KR20220067105A - Sterilization device using laser - Google Patents

Abstract

The present invention relates to a sterilization device using a laser, characterized by comprising: a main body (10) having a through-hole (11) opened back and forth and a laser irradiation hole (12) having one side communicating with the through-hole (11) and the other side opening to the outside; a laser irradiation device (20) installed in the laser irradiation hole (12) to irradiate a high-temperature laser; and a reflector (30) which is installed on the inner surface or the through-hole (11) of the main body (10) in the longitudinal direction at the front and back sides of the main body (10) and reflects the high-temperature laser irradiated from the laser irradiation device (20) so that the laser can be irradiated to the inner surface of the main body (10). According to one embodiment of the present invention, a laser sterilization unit is formed radially inside the through-hole of the main body such that external air containing viruses (or bacteria) passes is sterilized at high temperature by the laser sterilization unit while passing through the through-hole of the main body. As such, harmful microorganisms can be effectively sterilized.

Description

Sterilization device using laser

The present invention relates to a sterilization apparatus using a laser, and more particularly, a sterilization apparatus using a laser that sterilizes viruses through the laser sterilization unit formed by forming a radial laser sterilization unit inside a passage hole of a main body through which external air passes. is about

As modern society becomes more complex and climate change becomes more serious, various viruses that threaten human health have emerged.

These new viruses are very difficult to prevent and treat because there are no vaccines and therapeutic agents, and it takes a long time to develop vaccines and therapeutic agents, and costs a lot of money.

In addition, new viruses, even if vaccines and therapeutics are developed, it takes a long time to apply them to humans without side effects, and there is a problem that the efficacy cannot be guaranteed 100%.

Therefore, when a new virus is discovered, in order to protect health, it is important not to meet with a large number of people, not to use multi-use facilities, not to stay in an enclosed space for a long time, and not to come into contact with the virus in the form of droplets or aerosols. desirable.

However, in human life, it is very difficult not to meet a large number of people, not to use multi-use facilities, and not to stay in an enclosed space for a long time.

Currently, a method of sterilizing viruses by periodically disinfecting multi-use facilities or enclosed spaces is used. It is difficult to use frequently.

Therefore, the need for developing a virus sterilization device that does not endanger human health and does not require a lot of cost is constantly being raised.

1. Republic of Korea Patent No. 10-1813255 (2017.12.29)

The present invention has been devised to solve the above problems, and provides a sterilization apparatus using a laser that sterilizes viruses through the laser sterilization unit formed by forming a radial laser sterilization unit inside the passage hole of the main body through which the outside air passes. It has a purpose to do so.

The present invention for achieving the above object,

a main body having a through hole opened back and forth, one side communicating with the through hole and a laser irradiation hole having the other side open to the outside;

a laser irradiation device installed in the laser irradiation hole to irradiate a high-temperature laser;

and a reflector installed on the inner surface or through hole of the main body in the longitudinal direction of the main body to reflect the high-temperature laser irradiated from the laser irradiation device to the inner surface of the main body.

Also, in the present invention,

It is characterized in that the first and second diffusers are further reinforced, each disposed on the front and rear sides of the main body and having a plurality of first and second through-holes communicating with the through-holes.

Also, in the present invention,

A temperature sensor for measuring the temperature of the body or a gas detection sensor for detecting gas are further provided with reinforcement.

According to this embodiment, a radial laser sterilization unit is formed inside the passage hole of the main body, so that the outside air containing the virus (or bacteria) is sterilized at a high temperature by the laser sterilization unit in the process of passing through the passage hole of the main body. There is an advantage that can effectively sterilize microorganisms.

Furthermore, since it can sterilize viruses in the form of droplets or aerosols in indoor multi-use facilities or enclosed spaces (such as in aircraft interiors), it is very useful for protecting human health in modern society where the frequency of virus exposure increases.

1 is a combined perspective view of a sterilization apparatus using a laser according to a first embodiment of the present invention.
Figure 2 is a front sectional view of Figure 1;
3 is a view for explaining the effect of the first embodiment of the present invention.
4 is a front sectional view showing a second embodiment of the present invention.
5 is an exploded perspective view showing a third embodiment of the present invention.
Fig. 6 is a plan sectional view of Fig. 5;
7 is a front cross-sectional view showing a fourth embodiment of the present invention.

Hereinafter, it will be described in detail based on the accompanying drawings.

1 is a combined perspective view of a sterilization apparatus using a laser according to a first embodiment of the present invention, and FIG. 2 is a front sectional view of FIG. 1 .

1 to 3, the sterilization apparatus according to the first embodiment is composed of a main body 10, a laser irradiation device 20, and a reflector 30. According to this, a laser sterilization unit is provided inside the main body 10. There is a technical feature of sterilizing the virus through the formed laser sterilization unit to be formed.

The main body 10 is a tube having a predetermined length, and a through hole 11 penetrating forward and backward is integrally formed inside, and one end communicates with the through hole 11 on the outer surface, and the other end communicates with the outside. The laser irradiation hole 12 is integrally formed.

A laser irradiation device 20 is detachably inserted into the laser irradiation hole 12 .

In addition, the laser irradiation hole 12 may be increased or decreased in consideration of the number of the laser irradiation device 20 to be installed.

In addition, the main body 10 may be in the form of a tube, and the shape may be variously deformed.

For example, the main body 10 is detachably installed on the suction port side of the fan mechanism (not shown).

The laser irradiation device 20 is a well-known device, and in this embodiment, it is detachably inserted into the laser irradiation hole 12 to pass the laser through the hole 11, more specifically, the opposite side where the laser irradiation device 20 is installed. It is irradiated toward the inner surface of the main body (10).

The high-temperature laser irradiated from the laser irradiation device 20 is reflected by the reflector 30 disposed in the through hole 11 and irradiated to the inner surface of the body 10 .

The reflector 30 is installed on the inner surface or through hole 11 of the main body 10 in the front and rear longitudinal direction of the main body 10 so that the high-temperature laser irradiated from the laser irradiation device 20 is directed to the inner surface of the main body 10 . It acts as a reflection so that it can be irradiated.

The reflector 30 is a circular rod or a polyhedral rod having a hollow or solid structure.

In addition, the reflector 30, as shown in FIGS. 1 and 2, may be disposed in the through hole 11 via the bracket (B), and may be integrally formed with the inner surface of the body 10, As shown in FIGS. 5 and 6 , both ends may be fitted into the reflector fixtures 50 installed on the first and second diffusers 40 and 40 ′, respectively, and disposed in the passage hole 11 .

In the embodiment of the family register of the present invention, the laser irradiation device 20 is installed on the body 10 at an angle of 120° so that the laser is irradiated toward the center of the body 10, and the reflector 30 is made of a circular rod. To be disposed in the center of the main body 10 is ideally formed of a radial laser sterilization unit, of course, the sterilization effect is also the best.

In addition, as another example, when the laser is irradiated toward the reflector 30 in a state in which the laser irradiation device 20 is disposed to face (180° angle) with the reflector 30 interposed therebetween, the A radiation-type laser sterilization unit is formed in the passage hole 11 of the main body 10 by the laser reflected by hitting the circumferential surface (outer peripheral surface).

3 is a diagram for explaining the effects of the first embodiment of the present invention, which will be described with reference to the following.

First, the sterilizer according to the present invention is installed on the inlet side of the fan mechanism (not shown), and then the fan mechanism (not shown) is operated to allow outside air to flow into the inside, and the sterilizer of the present invention is operated.

When the sterilizer according to the present invention is operated, a laser is irradiated from the laser irradiation device 20 installed in the main body 10, and the irradiated laser collides with the peripheral surface (or outer peripheral surface) of the reflector 30 and is reflected while being reflected in the main body 10 ), a radial laser sterilization unit is formed inside the passage hole 11, and accordingly, various viruses are sterilized at a high temperature by the laser sterilization unit in the process of passing through the passage hole 11 of the main body 10.

4 is a front sectional view showing a second embodiment of the present invention, showing that a single laser irradiation device 20 is applied.

When the single laser irradiation device 20 is applied as described above, the reflector 30 is integrally formed on the inner surface of the body 10 , and the laser irradiated from the laser irradiation device 20 is applied to the reflector 30 . It is reflected by the irradiated to the inner surface of the body (10).

The laser reflected as described above forms a radial laser sterilization unit within the passage hole 11 of the main body 10, and accordingly, various viruses are laser sterilized in the process of passing through the passage hole 11 of the main body 10. Most of them are sterilized by high temperature.

The second embodiment has the advantage of reducing the manufacturing cost compared to the first embodiment in that a single laser irradiation device 20 is applied, but in terms of efficiency of sterilization, it is relatively compared to the first embodiment. have no choice but to fall

5 is an exploded perspective view showing a third embodiment of the present invention, and FIG. 6 is a plan sectional view of FIG.

The third embodiment has the same overall structure as the first embodiment, except that the first and second diffusers 40 and 40', the reflector fixture 50 and the diffuser fixture 60 are further reinforced here. different

The first and second diffusers 40 and 40 ′ have a plurality of first and second through holes 41 and 41 ′ communicating with the through holes 11 of the main body 10 , and It is built into the front side and the rear side, respectively, and is fixed by the diffuser fixture (60).

To this end, a stepped portion 13 is integrally provided on the inner surfaces of the front and rear sides of the main body 10 so that the first and second diffusion bodies 40 and 40 ′ introduced therein can be maintained spaced apart by a predetermined interval. In order to prevent the first and second diffusers 40 and 40' from being separated to the outside, a ring-shaped diffuser fixture 60 corresponding to the inner cross-sectional shape of the main body 10 is installed in front of the main body 10. · It was detachably fitted into the rear inner surface to prevent separation of the first and second diffusers 40 and 40'.

As an example, the first and second diffusers 40 and 40' may have a mesh shape, and the surfaces of the first and second diffusers 40 and 40' may have smooth surfaces or have a plurality of protrusions. can be

As an example, although the first and second diffusers 40 and 40' are illustrated in a circular shape, they may be modified into various known shapes as necessary.

As an example, a reflective material and an anti-corrosion material (metal material) may be coated on the surfaces of the first and second diffusers 40 and 40 ′. As the reflective material, a metal having good laser reflectance such as silver may be applied. In addition, an anticorrosion material (metal material) for preventing corrosion may be additionally applied on the reflective material through a vacuum deposition method, and examples of the metallic material include gold, rhodium, and the like.

Meanwhile, the reflector 30 may be disposed in the through hole 11 of the main body 10 via the bracket B as in the first embodiment, but the first and second diffusers 40 and 40' It may be installed via the reflector fixture 50 installed in the.

The reflector fixture 50 is a bolt and a nut, and one end of the bolt has a groove having a predetermined depth so that one end of the reflector 30 can be inserted.

In order for the reflector fixture 50 to be installed in the first and second diffusers 40 and 40', holes are provided in the first and second diffusers 40 and 40' through which bolts are inserted, As the nut is fastened to the bolt, the reflector fixture 50 is fixed to the first and second diffusers 40 and 40', respectively, and both ends of the reflector 30 are respectively inserted into the reflector fixture 50 fixed in this way. The reflector 30 can be disposed in the passage hole 11 of the main body 10 via the reflector fixture 50 installed in the first and second diffusers 40 and 40'.

In the case of the third embodiment, looking at the effect, the outside air containing the virus (or bacteria) passes through the passage hole 11 of the main body 10 by driving the fan mechanism (not shown), and in this state, the laser irradiation device A radial laser sterilization unit is made in the through hole 11 by the laser and the reflector 30 irradiated from the 20 .

At this time, when the laser sterilization unit is formed inside the passage hole 11, a part of the reflected laser is separated in the front and rear of the passage hole 11. The separated laser is the first and second diffusers ( 40, 40') and reflected (see arrows in FIG. 6), some dispersion is made.

Here, the dispersed laser is discharged to the outside through the first and second through-holes 41 and 41' of the first and second diffusers 40 and 40' (to the outside of the first and second diffusers in FIG. 6). (refer to the direction of the arrow pointing to it), at this time, since the energy of the dispersed laser emitted to the outside is weakened by diffusion, the temperature around the main body 10 does not increase.

That is, the present embodiment prevents the fan mechanism (not shown) to which the main body 10 is attached from being damaged at high temperature by weakening the energy of the laser and discharging it to the outside when the laser leaves the body 10 .

7 is a front sectional view showing a fourth embodiment of the present invention, and the overall structure is the same as that of the first to third embodiments, except that the gas detection sensor 70 or the temperature sensor 80 is further reinforced here. only the point is different.

The gas detection sensor 70 and the temperature sensor 80 may be installed directly on the main body 10 or may be installed adjacent to the main body 10 .

The gas detection sensor 70 installed in this way detects the outdoor air passing through the main body 10 or the flammable gas of the outdoor air flowing out from the main body 10 and informs the controller (not shown).

In this way, by detecting and notifying the gas, it prevents the flammable gas from being ignited by the high temperature of the laser and directly connected to a fire, so that the sterilizer according to the present invention can be safely used even in a place where flammable materials are stored.

In addition, the temperature sensor 80 measures the surface temperature of the main body 10 and informs the controller (not shown), thereby preventing the main body 10 from overheating, and reducing the risk of damage and fire due to overheating. have.

Although the present invention has been described in detail only with respect to the specific embodiments described, it is natural for those skilled in the art that various changes and modifications can be made within the technical spirit of the present invention, and it is natural that such variations and modifications belong to the appended claims.

10: body 11: through hole 12: laser irradiation hole
13: step 20: laser irradiation device 30: reflector
40, 40': first and second diffusers 41, 41': first and second through-holes 50: reflector fixture
60: diffusion fixture 70: gas detection sensor 80: temperature sensor
B: Bracket

Claims (3)

a main body having a through hole opened back and forth, one side communicating with the through hole and a laser irradiation hole having the other side open to the outside;
a laser irradiation device installed in the laser irradiation hole to irradiate a high-temperature laser;
A sterilizer using a laser comprising a; a reflector installed on the inner surface or through hole of the main body in the longitudinal direction of the main body to reflect the high-temperature laser irradiated from the laser irradiation device so that it can be irradiated to the inner surface of the main body. .
According to claim 1,
A sterilization apparatus using a laser, characterized in that the first and second diffusers are further reinforced, each disposed on the front and rear sides of the main body and having a plurality of first and second through-holes communicating with the through-holes.
3. The method of claim 1 or 2,
A sterilization apparatus using a laser, characterized in that a temperature sensor for measuring the temperature of the main body or a gas detection sensor for detecting gas is further reinforced.

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