KR20230060276A - Droplet fine dust blocking device using directional sterilization energy - Google Patents

Abstract

The present invention relates to a device for blocking fine dust particles using directional sterilization energy, and more particularly, by overlapping an electromagnetic wave (sterilization energy) sterilization protection area emitted by a directional sterilization energy radiating element and an air curtain area using air pressure. It relates to a droplet fine dust blocking device using directional sterilization energy made to block bacterial infection and scattered droplet fine dust in the air in a medical institution by forming a germ-blocking air curtain.
To this end, a directional sterilization energy radiating element forming a sterilization energy sterilization protection area; It is configured to include an air curtain portion that forms an air curtain area to overlap with the sterilization energy sterilization protection area formed by the directional sterilization energy radiating element using the pressure of the air ejected.

Description

Droplet fine dust blocking device using directional sterilization energy {Droplet fine dust blocking device using directional sterilization energy}

The present invention relates to a device for blocking fine dust particles using directional sterilization energy, and more particularly, by overlapping an electromagnetic wave (sterilization energy) sterilization protection area emitted by a directional sterilization energy radiating element and an air curtain area using air pressure. It relates to a droplet fine dust blocking device using directional sterilization energy made to block bacterial infection and scattered droplet fine dust in the air in a medical institution by forming a germ-blocking air curtain.

Currently, Corona 19 is more rampant and the development of treatments and vaccines is being made, but the global pendemic is said to last for a long time. Accordingly, it is known that the best infection prevention is to block the infection route by air infection or saliva by keeping a distance or wearing a mask.

On the other hand, in medical institutions such as hospitals, when a patient and a doctor are consulted, there is a risk of infection through droplet transmission between a patient and a doctor who are talking to each other.

In particular, as many patients and doctors reside and talk in medical institutions, the problem of airborne bacterial infection and contamination of scattering fine dust is considered as a task to be continuously solved.

Among these known methods, as one of the methods for preventing bacterial infection, in a place where two or more people face each other and need to talk, a screen made of transparent acrylic is placed to protect pathogens infected by airborne bacteria. We are trying to be safe by preventing this.

The inflow of external dust, gas, and pests is also blocked through the above-described shield, and the transfer of droplets between the counselor and the counselee who is talking to each other is blocked.

However, a partition using such a transparent acrylic plate forms a physical barrier, and is usually a place where two or more people face each other and need to talk - for example, food service establishments, companies that serve customers, counseling counters, In cafeteria tables, round tables for conferences, and medical institutions, it is common for people to face each other and communicate. Currently, partitions made of acrylic panels block each other's eyes, causing considerable inconvenience in use.

In addition, in the case of acrylic partitions, bacteria remaining attached to the acrylic may survive for a long time, causing another bacterial infection.

Accordingly, the reality is that there is a need for a blocking device that forms a non-physical protective film while having the efficacy of a transparent acrylic plate.

Republic of Korea Patent Publication No. 10-2050278 (2019.12.02. Notice.)

The present invention has been devised to solve the above-described problems, and the sterilization protection area of electromagnetic waves (sterilization energy) emitted by the directional sterilization energy radiating element and the air curtain area using air pressure are overlapped in the same direction and position to prevent germs. Its purpose is to provide a droplet fine dust blocking device using directional sterilization energy made to block bacterial infection and scattered droplet fine dust in the air at places such as medical institutions.

In order to achieve the above object, the droplet fine dust blocking device using directional sterilization energy according to the present invention is arranged to have a set directionality and forms a sterilization energy sterilization protection area by the sterilization energy radiated to the outside. a directional sterilization energy radiating element; It comprises an air curtain part forming an air curtain area to overlap with the sterilization energy sterilization protection area formed by the directional sterilization energy radiating element using the pressure of the air ejected.

At this time, the air curtain unit, a blower that sucks in the outside air and guides it toward the directional sterilization energy radiating element to generate an air flow having a directionality of the setting; It includes a filter installed on the inlet side of the blower to filter out foreign substances in the air that is sucked in.

On the other hand, it is configured to include an air inertial accelerator having a wide inlet and a narrow outlet so that the air ejected through the directional sterilization energy radiating element is collected and straight.

As such, the device for blocking fine dust particles using directional sterilization energy according to the present invention overlaps the electromagnetic wave (sterilization energy) sterilization protection area emitted by the directional sterilization energy radiating element and the air curtain area using air pressure to block germs in the air. By forming a curtain, it has an effect of blocking bacterial infection in the air and scattering fine dust in medical institutions.

In other words, germs that have penetrated into the germ-blocking air curtain are extinguished by sterilization energy, and germs that are scattered during conversation with the other person in the separate area are prevented from mutual transmission of infectious diseases, and smooth communication between patients and doctors in an open environment with face-to-face partners. It has the effect of helping communication.

1 is a schematic diagram showing a droplet fine dust blocking device using directional sterilization energy according to the present invention.
Figure 2 is a partially enlarged view showing a droplet fine dust blocking device using directional sterilization energy according to FIG.
3 to 5 are front views, side views, and exploded views showing a droplet fine dust blocking device using directional sterilization energy according to the present invention.
6 is a schematic diagram showing an example of a structure of a directional sterilization energy radiating element arrangement and a dotted line in a droplet fine dust blocking device using directional sterilization energy according to the present invention.
7 and 8 are schematic diagrams showing an embodiment of the use of the droplet fine dust blocking device using directional sterilization energy according to the present invention.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of a droplet fine dust blocking device using directional sterilization energy according to the present invention will be described in detail.

On the other hand, in describing the present invention, when a certain component is said to "include", this means that it may further include other components without excluding other components unless otherwise stated. do.

In addition, it should be noted that the same reference numerals and symbols refer to the same components in the drawings as much as possible, even if they are displayed on different drawings.

In addition, in describing the present invention, detailed descriptions of ultraviolet light emitting devices, high frequency sterilization effects, ozone generators, sterilization energy, air purifiers, and air curtains are known through prior art literature, and related known functions or configurations A detailed description thereof will be omitted in order not to obscure the subject matter of the present invention.

As shown, in the droplet fine dust blocking device using directional sterilization energy according to the present invention, the electromagnetic wave (sterilization energy) sterilization protection area emitted by the directional sterilization energy radiating element 3 and the air curtain area using air pressure are the same. By overlapping, a germ-blocking air curtain 8 is formed to block bacterial infection and scattering fine dust in the air in medical institutions and the like.

To this end, the droplet fine dust blocking device using the directional sterilization energy of the present invention is sterilization energy sterilization formed by the directional sterilization energy radiating element 3 and the directional sterilization energy radiating element 3 using the pressure of the air ejected. It is configured to include an air curtain portion forming an air curtain area overlapping with the protection area.

Specifically, the energy supplied by the linear arrangement of the directional sterilization energy radiating elements 3 has a position and direction set in the external space of the device of the present invention and is radiated, and the radiated sterilization energy is sterilized energy sterilization protection area on the radiated space will form

In addition, the air curtain unit generates an air flow having a strong pressure by the blower 1 that generates the air flow and induces it to form an air curtain area, and the air curtain area overlaps with the above-mentioned sterilization energy sterilization protection area. As a result, germs and droplet fine dust penetrating into the air curtain area are sterilized and sterilized by directional sterilization energy to form a blocking area.

In other words, by making the air curtain area the same as the sterilization protection area created by the directional sterilization energy radiating element, germs penetrating into the germ-blocking air curtain 8 formed outside the housing of the device are sterilized by directional sterilization energy and droplets to block fine dust.

In addition, as will be described later, the air flow formed by the blower 1 facilitates the formation of the air curtain area, increases the straightness of the blown air, and designates the direction to form the air curtain area in the set direction. The air passage part 4 which guides the air flow formed by (1) more strongly is further provided.

In the following, the droplet fine dust blocking device using the directional sterilization energy according to the present invention will be described in a more specific embodiment.

The droplet fine dust blocking device using directional sterilization energy is largely composed of a directional sterilization energy radiating element (3), an element support (2), a sterilization energy anode feeder (6), a sterilization energy cathode feeder (7), an air filter (5), It is constituted by including a blower (1) and an air passage part (4).

First, the directional sterilization energy radiating element 3 is arranged to have a set directionality inside the housing constituting the outer shape of the device, although it is not indicated by reference numerals. (6), the energy supplied through the sterilization energy cathode feeder 7 is radiated and ejected to the external space to form a sterilization energy sterilization protection area on the outer space of the housing.

The directional sterilization energy radiating element 3 may be an element or module that generates ultraviolet rays to have a sterilization function, and may be an ultraviolet laser beam element if necessary. In the case of using microwave electromagnetic waves, it is preferable to leave a separation distance between devices so as to have horizontal plane directivity.

On the other hand, of course, the power supplied to the directional sterilization energy radiating element 3 can increase or decrease the output according to the protection area and size.

The plurality of directional sterilization energy radiating elements 3 arranged in this way are radiated by the power supplied to the anode feeder line 6 and the cathode feeder line 7 and propagate straight to the outside space.

On the other hand, the element support 2 is for positioning and supporting the above-described plurality of directional sterilization energy radiating elements 3 in an arrangement set in the housing, and it is preferable to use an insulator material and a material that is easy to transmit when light waves are radiated. do.

This element support (2) is located on the inlet side and the upper part of the blower (1) based on the direction in which air is sucked and introduced, and has a structure in which the radiating element (3) can be fitted at the top of the blower (1). and support it

In addition, the sterilization energy positive feeder line 6 and the sterilization energy cathode feeder line 7 are feeders for radiating energy by supplying power to the linearly arranged directional sterilization energy radiating element 3.

Then, as described above, the air curtain unit applied to the present invention, as described above, the blower 1 and the blower 1 for generating an air flow having a directionality of the setting by sucking in external air and guiding it toward the directional sterilization energy radiating element 3 It is installed on the inlet side of the ) and includes a filter 5 that filters out foreign substances in the air that is sucked in.

On the other hand, if necessary, the air curtain part improves the air cleaning function by adding a non-directional UV lamp or an ozone generator that operates as a sterilization function for air purification inside the housing to one side of the blower (1) to the directional sterilization energy radiating element (3) The quality of supplied air can be improved.

In addition, the filter 5 used applies a KF94 filter that filters out Corona 19 bacteria, and has an excellent ability to filter out bacteria than general air purifiers.

It is preferable that the air filter 5 has a structure that is easy to replace when the function is deteriorated due to contamination due to long-time use.

On the other hand, the air curtain unit of the present invention includes an air passage portion 4 having a wide inlet portion and a narrow outlet portion so that the air ejected through the directional sterilization energy radiating element 3 is collected and straightened.

In other words, the air passage part 4 generates inertia by making the air pressure generated in the blower 1 flow in a certain direction, and forms a long air stem to form a vertical or vertical or A horizontal air curtain area is formed.

The air passage part 4 is located above the above-mentioned element supporter 2, and the sucked air passes through the blower 1, passes through the element support part 2, passes through the air passage part 4, and blows it out to the outside. do.

The air passage portion 4 has a wide inlet portion at the top of the element supporter 2, extends with a set length and angle, and has a narrow outlet portion at the outlet side. That is, it has the shape of a lower light beam, and the exit part has a set width and length, and accordingly, the direction and size of the air curtain area are set.

The air passage part 4 is a transparent material through which ultraviolet rays can easily pass when the energy radiated by the directional sterilization energy radiating element 3 is ultraviolet rays, and when emitting microwave waves or other radioactive waves harmless to the human body, Teflon or ceramics, etc. It is preferable to configure as a high dielectric material of.

Of course, various structures can be applied to the structure of the air passage part 4 as long as it has a structure capable of producing a waveguide or reflector effect in which radiant energy is concentrated.

On the other hand, the blower 1 constituting the air curtain part of the present invention performs a role of generating and inducing the flow of air in the direction of setting by sucking in air, and this air flow is the high frequency of the directional sterilization energy radiating element 3 It also performs the function of cooling the heat generated by the conversion of current into sterilization energy and the role of air purification.

7 and 8 are schematic diagrams showing an embodiment of the use of the droplet fine dust blocking device using directional sterilization energy according to the present invention, with reference to this, a droplet using directional sterilization energy according to the present invention constituting the above configuration Let's take a look at the action effect according to the installation embodiment of the fine dust blocking device.

Wearing a mask while having a conversation in a restaurant is uncomfortable, and you have to take it off while eating or drinking tea. At this time, if the other person is confirmed to have a bacterial infection, infection by breathing cannot be avoided.

As shown in FIG. 7 , infection can be prevented and droplet fine dust can be blocked by the germ-blocking air curtain 8 generated in the device of the present invention installed vertically as shown in FIG. 7 .

Conventional acrylic or general air curtains are ineffective because they do not have a sterilization function, and in the case of acrylic partitions, bacteria remaining attached to the acrylic survive for a long time, causing another bacterial infection.

8 is a case where the air curtain 8 is applied to block germs by directional sterilization energy so that the protective film 8 is formed upward from the bottom of the horizontally installed table.

As such, the device for blocking fine dust particles using directional sterilization energy of the present invention can be set and operated in the direction in which the air curtain 8 is formed to block germs as needed, so that it can be applied in various ways according to the use environment.

As described above, the droplet fine dust blocking device using directional sterilization energy according to the present invention overlaps the electromagnetic wave (sterilization energy) sterilization protection area emitted by the directional sterilization energy radiating element and the air curtain area using air pressure. By forming a germ-blocking air curtain, it has the effect of blocking bacterial infection in the air and scattering fine dust in medical institutions.

In other words, germs that have penetrated into the germ-blocking air curtain are extinguished by sterilization energy, and germs that are scattered during conversation with the other person in the separate area are prevented from mutual transmission of infectious diseases, and smooth communication between patients and doctors in an open environment with face-to-face partners. It has the effect of helping communication.

The present invention described above is limited to the above-described embodiment and the accompanying drawings, since various substitutions, modifications and changes are possible to those skilled in the art without departing from the technical spirit of the present invention. it is not going to be

1: blower 2: element support
3: Directional sterilization energy radiating element
4: air passage part
5 : air filter
6: anode of sterilization energy feeder
7: Cathode of sterilization energy feeder
8: Bacterial blocking air curtain

Claims (3)

A plurality of directional sterilization energy radiating elements arranged to have a set directionality and forming a sterilization energy sterilization protection area by the sterilization energy radiated to the outside;
A droplet fine dust blocking device using directional sterilization energy, characterized in that it comprises an air curtain unit that forms an air curtain area to overlap with the sterilization energy sterilization protection area formed by the directional sterilization energy radiating element using the pressure of the ejected air. .
According to claim 1,
The air curtain part,
a blower for sucking in external air and guiding it toward the directional sterilization energy radiating element to generate an air flow having a set directionality;
A droplet fine dust blocking device using directional sterilization energy, characterized in that it comprises a filter installed at the inlet side of the blower to filter foreign substances in the air that is sucked in.
According to claim 2,
A droplet fine dust blocking device using directional sterilization energy, characterized in that it comprises an air passage having a wide inlet and a narrow outlet so that the air ejected through the directional sterilization energy radiating element is collected and straight.

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