KR102621267B1 - Method and apparatus for sterilization of fluid - Google Patents

Abstract

A high-efficiency, high-capacity fluid sterilization device and fluid sterilization method are proposed. The fluid sterilization device according to the present invention includes a substrate located on the flow path of the fluid; A light irradiation unit located on the substrate; and a penetrating portion formed on the substrate for passing fluid.

Description

{Method and apparatus for sterilization of fluid}

The present invention relates to a fluid sterilization device and a fluid sterilization method, and more specifically, to a high-efficiency, high-capacity fluid sterilization device and a fluid sterilization method.

Ultraviolet rays, heat, chemicals, ozone, or radiation can be used to sterilize bacteria or viruses in fluid. Among these, the sterilization method using ultraviolet rays is the simplest and most preferred because it does not cause resistance. The ultraviolet light source that has been used conventionally is a UV (Ultraviolet) lamp, but UV lamps have disadvantages in terms of environmental pollution, lifespan, efficiency, and design freedom. Recently, low-power and eco-friendly UV LEDs have been used to replace UV lamps. It is in the process of being replaced. UV is divided into UVA (315-400 nm), UVB (280-315 nm), and UVC (100-280 nm) depending on its wavelength. UVC is mainly used for sterilization, or UVA is used together with a photocatalyst.

The sterilization module using UV LED is mainly installed on the outer wall of the fluid flow pipe to perform sterilization. At this time, the fluid flowing in the fluid flow pipe has a different distance from the LED chip, so the sterilization efficiency is high in the case of fluid flowing close to the LED chip, but when the distance to the LED chip is long, the intensity of light decreases depending on the distance. It can decrease in inverse proportion to the square. In other words, the performance of sterilizing pathogens flowing on the opposite wall where the UV LED light source is not located is poor.

The present invention was made to solve the above problems, and the purpose of the present invention is to provide a high-efficiency, high-capacity fluid sterilization device and a fluid sterilization method.

A fluid sterilizing device according to an embodiment of the present invention for achieving the above object includes: a substrate located on the flow path of the fluid; A light irradiation unit located on the substrate; and a penetrating portion formed on the substrate for passing fluid.

The fluid sterilization device according to the present invention may further include a fluid flow guide portion that guides the path of the fluid toward the light irradiation portion.

The fluid sterilization device according to the present invention further includes a photocatalyst unit that sterilizes the fluid by receiving UV light from the UVA LED when the light irradiation unit includes a UVA LED. The photocatalyst unit may be formed on the surface of the fluid flow guide unit. there is.

The light irradiation unit may include at least one of UVC LED and IR LED.

The fluid sterilization device according to the present invention may further include a light irradiation unit that includes a UVA LED, and a photocatalyst unit that sterilizes the fluid by receiving UV light from the UVA LED. At this time, it may further include a fluid flow guide part that guides the path of the fluid between the light irradiation part and the photocatalyst part.

According to another aspect of the present invention, a first fluid sterilization unit including a first substrate located on the flow path of the fluid, a first light irradiation portion located on the first substrate, and a first penetration portion for passing the fluid; and a second fluid sterilization unit including a second substrate located on the path of the fluid, a second light irradiation unit located on the second substrate, and a second penetration unit for passing the fluid; including, a first light irradiation unit and A fluid sterilization device for sterilizing a flowing fluid using light irradiation is provided, wherein the second light irradiation unit is positioned to face the second light irradiation unit.

The fluid sterilization device according to the present invention may further include a fluid flow guide unit that guides the fluid to proceed between the first light irradiation unit and the second light irradiation unit.

The fluid sterilization device according to the present invention further includes a photocatalyst unit that sterilizes the fluid by receiving UV light from the UVA LED when either the first light irradiation unit or the second light irradiation unit includes a UVA LED, The unit may be located between the first light irradiation unit and the second light irradiation unit.

The fluid sterilization device according to the present invention includes a photocatalyst unit that sterilizes the fluid by receiving UV light from the UVA LED when either the first light irradiation unit or the second light irradiation unit includes a UVA LED; and a fluid flow guide unit that guides the path of the fluid toward the first light irradiation unit and the second light irradiation unit. The photocatalyst unit may be formed on the surface of the fluid flow guide unit.

According to another aspect of the present invention, a first fluid sterilization unit including a first substrate located on the flow path of the fluid, a first light irradiation portion located on the first substrate, and a first penetration portion for passing the fluid; and a second fluid sterilization unit including a second substrate located on the path of the fluid, a second light irradiation unit located on the second substrate, and a second penetration unit for passing the fluid; including, a first light irradiation unit and A first fluid sterilization module positioned to face the second light irradiation unit; and a third fluid sterilization unit including a third substrate positioned on the fluid flow path, a third light irradiation unit positioned on the third substrate, and a third penetration unit for passing the fluid; and a fourth fluid sterilization unit including a fourth substrate located on the path of the fluid, a fourth light irradiation unit located on the fourth substrate, and a fourth penetration unit for passing the fluid; including, a third light irradiation unit and A fluid sterilization device including a second fluid sterilization module positioned to face the fourth light irradiation unit is provided.

According to another aspect of the present invention, the steps include: positioning a fluid sterilizing device composed of a substrate including a light irradiation portion and a penetrating portion for passing the fluid on the path of the fluid within the fluid flow pipe; Flowing fluid within a fluid flow pipe; and performing sterilization using light irradiation on the flowing fluid. A fluid sterilization method for sterilizing a flowing fluid using light irradiation is provided.

According to embodiments of the present invention, the fluid sterilization part is manufactured by forming a light irradiation part and a penetration part through which the fluid can penetrate on the substrate, thereby stabilizing the LED lifespan, increasing light output, and wavelength stability due to improved heat dissipation characteristics due to the fluid. It is possible to manufacture a fluid sterilization device with excellent sterilization performance and reliability.

In addition, since the fluid sterilization unit is located in the path of the fluid, uniform light irradiation is possible within the fluid flow pipe, making it possible to perform a uniform sterilization operation on the entire fluid.

In addition, by modularizing the fluid sterilization device, the fluid sterilization module can be easily configured in a stacked manner, which has the effect of enabling the implementation of a fluid sterilization device applicable to large-capacity fluid flow pipes.

Figure 1 is a view of a fluid sterilizing device located inside a fluid flow pipe according to an embodiment of the present invention, Figure 2 is a plan view of the fluid sterilizing device, Figure 3a is a cross-sectional view taken along the line A-A', and Figure 3b is a cross-sectional view taken along the line B- This is a cross-sectional view of B'.
Figure 4 is a diagram showing a fluid sterilization device located inside a fluid flow pipe according to another embodiment of the present invention.
Figure 5 is a plan view of a fluid sterilization device according to another embodiment of the present invention.
Figure 6 is a diagram showing a fluid sterilization device according to another embodiment of the present invention located inside a fluid flow pipe.
Figure 7 is a diagram showing a fluid sterilization device located inside a fluid flow pipe according to another embodiment of the present invention.
Figure 8 is a view showing a fluid sterilization device according to another embodiment of the present invention located inside a fluid flow pipe.
Figure 9 is a diagram showing a fluid sterilization device located inside a fluid flow pipe according to another embodiment of the present invention.
Figure 10 is a diagram showing a fluid sterilization device located inside a fluid flow pipe according to another embodiment of the present invention.
Figure 11 is a diagram showing a fluid sterilization device located inside a fluid flow pipe according to another embodiment of the present invention.
Figure 12 is a diagram showing a fluid sterilization device located inside a fluid flow pipe according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the attached drawings. However, the embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. Embodiments of the present invention are provided to more completely explain the present invention to those skilled in the art. In the attached drawings, there may be components shown with a specific pattern or with a predetermined thickness, but this is for convenience of explanation or distinction, so even if they have a specific pattern and a predetermined thickness, the present invention does not describe the features of the components shown. It is not limited to just that.

Figure 1 is a view of a fluid sterilizing device located inside a fluid flow pipe according to an embodiment of the present invention, Figure 2 is a plan view of the fluid sterilizing device, Figure 3a is a cross-sectional view taken along the line A-A', and Figure 3b is a cross-sectional view taken along the line B- This is a cross-sectional view of B'. The fluid sterilization device 100 according to this embodiment includes a substrate 110 located on the flow path of the fluid; A light irradiation unit 120 located on the substrate 110; and a penetrating portion 130 formed on the substrate 110 for passing fluid. In this specification, the flow of fluid is indicated by a red arrow.

Referring to FIG. 1, the fluid sterilization device 100 according to the present invention is positioned perpendicular to the fluid flowing in the fluid flow pipe 200. Therefore, when the fluid sterilizing device 100 is located on the inner wall of the fluid flow pipe 200, it is not possible to uniformly sterilize the entire flowing fluid, but it can sterilize the entire fluid like the fluid sterilizing device 100 according to the present invention. Because this is possible, fluid sterilization capacity can be maximized.

The fluid sterilization device 100 according to the present invention includes a substrate 110 located on the flow path of the fluid and a light irradiation portion 120 of the substrate 110. The light irradiation unit 120 can treat bacteria or viruses in the fluid by irradiating light. The light irradiation unit 120 may include, for example, an ultraviolet ray emitter such as a UV LED. The light irradiation unit 120 generates heat when light is irradiated, and since the fluid flows in direct contact with the light irradiation unit 120, the generated heat can be removed without a separate device. Alternatively, a heat sink 111 may be included on the back of the substrate 110 to dissipate heat.

Since the fluid sterilizing device 100 is located inside the fluid flow pipe 200, it can be located in the flow direction of the fluid and block the flow. Accordingly, a penetrating portion 130 is formed in the substrate 110 to secure a path for the fluid to flow.

When using the fluid sterilization device 100 according to the present invention, within the fluid flow pipe 200, a substrate 110 including a light irradiation part 120 on the path of the fluid and a penetration part 130 for passing the fluid ) Positioning the fluid sterilization device 100 consisting of; Flowing fluid within the fluid flow pipe 200; and sterilizing the flowing fluid using light irradiation. A fluid sterilization method of sterilizing the fluid using light irradiation can be performed.

When fluid is applied to the fluid flow pipe 200, the fluid sterilizing device 100 according to the present invention sterilizes the entire fluid flow pipe 200 uniformly because the UV LEDs are uniformly disposed throughout the fluid flow pipe 200. This can be done. In particular, because the fluid flows in direct contact with the UV LED chip, the distance from the UV LED is minimized, so the light output from the UV LED can be directly irradiated to the pathogen, maximizing sterilization efficiency. In addition, since the fluid sterilization device 100 is naturally cooled by flowing fluid without installing a cooling fan, the heat dissipation effect can be increased, and the decrease in optical output and wavelength change can be prevented, and the lifespan can be extended, so it has excellent reliability.

Figure 4 is a diagram showing a fluid sterilization device located inside a fluid flow pipe according to another embodiment of the present invention. The fluid sterilization device according to the present invention may further include a fluid flow guide unit 140 that guides the path of the fluid toward the light irradiation unit 120. When positioning the fluid flow guide in the fluid flow pipe 200, if the fluid is positioned so that it flows to the light irradiation unit 120, the light can be irradiated as close as possible to the pathogens present in the fluid, thereby increasing the sterilization effect.

Figure 5 is a plan view of a fluid sterilization device according to another embodiment of the present invention. In this embodiment, the fluid sterilization device may include two or more light irradiation units on the substrate 110. For example, the light irradiation unit may include at least one of a UVC LED and an IR (Infrared) LED.

Referring to FIG. 5, a first light irradiation unit 121 and a second light irradiation unit 122 are located on the substrate 110. For example, if the first light irradiation unit 121 is a UVC LED and the second light irradiation unit 122 is an IR LED, ultraviolet ray sterilization and infrared (heat) sterilization can be performed simultaneously.

UVC LED is an LED with a wavelength range of 280 to 100 nm, and sterilizes by directly irradiating ultraviolet rays, while IR LED can sterilize by directly irradiating infrared rays.

Figure 6 is a diagram showing a fluid sterilization device according to another embodiment of the present invention located inside a fluid flow pipe. The fluid sterilization device 100 according to this embodiment includes a photocatalyst unit 150 containing a photocatalyst that is photoactivated by the light irradiation unit 120 on the substrate 110. Since the photocatalyst unit 150 is activated by light generated from the light irradiation unit 120, it can be positioned facing the light irradiation unit 120. A photocatalyst such as TiO ₂ generates radicals by light in the 400 to 315 nm wavelength range generated from a UVA LED, and the radicals can induce an oxidative decomposition reaction in the object, thereby generating a sterilizing effect.

Therefore, according to this embodiment, the light generated by the light irradiation unit 120 on the substrate 110 activates the photocatalyst of the photocatalyst unit 150 and sterilizes the fluid contacting the surface of the photocatalyst unit 150.

Figure 7 is a diagram showing a fluid sterilization device located inside a fluid flow pipe according to another embodiment of the present invention. The fluid sterilization device according to the present invention further includes a fluid flow guide unit 140 that guides the path of the fluid between the light irradiation unit 120 and the photocatalyst unit 150. The fluid flow guide unit 140 guides fluid to the photocatalyst area at the location of the light irradiation unit 120 of the photocatalyst unit 150, thereby increasing the sterilization effect.

Figure 8 is a view showing a fluid sterilization device according to another embodiment of the present invention located inside a fluid flow pipe. The fluid sterilizing device according to this embodiment includes a first substrate located on the fluid flow path, a first light irradiation portion located on the first substrate, and a first fluid sterilizing portion 101 including a first penetration portion for passing the fluid. ); and a second fluid sterilization unit 102 including a second substrate located on the fluid flow path, a second light irradiation unit located on the second substrate, and a second penetration unit for passing the fluid. At this time, the first fluid sterilization unit 101 and the second fluid sterilization unit 102 are positioned so that the first light irradiation unit and the second light irradiation unit face each other.

According to this embodiment, the fluid sterilization device includes a first fluid sterilization unit 101 and a second fluid sterilization unit 102, and disposes two sterilization modules including a light irradiation unit to increase the total amount of light irradiation. Sterilization efficiency can be increased. That is, since the first fluid sterilization unit 101 and the second fluid sterilization unit 102 are arranged facing each other, the amount of light increases by two times in the area where the first light irradiation unit and the second light irradiation unit face each other, so that the corresponding area The sterilization efficiency can be maximized. In addition, the turbulence of the fluid flow between modules becomes stronger compared to the case where the first light irradiation unit and the second light irradiation unit are located facing the same direction, thereby improving the sterilization effect.

Figure 9 is a diagram showing a fluid sterilization device located inside a fluid flow pipe according to another embodiment of the present invention. The fluid sterilization device of this embodiment may further include a fluid flow guide unit 140 that guides the fluid to proceed between the first light irradiation unit and the second light irradiation unit. Since the amount of light increases between the light irradiation parts of the first fluid sterilization unit 101 and the second fluid sterilization unit 102, the fluid flow guide unit 140 is positioned so that the fluid can flow intensively in the area where the light amount is increased. Maximizes sterilization effect.

Figure 10 is a view showing a fluid sterilization device located inside a fluid flow pipe according to another embodiment of the present invention. In the fluid sterilization device according to this embodiment, the photocatalyst portion 150 is formed on the surface of the fluid flow guide portion 140. In this embodiment, either the first light irradiation unit or the second light irradiation unit includes a UVA LED, and a photocatalyst photoactivated by UVA light is formed on the surface of the fluid flow guide unit 140.

Figure 11 is a diagram showing a fluid sterilization device located inside a fluid flow pipe according to another embodiment of the present invention. In the fluid sterilization device of this embodiment, one of the first light irradiation unit and the second light irradiation unit includes a UVA LED, and the fluid sterilization device according to the present invention includes a photocatalyst unit that sterilizes the fluid by receiving UV light from the UVA LED. 150); is further included. The photocatalyst unit 150 is located between the first fluid sterilization unit 101 and the second fluid sterilization unit 102, and is photoactivated in the area where the amount of light increases between the first and second light irradiation units to perform a sterilizing effect. It can be done.

Figure 12 is a diagram showing a fluid sterilization device located inside a fluid flow pipe according to another embodiment of the present invention. According to the present embodiment, a first fluid sterilization unit 101 including a first substrate located on the flow path of the fluid, a first light irradiation portion located on the first substrate, and a first penetration portion for passing the fluid; and a second fluid sterilization unit 102 including a second substrate located on the path of the fluid, a second light irradiation unit located on the second substrate, and a second penetration unit for passing the fluid. A first fluid sterilization module positioned to face the light irradiation unit and the second light irradiation unit; and a third fluid sterilization unit 103 including a third substrate located on the fluid flow path, a third light irradiation section located on the third substrate, and a third penetration section for passing the fluid; and a fourth fluid sterilization unit 104 including a fourth substrate located on the path of the fluid, a fourth light irradiation section located on the fourth substrate, and a fourth penetration section for passing the fluid. A fluid sterilization device including a second fluid sterilization module positioned to face the light irradiation unit and the fourth light irradiation unit is provided.

Depending on the size or fluid volume of the fluid flow pipe 200, the first fluid sterilization unit 101 and the second fluid sterilization unit 102 are configured to stack two or more fluid sterilization modules facing each other to increase sterilization performance. You can.

Although the embodiments of the present invention have been described above, those skilled in the art can add, change, delete or add components without departing from the spirit of the present invention as set forth in the patent claims. The present invention may be modified and changed in various ways, and this will also be included within the scope of rights of the present invention.

100 Fluid sterilization device
110 substrate
111 Hicksink
120 Light Irradiation Department
121 1st Light Investigation Department
122 2nd Light Investigation Department
130 penetration part
140 Fluid flow guide part
150 Photocatalyst section
101 1st fluid sterilization department
102 2nd fluid sterilization unit
103 3rd fluid sterilization department
104 4th Fluid Sterilization Department
200 fluid flow pipe

Claims (8)

A substrate located on the flow path of the fluid;
A light irradiation unit located on the substrate; and
A fluid sterilization device for sterilizing a flowing fluid using light irradiation, including a penetrating portion formed on a substrate for passing the fluid, comprising:
It further includes a fluid flow guide unit that guides the path of the fluid toward the light irradiation unit,
The light irradiation unit includes at least one of UVC LED and IR LED, and sterilizes by directly irradiating ultraviolet rays or sterilizing by directly irradiating infrared rays,
A fluid sterilization device characterized in that the fluid flow guide part is positioned so that the fluid flows to the light irradiation part so that the light is irradiated as close to the pathogens present in the fluid as possible to increase the sterilization effect. In claim 1,
The light irradiation unit further includes UVA LED,
It further includes a photocatalyst unit that sterilizes the fluid by receiving UV light from the UVA LED,
A fluid sterilization device characterized in that the photocatalyst part is formed on the surface of the fluid flow guide part. delete In claim 1,
The light irradiation unit further includes UVA LED,
A fluid sterilization device further comprising a photocatalyst unit that sterilizes the fluid by receiving UV light from a UVA LED. In claim 4,
A fluid sterilization device characterized in that the fluid flow guide guides the path of the fluid between the light irradiation section and the photocatalyst section. A first fluid sterilization unit including a first substrate located on the flow path of the fluid, a first light irradiation portion located on the first substrate, and a first penetration portion for passing the fluid; and
A second fluid sterilization unit including a second substrate located on the flow path of the fluid, a second light irradiation unit located on the second substrate, and a second penetration unit for passing the fluid;
A fluid sterilization device for sterilizing a flowing fluid using light irradiation, wherein the first light irradiation unit and the second light irradiation unit are positioned to face each other,
It further includes a fluid flow guide unit that guides the fluid to proceed between the first light irradiation unit and the second light irradiation unit,
The first light irradiation unit and the second light irradiation unit include at least one of a UVC LED and an IR LED, and sterilize by directly irradiating ultraviolet rays or sterilize by directly irradiating infrared rays,
The fluid flow guide part is positioned so that the light emitted from the first light irradiation unit and the second light irradiation unit can be irradiated as close to the pathogens present in the fluid as possible to increase the sterilization effect so that the fluid can flow to the first light irradiation unit and the second light irradiation unit. A fluid sterilization device characterized in that. In claim 6,
One of the first light irradiation unit and the second light irradiation unit further includes a UVA LED,
It further includes a photocatalyst unit that sterilizes the fluid by receiving UV light from the UVA LED,
A fluid sterilization device characterized in that the photocatalyst part is formed on the surface of the fluid flow guide part. A first fluid sterilization unit including a first substrate located on the flow path of the fluid, a first light irradiation portion located on the first substrate, and a first penetration portion for passing the fluid; and a second fluid sterilization unit including a second substrate located on the path of the fluid, a second light irradiation unit located on the second substrate, and a second penetration unit for passing the fluid; including, a first light irradiation unit and A first fluid sterilization module positioned to face the second light irradiation unit; and
a third fluid sterilization unit including a third substrate located on the fluid flow path, a third light irradiation unit located on the third substrate, and a third penetration unit for passing the fluid; and a fourth fluid sterilization unit including a fourth substrate located on the path of the fluid, a fourth light irradiation unit located on the fourth substrate, and a fourth penetration unit for passing the fluid; including, a third light irradiation unit and A fluid sterilization device including a second fluid sterilization module positioned to face the fourth light irradiation unit,
A first fluid flow guide unit that guides the fluid to proceed between the first light irradiation unit and the second light irradiation unit, and a second fluid flow guide unit that guides the fluid to proceed between the third light irradiation unit and the fourth light irradiation unit; Contains,
The first light irradiation unit, the second light irradiation unit, the third light irradiation unit, and the fourth light irradiation unit include at least one of a UVC LED and an IR LED, and sterilize by directly irradiating ultraviolet rays or sterilizing by directly irradiating infrared rays,
The first fluid flow guide unit allows the fluid to flow to the first light irradiation unit and the second light irradiation unit so that the light emitted from the first light irradiation unit and the second light irradiation unit is irradiated as close as possible to the pathogens present in the fluid to increase the sterilization effect. Located so that
The second fluid flow guide is located so that the light emitted from the third and fourth light irradiation units can flow to the third and fourth light irradiation units so that the light irradiated as close as possible to the pathogens present in the fluid can increase the sterilization effect. A fluid sterilization device characterized in that.