus 100 is formed with the help of air.

As shown in FIG. 3, the high voltage generator 130 has a structure in which a cooling fan 132 for cooling the heat generated in the high voltage generator 130 is provided on one side of the high voltage generator 130.

According to one embodiment of the present invention having such a structure, when the disinfecting device is operated for sterilization, compressed air is passed through the hose 124 through the inside of the injection nozzle structure 120 by the operation of the air compressor 20 At this time, the disinfectant is transferred from the chemical container 30 through the solution hose 128 and flows into the space between the liquid spray nozzle 123 and the tip end of the plasma jet spray nozzle 122 through the inflow hole 123a.

The plasma jet spraying nozzle 122 and the liquid jetting nozzle 123 are in close contact with each other while being screwed to each other. However, between the plasma jet jetting nozzle 122 and the liquid jetting nozzle 123, A liquid film is formed as the disinfectant solution transferred from the solution hose 128 is filled.

When the disinfectant is filled in the liquid film forming part 129, plasma is generated by the plasma electrode part 121 and the plasma jet spraying nozzle 122 during the operation of the injector 100 (detailed description of the plasma generating principle Even if the heat generated in the plasma electrode part 121 is transmitted to the liquid spray nozzle 123, heat can be blocked by the liquid film forming part 129, It is possible to prevent thermal deformation of the liquid spray nozzle 123 made of an easy plastic material.

The liquid film forming unit 129 in the injecting apparatus 100 according to the embodiment of the present invention is formed at an appropriate interval (0.1 mm to 1 mm) so that the disinfectant supplied through the connecting pipe 125 is supplied to the plasma jet The phenomenon of backflow into the injection nozzle 122 does not occur.

If the gap between the liquid film forming portions 129 is larger than the proper gap, the disinfectant, which is the spray liquid, flows back into the plasma jet spraying nozzle 122 when the power is turned on / off. However, The injector 100 according to the embodiment of the present invention maintains an appropriate gap to prevent the reverse flow of the disinfectant.

4, the connection pipe 125 is provided with a flow rate control valve 127 so that the flow rate of the disinfectant flowing through the solution hose 128 can be adjusted, Can also be adjusted.

Further, in the present invention, when a solution pump (not shown) is provided in place of the flow control valve 127, the flow rate of the disinfectant can be adjusted through the solution pump.

Since the plasma jet is performed from the inside of the liquid film forming part 129 filled with the disinfectant solution, ROS (reactive oxygen species) having a very short half life is injected into the liquid state (or liquid + gas) The half-life is increased and the activation is increased, so that the strong sterilizing power by ROS can be maintained for a long time.

In addition, since the disinfectant is injected in a circular shape due to the liquid film forming part 129 of the present invention, jetting of the disinfectant can be smoothly performed by being injected evenly.

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. 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 embodiments, but, on the contrary, But fall within the scope of the appended claims.

1: disinfection device
10:
12: Connecting cable
14: Cart
20: air compressor
30: Pharmaceutical container
40: PCB assembly
50: PCB cover
60: Body cover
100: Injection device
110: Spray cover
112: Handle
120: injection nozzle structure
121: Plasma electrode part
122; Plasma jet spray nozzle
122a: outflow ball
122b:
123: liquid injection nozzle
123a: Inflow ball
123b: the air blower
124: Hose
125: Connector
126: Branch organization
127: Flow control valve
128: Solution hose
129: liquid film forming part
130; High voltage generator
132: cooling fan
140: Injection protection cover

Claims (3)

A sterilizing device (1) comprising an injection device (100) having a spray nozzle structure (120) for spraying a disinfectant liquid,
The injection nozzle structure 120 includes a plurality of nozzles,
A plasma electrode part 121 for generating a plasma;
A plasma jet spray nozzle 122 coupled to a front end of the plasma electrode unit 121;
A liquid spray nozzle 123 coupled to a tip of the plasma jet spray nozzle 122;
A connection pipe (125) for allowing the disinfectant solution to be injected into the liquid injection nozzle (123);
/ RTI >
Wherein a liquid film forming part (129) is formed between the plasma jet spraying nozzle (122) and the liquid jetting nozzle (123).
The method according to claim 1,
Wherein the liquid film forming part (129) is formed such that the distance between the plasma jet spraying nozzle (122) and the spray hole (122b) is narrower than the other gap.
The method according to claim 1,
Wherein the connection pipe (125) is provided with a flow control valve (127) for regulating and supplying the flow rate of the disinfectant.

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