KR102073815B1 - Sterilization Apparatus with Plasma Jet Spray Structure - Google Patents

Abstract

The present invention relates to a disinfection apparatus having a plasma jet injection structure that prevents reverse flow during injection of the injection liquid for disinfection, prevents thermal deformation of the injection nozzle, and adjusts a required flow rate and droplet size.
In the present invention, in the disinfection device (1) comprising a spray device 100 having a spray nozzle structure 120 for spraying disinfectant solution,
The injection nozzle structure 120 includes a plasma electrode part 121 for generating a plasma; A plasma jet injection nozzle (122) coupled to the tip of the plasma electrode part (121); A liquid jet nozzle 123 coupled to a tip of the plasma jet jet nozzle 122; It includes a connecting pipe 125 for disinfecting liquid is injected into the liquid injection nozzle 123,
The liquid film forming unit 129 is formed between the plasma jet injection nozzle 122 and the liquid injection nozzle 123.

Description

Sterilization apparatus having a plasma jet spray structure {Sterilization Apparatus with Plasma Jet Spray Structure}

The present invention relates to a disinfection apparatus having a plasma jet injection structure, and more particularly, to prevent backflow during injection of the injection liquid for disinfection, to prevent thermal deformation of the injection nozzle, and to adjust a required flow rate and droplet size. It is.

In general, a device for disinfection or sterilization includes a method using high temperature steam, 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, and the like. There is this.

In recent years, various combinations of ozone, hydrogen peroxide, plasma, ultraviolet light, and photocatalyst (TiO ₂ ) are intended to increase disinfection or sterilization efficiency.

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

Among these methods of disinfection (or sterilization, sterilization), a technique is disclosed in which hydrogen peroxide is made into a gas state at a pressure below atmospheric pressure to activate hydrogen peroxide by low-temperature plasma, and additionally, ozone is introduced at a separate inlet. Hydrogen peroxide is decomposed as it passes through the plasma, so the disinfection performance is rather reduced.

In addition, as a method of sterilizing exposed areas, hydrogen peroxide or a sterilizing agent is mainly sprayed. This method removes a closed container and does not require a decompression process of the closed container, so the device is simple. However, the disinfecting chemicals are sprayed into the microparticles, and then the microparticles are exposed to activation energy to further activate the disinfecting chemicals to sterilize the surface or space of the exposed object.

However, due to the electrical disturbance effect of the liquid microparticles, it is difficult to apply the plasma, and thus, the method of activating the liquid microparticles of the disinfectant with radicals and the like to spray this region by generating a high electric arc between the two electrodes. Only the method of letting the liquid microparticles pass through is in practical use. This method forms OH radicals as the microparticles pass through the arc discharge, but the survival life of the OH radicals is short and tends to be exhausted prior to doping on the surface of the sterilized object. There is a problem that can be made.

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

Accordingly, the present invention has been invented to solve the conventional problems as described above, the problem to be solved by the present invention is to disinfect the disinfection object through the plasma jet injection of the disinfectant solution using the compressed air when the disinfectant solution is sprayed To prevent heat deformation of the liquid jet nozzle by blocking heat generated from the plasma generator, and to prevent the backflow of the disinfectant solution into the plasma jet jet nozzle. will be.

In the disinfection device comprising a spraying device having a spray nozzle structure for spraying disinfectant solution, the solution means for solving the above problems,

The injection nozzle structure,

A plasma electrode unit for generating a plasma;

A plasma jet injection nozzle coupled to a distal end of the plasma electrode unit;

A liquid jet nozzle coupled to a tip of the plasma jet jet nozzle;

A connector for allowing disinfectant solution to be injected into the liquid jet nozzle,

The liquid film forming portion is formed between the plasma jet injection nozzle and the liquid injection nozzle.

In addition, the liquid film forming unit has a structure in which the spacing at the position around the injection hole of the plasma jet injection nozzle is relatively narrower than the other spacing.

In addition, the connecting pipe has a structure that is provided with a flow control valve to be supplied by adjusting the flow rate of the disinfectant solution.

As described above, the disinfecting apparatus according to the present invention has the effect of preventing heat deformation of the liquid jet nozzle by blocking the heat generated during the jet of the disinfectant solution due to the liquid film forming portion formed between the liquid jet nozzle and the plasma jet jet nozzle. There is.

In addition, according to the present invention, since the liquid film forming unit maintains an appropriate interval, the liquid film is formed irrespective of shaking or spraying height, so that the disinfectant solution can be sprayed constantly.

In addition, the present invention has an effect that can be prevented that the disinfectant solution to be injected back flow due to the liquid film forming portion into the plasma jet injection nozzle.

In addition, according to the present invention, the gap between the liquid film forming part is formed differently according to the part. The liquid film forming part around the injection hole of the plasma jet injection nozzle is narrowed so that the possibility of backflow of the disinfectant solution and the excessive injection amount is prevented. By forming a relatively wide, it is possible to form the optimum liquid film forming portion that does not cause thermal deformation of the liquid injection nozzle in consideration of the circulation rate, temperature rise change of the disinfectant solution.

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

1 is a combined perspective view of a disinfecting apparatus according to an embodiment of the present invention.
2 is an exploded perspective view of FIG. 1.
Figure 3 is an enlarged perspective view of the main portion of the disinfecting apparatus according to an embodiment of the present invention.
Figure 4 is a schematic coupling cross-sectional view of the spray nozzle structure of the disinfecting apparatus according to an embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, specific details for carrying out the present invention will be described in detail with reference to the accompanying drawings.

The terminology used herein is a general term that is widely used as far as possible while considering functions, but may vary according to the intention or custom of a person skilled in the art or the emergence of a new technology. In addition, in certain cases, there is a term arbitrarily selected by the applicant, and in this case, the meaning will be described in the description of the corresponding specification. Therefore, it is to be understood that the terminology used herein is to be interpreted based on the actual meaning of the term and the contents throughout the specification, rather than simply on the name of the term.

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

As shown in Figure 1 and 2, the disinfection device 1 according to an embodiment of the present invention, the main body 10, the air compressor 20 provided in the main body 10 and The medicine container 30, the PCB assembly 40, the PCB cover 50, and the main body cover 60 are provided.

Here, the injection device 100 for injecting disinfectant solution while being connected to the main body 10 and the connection cable 12 is provided, it may be mounted on the cart (or carrier / cart, etc.) 14 to facilitate movement.

The injection device 100 (also called 'injection incident') includes an injection cover 110, an injection nozzle structure 120 provided inside the injection cover 110, and a lower portion of the injection nozzle structure 120. The high voltage generator 130 is provided.

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

In addition, as shown in FIG. 4, the injection nozzle structure 120 includes a plasma electrode part 121, a plasma jet injection nozzle 122 provided at a tip of the plasma electrode part 121, and the plasma. It may include a liquid jet nozzle 123 provided at the front end of the jet jet nozzle (122).

The plasma jet injection nozzle 122 and the liquid injection nozzle 123 may be screwed to be fixed when combined.

In addition, a hose 124 for supplying compressed air is connected to a rear end of the plasma electrode part 121, and a connecting pipe 125 and a lower part of the liquid injection nozzle 123 are connected to each other. The branch pipe 126 is formed in communication with one side, the connection pipe 125 may be provided with a flow control valve 127, the branch pipe 126 has a structure in which the solution hose 128 is connected. .

In addition, a liquid film forming unit 129 is formed between the plasma jet jet nozzle 122 and the liquid jet nozzle 123 so that a disinfectant solution remains to form a liquid film.

In other words, the liquid injection nozzle 123 is formed with an inlet hole 123a communicating with the connection pipe 125 and the liquid film forming unit 129 so that the disinfectant solution flows through the solution hose 128 to form a liquid film forming unit ( 129).

In the embodiment of the present invention, the liquid film forming unit 129 is preferably formed at intervals of 0.1mm ~ 1mm.

An appropriate interval (0.1 mm to 1 mm) of the liquid film forming unit 129 may be set at a uniform interval throughout the liquid film forming unit 129, but more preferably, may be set differently within the appropriate interval range for each part. have.

In other words, referring to FIG. 4, the liquid film forming portion 129 corresponding to the periphery of the injection hole 122b is spaced apart (the inclined portion located at the circumferential surface of the injection hole 122b is the liquid film forming portion 129). To narrow the gap, and the rest is to form a relatively wide gap.

The narrowing of the space between the liquid film forming portions 129 corresponding to the periphery of the injection hole 122b is intended to prevent the possibility of backflow and excessive injection amount, and is close to the injection hole 122b, so that the circulation of the disinfectant solution This is because the thermal deformation of the liquid jet nozzle 123 does not occur because the temperature does not increase rapidly.

Further, the relatively wide interval of the liquid film forming unit 129 in the remaining part is far from the injection hole 122b because the circulation of the disinfectant solution is not fast and the temperature may be increased.

In addition, the hose 124 allows the compressed air discharged from the air compressor 20 to be transferred.

In FIG. 4, when the compressed air is discharged to the outside through the injection hole 123b of the liquid injection nozzle 123, although not illustrated in detail for convenience, as shown by the arrow, the plurality of holes are provided in the plasma electrode part 121. holes (not shown) are formed, and the compressed air passes through the plasma electrode unit 121 through the holes, and the compressed air passing through the plasma electrode unit 121 passes through the plasma jet injection nozzle 122. While passing through the inclined outflow hole (122a) and the injection hole (122b), the disinfectant solution is plasma jet injection.

In addition, the spray protection cover 140 may be coupled to the front end of the liquid spray nozzle 123.

The plasma jet injection nozzle 122 is provided with an outflow hole 122a having an inclined structure and a straight injection hole 122b, and the liquid injection nozzle 123 communicates with the injection hole 122b to be compressed. With the help of air, the disinfecting solution has a structure in which the injection hole 123b is formed to be injected to the outside of the injection device 100.

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

According to an embodiment of the present invention having such a structure, when the disinfection device is operated for disinfection, the compressed air is passed through the hose 124 through the hose 124 by the operation of the air compressor 20. At this time, the disinfectant solution is transferred from the medicine container 30 through the solution hose 128 and flows between the liquid injection nozzle 123 and the tip of the plasma jet injection nozzle 122 through the inlet hole 123a.

Here, according to an embodiment of the present invention, the plasma jet injection nozzle 122 and the liquid jet nozzle 123 are screwed to be in close contact with each other, but the liquid film forming unit is formed between the plasma jet jet nozzle 122 and the liquid jet nozzle 123. 129 is formed and the liquid film is formed while the disinfectant solution transferred from the solution hose 128 is filled.

When the disinfectant solution is filled in the liquid film forming unit 129, the plasma is generated by the plasma electrode unit 121 and the plasma jet injection nozzle 122 when the injector 100 is operated (detailed on the principle of plasma generation). The description is omitted since it is a well-known technique), in which case the heat may be blocked by the liquid film forming unit 129 even if heat generated from the plasma electrode portion 121 is delivered to the liquid jet nozzle 123, thereby preventing heat deformation. It is possible to prevent the thermal deformation of the liquid jet nozzle 123 made of an easy plastic material.

In addition, the liquid film forming unit 129 in the injection device 100 according to an embodiment of the present invention is formed at an appropriate interval (0.1mm ~ 1mm), the disinfectant solution supplied through the connection pipe 125 is plasma jet Backflow into the injection nozzle 122 does not occur.

If the spacing of the liquid film forming unit 129 is wider than the proper spacing, the disinfecting solution, which is a spray solution, flows back into the plasma jet spray nozzle 122 when the power is turned on or off. Injector 100 according to an embodiment of the proper interval can be maintained to prevent the backflow of the disinfectant solution.

In addition, as shown in Figure 4, the connection pipe 125 is provided with a flow control valve 127, it is possible to adjust the flow rate of the disinfectant solution flowing through the solution hose 128, according to the droplet size of the disinfectant solution Can also be adjusted.

In addition, in the present invention, instead of the flow control valve 127, when a solution pump (not shown) is provided, it is possible to adjust the flow rate of the disinfectant solution through the solution pump.

In the present invention, since the liquid jet forming unit 129 is filled with a disinfectant solution, plasma jet injection is performed therein. Thus, reactive oxygen species (ROS) having a very short half-life are sprayed in a liquid state (or liquid + gas). The half-life is increased, and the activation is increased so that strong sterilization by ROS can be maintained for a long time.

In addition, in the present invention, since the disinfecting solution is added in a circular shape due to the liquid film forming unit 129, the spraying of the disinfecting solution may be performed more smoothly as much as that.

In the above, specific embodiments of the present invention shown in the accompanying drawings have been described in detail, but these are merely examples of the preferred embodiments of the present invention, and the scope of protection of the present invention is not limited thereto. In addition, the embodiments of the present invention as described above can be variously modified and equivalent other embodiments by those of ordinary skill in the art within the technical spirit of the present invention, such modifications and equivalent other embodiments are It belongs to the appended claims of the invention.

1: Disinfection device
10: main body
12: connecting cable
14: Cart
20: air compressor
30: medicine container
40: PCB Assembly
50: PCB Cover
60: main body cover
100: injector
110: injection cover
112: handle
120: injection nozzle structure
121: plasma electrode portion
122; Plasma Jet Nozzle
122a: outflow hole
122b: injection hole
123: liquid jet nozzle
123a: inlet hole
123b: injection hole
124: Hose
125 connector
126: branch pipe
127: flow control valve
128: solution hose
129: liquid film forming unit
130; High voltage generator
132: cooling fan
140: spray protection cover

Claims (3)

In the disinfection device (1) comprising a spray device 100 having a spray nozzle structure 120 for spraying disinfectant solution,
The injection nozzle structure 120,
A plasma electrode portion 121 for generating a plasma;
A plasma jet injection nozzle (122) coupled to the tip of the plasma electrode part (121);
A liquid jet nozzle 123 coupled to a tip of the plasma jet jet nozzle 122;
A connection pipe 125 for disinfecting liquid to be injected into the liquid jet nozzle 123;
Including,
The liquid film forming unit 129 is formed between the plasma jet injection nozzle 122 and the liquid injection nozzle 123,
The liquid film forming unit (129) is a disinfection device having a plasma jet injection structure, characterized in that the spacing at the position around the injection hole (122b) of the plasma jet injection nozzle 122 is relatively narrower than the other intervals.
delete The method according to claim 1,
Disinfection device having a plasma jet injection structure, characterized in that the connection pipe 125 is provided with a flow rate control valve 127 to control the flow rate of the disinfectant solution.

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