KR102403126B1 - Film type uv sterilizter - Google Patents

Abstract

The present invention provides a plurality of UV LED devices that emit UV light for sterilization according to the application of power; A film-type substrate on which the UV LED device is disposed, a flexible substrate having a wiring for applying power to the UV LED device; And it is disposed in a form to cover the flexible substrate and the UV LED device, it provides a UV sterilization module in the form of a film comprising a transmission layer that provides a diffusion path of the UV light.

Description

Film-type UV sterilization module {FILM TYPE UV STERILIZTER}

The present invention relates to a UV sterilization module, and to a sterilization module in which a UV LED is attached to a flexible film-type substrate.

A mobile phone is a mobile communication phone that transmits voice, text message, or video through radio waves, and has become a necessity of modern people as it enables voice calls as well as various information processing, and the number of users is increasing. The mobile phone includes a microphone unit that transmits the user's voice into the device. The microphone unit may be contaminated by saliva generated when the user speaks. Even after contamination by saliva, etc., the heat generated in the process of operating the mobile phone creates a good environment for bacteria to grow.

In addition, a touch screen operated by a touch action using a hand is applied to a recently used smart phone type mobile phone. Accordingly, there are many cases where it is used in contact with the skin when talking on the phone or when not talking on the phone. Therefore, if the screen area of the mobile phone is unsanitary, the user is at risk of being infected with harmful bacteria.

Since mobile phones have become a necessity of modern people, there is a very high probability that they will be contaminated with bacteria. have.

Therefore, there is a need for a device capable of sterilizing mobile phones frequently and effectively.

Republic of Korea Patent Publication No. 10-2015-0028165 Publication date March 13, 2015

An object of the present invention is to provide a film-type UV sterilization module capable of effectively sterilizing a large area while thin by attaching a UV LED to a flexible film-type substrate.

In order to achieve the above object, a film-type UV sterilization module according to an embodiment of the present invention includes a plurality of UV LED elements emitting UV light for sterilization according to the application of power; A film-type substrate on which the UV LED device is disposed, a flexible substrate having a wiring for applying power to the UV LED device; and a transmission layer disposed to cover the flexible substrate and the UV LED device, and providing a diffusion path of the UV light.

At this time, it is disposed between the flexible substrate and the transmissive layer to prevent the UV LED device from being separated from the flexible substrate due to stress caused by the difference between the elongation of the flexible substrate and the elongation of the transmissive layer when the module is bent. It further comprises a buffer layer, the buffer layer, it is preferable to have a thickness corresponding to the height of the UV LED device.

In this case, it may further include a reflective layer disposed on at least one of the surface of the flexible substrate or the surface of the transmission layer to induce diffusion of the UV light.

In this case, the reflective layer is provided on the surface of the transmissive layer and is provided as a thin film having a semi-transmissive property to transmit a portion of the UV light and reflect a portion to induce close diffusion of the UV light.

On the other hand, a refractive pattern formed on the surface of the transmission layer as a material having a refractive index different from that of the material constituting the transmission layer and formed in a pattern to disperse the path of UV light passing through the transmission layer to induce close diffusion of the UV light. may include more.

In addition, the UV LED device is disposed on the rear surface of the flexible substrate at the position, the bending prevention plate formed of a material exceeding the ductility of the flexible substrate and the transmission layer to suppress the bending deformation of the module further comprising can do.

In addition, the buffer layer may be disposed to be spaced apart from the UV LED device by a predetermined distance.

In addition, the transmissive layer may include a pocket in the form of a depression in a portion facing the UV LED element to avoid contact with the UV LED element.

According to the film-type UV sterilization module according to the present invention, since UV LEDs are attached to a flexible film-type substrate, it is possible to effectively sterilize a large area.

1 is a cross-sectional view of a UV sterilization module in the form of a film according to an embodiment of the present invention.
2 is an embodiment in which a pocket for inducing diffusion is formed in the transmission layer.
3 is a cross-sectional view illustrating a UV sterilization module provided with a buffer layer.
4 is a cross-sectional view illustrating a UV sterilization module provided with a reflective layer.
5 is a cross-sectional view illustrating a UV sterilization module provided with a refraction pattern.
6 is a cross-sectional view of a form in which the bending prevention plate is implemented in the present invention.
7 is a cell phone sterilization case to which the UV sterilization module of the present invention is applied.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In this case, it should be noted that in the accompanying drawings, the same components are denoted by the same reference numerals as much as possible. In addition, detailed descriptions of well-known functions and configurations that may obscure the gist of the present invention will be omitted. For the same reason, some components are exaggerated, omitted, or schematically illustrated in the accompanying drawings.

1 is a cross-sectional view of a UV sterilization module in the form of a film according to an embodiment of the present invention. Referring to FIG. 1 , the UV sterilization module 1000 according to the present invention includes a UV LED device 100 , a flexible substrate 200 , and a transmission layer 300 .

The UV LED device 100 emits UV light for sterilization according to the application of power. The UV LED device 100 uses an LED chip that emits ultraviolet rays in the UV-A, UV-B, and UV-C regions. Depending on the characteristics of the LED chip used, one LED chip may emit UV light with a wavelength of 200 nm to 420 nm corresponding to the UV-A, UV-B, and UV-C regions, and the UV sterilization module 1000 of the present invention An LED chip that emits UV light in any one area among UV-A, UV-B, and UV-C may be used depending on the purpose of use (ie, sterilization target). The present invention may be implemented by employing an appropriate UV LED chip according to the practitioner.

Since the UV LED device 100 corresponds to a point light source, it is preferable to use a plurality of UV LEDs to irradiate uniform UV light to a large area.

The flexible substrate 200 is a film-shaped substrate on which the UV LED device 100 is disposed, and includes a wiring for applying power to the UV LED device 100 . The flexible substrate 200 is preferably implemented as a flexible circuit board (FPCB). However, in the present invention, the flexible substrate 200 is not limited to a flexible circuit board (FPCB), and may be substituted with another type of film having similar characteristics depending on the practitioner.

The transmission layer 300 is disposed to cover the flexible substrate 200 and the UV LED device 100 to provide a diffusion path of UV light. Since the UV LED device 100 corresponds to a point light source, a plurality of UV LED devices 100 must be adjacent to each other in order to emit UV light of a certain intensity level on the entire surface. This causes an increase in manufacturing cost and excessive power consumption.

The transmission layer 300 provides a path through which UV light emitted from the UV LED device 100 is diffused through its thickness. The transmission layer 300 should be formed of a material that passes through the UV-A, UV-B, and UV-C wavelengths without absorbing them. The transmission layer 300 may be provided in such a way that a separately manufactured fluororesin-based Teflon film is attached to the flexible acid substrate 200 .

As another form, the transmission layer 300 may be implemented using a synthetic resin-based material that is applied to the flexible acid substrate 200 in the form of a viscous paste and then cured.

2 is an embodiment in which a pocket for inducing diffusion is formed in the transmission layer. As shown in FIG. 2 , the UV sterilization module 1000a may include a pocket 310 in the transmission layer 300 .

The transmission layer 300 may include a pocket 310 in a recessed form in a portion facing the UV LED device 100 to avoid contact with the UV LED device 100 . The shape of the pocket 310 may be implemented in various forms, such as (A) type having a rectangular cross section, (B) type having a dome shape, (C) type having a concave inverted dome shape. UV light emitted from the UV LED device 100 is refracted by the difference between the refractive index of the pocket 310 - that is, air- and the refractive index of the transmission layer 300, so the diffusion of UV light in various forms according to the shape of the pocket 310 This can be done. In other words, the effect of having a diffusion lens with the pocket 310 can be obtained. The illustrated shape of the pocket 310 is only one example for helping understanding, and it is possible to variously modify the shape of the pocket 310 according to the purpose of use.

According to the embodiment of FIG. 2 , as an additional effect, when the sterilization module 1000a is bent according to use in a bent environment, the stress caused by the difference between the elongation of the flexible substrate 200 and the elongation of the transmission layer 300 is the UV LED device. Since it is prevented from being transmitted to ( 100 ), it is possible to prevent the UV LED device ( 100 ) from being separated from the flexible substrate ( 200 ).

Depending on the material forming the transmissive layer 300 , the transmissive layer 300 may be peeled off from the flexible substrate 200 due to a difference between the elongation of the flexible substrate 200 and the elongation of the transmissive layer 300 when bending occurs. In order to prevent this problem, according to another embodiment of the present invention, the UV sterilization module 1000b may further include a buffer layer 400 .

3 is a cross-sectional view illustrating a UV sterilization module provided with a buffer layer.

Referring to FIG. 3 , the buffer layer 400 is disposed between the flexible substrate 200 and the transmission layer 300 , and when the UV sterilization module 1000b is bent, the elongation of the flexible substrate 200 and the transmission layer 300 . ) Prevents the UV LED device 100 or the transmission layer 300 itself from being separated from the flexible substrate 200 due to the stress according to the difference in elongation.

The buffer layer 400 preferably has a thickness corresponding to the height of the UV LED device 100 . The buffer layer 400 may be implemented in the form of a double-sided adhesive tape, or may be implemented in a synthetic resin coating method.

In addition, the buffer layer 400 is preferably disposed in a form spaced apart a predetermined distance from the UV LED device (100). Meanwhile, due to the buffer layer 400 , UV light may be diffusely reflected from the buffer layer 400 . Since the diffusely reflected UV light is absorbed by the flexible substrate 200 and reflects back the UV light to be extinguished, it is possible to emit more UV light to the surface of the UV sterilization module 1000b.

On the other hand, in order to reduce the number of arrangement of the UV LED device 100, a reflective layer 500 for diffusing UV light over a wide surface may be further included. 4 is a cross-sectional view illustrating a UV sterilization module provided with a reflective layer.

The reflective layer 500 is disposed on at least one of the surface of the flexible substrate 200 and the surface of the transmission layer 300 to induce diffusion of UV light.

In the embodiment in which the reflective layer 500 is disposed on the surface of the transmissive layer 300 , the reflective layer 500 is preferably made of a metal thin film having a transflective property. The reflective layer 500 is preferably implemented in the form of a specific pattern rather than in the form of one continuous film.

As shown, the reflective layer 500 transmits a portion of UV light and reflects a portion. Since the reflected UV light is reflected back on the surface of the buffer layer 400 or the flexible substrate 200, proximity diffusion is induced, enabling the divergence of UV light over a large area even with a small number of UV LED devices 100. .

If necessary, a reflective coating (not shown) having a high reflectance for an ultraviolet wavelength band may be applied to the surface of the buffer layer 400 or the flexible substrate 200 . In FIG. 4 , the reflective layer 500 is further illustrated as being implemented in the embodiment in which the buffer layer 400 is provided, but the reflective layer 500 may also be applied to the embodiment of FIG. 1 or FIG. 2 .

The reflective layer 500 is formed by attaching a metal such as aluminum in the form of a thin film, and it is preferable to provide a coating layer 800 on the upper surface to protect the reflective layer 500 .

On the other hand, as another embodiment for reducing the number of arrangement of the UV LED device 100, it may be provided with a refraction pattern (600). 5 is a cross-sectional view illustrating a UV sterilization module provided with a refraction pattern.

The UV sterilization module 1000d is a material having a refractive index different from that of the material constituting the transmission layer 300 on the surface of the transmission layer 300 and is formed in a pattern shape to disperse the path of UV light passing through the transmission layer 300 . It may include a refraction pattern 600 for inducing proximity diffusion of UV light. The refraction pattern 600 has a purpose similar to that of the reflective layer 500 . A coating layer 800 may be provided on the upper surface to protect the refraction pattern 600 .

The refraction pattern 600 may also be applied to the embodiments of FIGS. 1 and 2 . It may be additionally applied to FIG. 4 depending on the implementer.

6 is a cross-sectional view of a form in which the bending prevention plate is implemented in the present invention. The UV sterilization module 1000e is disposed on the back side of the flexible substrate 200 at the position where the UV LED element 100 is disposed, and the flexible substrate 200 and the transmission layer 300 to suppress bending deformation of the module. It includes a bending prevention plate 700 formed of a material exceeding ductility. The embodiment of FIG. 6 may be applied to all of the above-described forms of FIGS. 1 to 5 . Because the bending prevention plate 700 prevents the UV LED device 100 from being bent at the disposed portion, damage to the UV LED device 100 or the UV LED device 100 is prevented from being peeled from the flexible substrate 200 . can do.

7 is a cell phone sterilization case to which the UV sterilization module of the present invention is applied.

By applying the UV sterilization module (1000, 1000a ~ 1000e) according to the present invention, it is possible to manufacture a case capable of sterilizing the screen of a smartphone.

UV sterilization module (1000, 1000a ~ 1000e) can be applied to the smartphone case form due to the thin thickness and flexibility. Power may be supplied through a separate battery or may be driven by receiving power wirelessly from a smartphone (not shown) through a wireless power receiving antenna as shown.

Figure 7 is only one of the application targets of the UV sterilization module (1000, 1000a ~ 1000e) of the present invention, the application target is not limited to the form shown, the characteristics of the UV sterilization module (1000, 1000a ~ 1000e) can be utilized Any target can be applied.

The embodiments of the present invention disclosed in the present specification and drawings are merely provided for specific examples to easily explain the technical content of the present invention and help the understanding of the present invention, and are not intended to limit the scope of the present invention. It will be apparent to those of ordinary skill in the art to which the present invention pertains that other modifications based on the technical spirit of the present invention can be implemented in addition to the embodiments disclosed herein.

1000, 1000a, 1000b, 1000c, 1000d: UV sterilization module
100: UV LED element
200: flexible substrate
300: transmission layer
400: buffer layer
500: reflective layer
600: refraction pattern
700: anti-warpage plate
800: coating layer

Claims (8)

A plurality of UV LED elements that emit UV light that sterilizes according to the application of power;
A film-shaped substrate on which the UV LED element is disposed, a flexible substrate having a wiring for applying power to the UV LED element; and
and a transmission layer that is disposed to cover the flexible substrate and the UV LED device, and provides a diffusion path of the UV light,
The transmission layer is
and a pocket in the form of a depression in a portion facing the UV LED element to avoid contact with the UV LED element,
disposed between the flexible substrate and the transmission layer,
Further comprising a buffer layer that prevents the UV LED device from being separated from the flexible substrate due to stress according to the difference between the elongation of the flexible substrate and the elongation of the transmissive layer when the module is bent,
The buffer layer is
has a thickness corresponding to the height of the UV LED device,
Further comprising a reflective layer disposed on the surface of the transmission layer to induce diffusion of the UV light,
The reflective layer is
It is provided on the surface of the transmission layer and is provided as a metal thin film having a semi-transmissive property, so that a portion of the UV light is transmitted and a portion is reflected to induce close diffusion of the UV light,
The reflective layer is
It is not carried out in the form of one continuous film, but in the form of a specific pattern,
The buffer layer is
A film-type UV sterilization module, characterized in that it is spaced apart from the UV LED device by a certain distance. delete delete delete The method according to claim 1,
A material having a refractive index different from that of the material constituting the transmission layer on the surface of the transmission layer, which is formed in the form of a pattern to disperse the path of UV light passing through the transmission layer, further comprising a refractive pattern to induce close diffusion of the UV light UV sterilization module in the form of a film, characterized in that. The method according to claim 1,
Doedoe disposed on the rear surface of the flexible substrate at the position where the UV LED element is disposed, further comprising an anti-warpage plate formed of a material exceeding the ductility of the flexible substrate and the transmission layer to suppress bending deformation of the module A UV sterilization module in the form of a film. delete delete

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