KR20210146758A - A Medical flexible pad structure with a light-diffusing structure and manufacturing method thereof - Google Patents

Abstract

The present invention relates to a medical flexible pad structure having a light diffusion structure, and a method for manufacturing the same. An FPCB on which a light emitting element is mounted is formed, and upper and lower cover members are finished in upper and lower parts of the FPCB in a silicone molding method so that the configuration of a flexible pad is possible. Thus, not only the medical flexible pad can easily cover a user, but also a diffusion part for diffusing light while maintaining uniformity thereof is provided at an upper part of the light emitting element, so that heat can be uniformly irradiated on the entire skin of the user.

Description

A medical flexible pad structure with a light-diffusing structure and a manufacturing method thereof

The present invention relates to a medical flexible pad structure having a light diffusion structure and a method for manufacturing the same, and more particularly, by configuring an FPCB on which a light emitting device is mounted, and finishing the upper and lower cover members in the upper and lower portions of the FPCB by a silicon molding method. , as a flexible pad configuration is possible, not only can the user be easily wrapped, but also, as a diffuser is provided on the upper portion of the light emitting device to maintain and diffuse the light uniformity, it is possible to uniformly irradiate light to the entire user's skin. It relates to a medical flexible pad structure having a light diffusion structure that can be used and a method for manufacturing the same.

In general, jaundice refers to a state in which the skin or mucous membrane takes on a yellowish light as the amount of bile pigment called bilirubin in the blood increases and is deposited in various tissues. is observed in about 60% of full-term infants and about 80% of premature infants.

This jaundice occurs because bilirubin, a yellow pigment produced by the destruction of red blood cells at the end of their lifespan, is temporarily increased. Bilirubin is processed in the liver and excreted in bile. Jaundice will occur due to insufficient treatment.

Usually, jaundice in newborns heals spontaneously, but severe jaundice is classified as pathological jaundice. Since sequelae such as paralysis and hearing loss remain, various treatment methods for the treatment of jaundice are required.

The treatment methods for jaundice include drug therapy, phototherapy, and exchange transfusion, and most jaundice treatments are mainly used to treat jaundice by irradiating light with a wavelength of 400-500 nm to the newborn's body. .

A phototherapy device for treating neonatal jaundice as described above is disclosed in Registered Patent No. 10-1735589 (hereinafter referred to as 'Patent Document 1').

The Patent Document 1 discloses a blanket-type phototherapy device for neonatal jaundice, comprising: a body part wrapped around a newborn's body in a blanket form; a light emitting part provided in the body part; a sensing unit for sensing the temperature of the light emitting unit; and a control unit connected to the light emitting unit and the sensing unit to control the operation of the light emitting unit, wherein the light emitting unit is composed of a mesh-type LED coupled to the fiber of the body unit, and the body unit is in contact with the skin of the newborn A plurality of holes are formed on the inner surface so that the LED element of the mesh type LED can be exposed, and the light emitting unit is formed between the plurality of holes so that the LED element is exposed in the direction of the newborn's skin. Located between the inner surface, the sensing unit, at least of an LED temperature sensor for sensing the temperature of the light emitting unit, a temperature sensor for sensing the body temperature of a newborn, a humidity sensor for sensing humidity, and a pulse sensor for sensing the pulse of the newborn It has one or more, and further comprises a display unit for displaying at least one of the body temperature, humidity, pulse, and the temperature of the light emitting unit detected by the sensing unit, the control unit, the temperature of the light emitting unit sensed by the sensing unit When the preset temperature value is exceeded, an alarm means for controlling the output of the light emitting unit to lower the temperature below the preset temperature value or notifying the user is provided.

Patent Document 1, having the configuration as described above, is configured to enable efficient jaundice treatment without the need to change the direction of the body by wrapping the entire body with a blanket that emits light, but simply through LED elements formed at regular intervals Since it is only irradiating light, it is not easy to uniformly irradiate light to the newborn's body, and as a hole is formed in the inner surface of the body that surrounds the newborn's body, the LED element is exposed to the outside so that the LED element can come out. Due to the exposed structure, there is a problem that there is a risk of causing rashes and burns in newborns due to the heat of the LED element.

Patent Document 1: Republic of Korea Patent Publication No. 10-1735589

The present invention has been devised to solve the above problems, and an object of the present invention is to construct an FPCB on which a light emitting device is mounted, and to finish the upper and lower cover members in a silicon molding method at the upper and lower parts of the FPCB, so that a flexible pad can be configured Therefore, as well as being able to easily wrap the user, a light diffusion structure is provided that can uniformly irradiate light to the entire skin of the user as a diffusion unit is provided on the upper portion of the light emitting device to maintain and diffuse the light uniformity. To provide a flexible medical pad structure and a manufacturing method thereof.

In addition, by forming a vacuum insulating layer on the inside of the upper cover member and installing a heat sink on the lower surface of the FPCB, heat transferred to the user during the light emitting process of the light emitting device is minimized, thereby preventing the user from oscillation and burns. An object of the present invention is to provide a medical flexible pad structure having a light diffusion structure and a method for manufacturing the same.

In addition, it is to provide a flexible medical pad structure having a light diffusion structure that is easy to clean by improving water resistance as it blocks penetration of moisture into the light emitting device by increasing the sealing property of the cover member by a silicone molding method, and a method for manufacturing the same.

In order to solve the above problems, a medical flexible pad structure having a light diffusion structure according to a preferred embodiment of the present invention includes: an FPCB having a light emitting device mounted on its upper surface to irradiate light for treatment to a user's body; and an upper cover member that is configured to wrap the user's body in the form of a blanket and is insert-molded to surround the upper portion of the FPCB, and a lower cover member that is molded to form a space in which the FPCB is mounted so as to surround the lower portion of the FPCB A cover member for accommodating the FPCB; but, the upper cover member has a diffusion part for maintaining and diffusing the uniformity of light on the upper portion of the light emitting device so that light can be uniformly irradiated to the entire skin of the user characterized by being

In addition, the upper cover member and the lower cover member is bent or folded in any direction according to the curvature of the user's skin, and is characterized in that it is composed of an elastomer so as to flexibly contact the user's skin.

In addition, the upper cover member is characterized in that it is composed of a transparent material so that the light irradiated from the light emitting device is transmitted to the outside.

In addition, a plurality of protrusions such as brushes or ribs for spaced apart from the user's skin are provided on the inner surface of the upper cover member in contact with the user's skin to minimize heat transferred to the user during the light emitting process of the light emitting device. A vacuum insulating layer is formed inside the upper cover member to minimize heat transferred to the user during the light emitting process of the light emitting device, and on the lower surface of the FPCB to minimize heat transferred to the user during the light emitting process of the light emitting device It is characterized in that a heat sink is installed.

On the other hand, the method for manufacturing a flexible medical pad structure having a light diffusion structure according to a preferred embodiment of the present invention includes the steps of mounting an FPCB on which a light emitting device is mounted in a mold to irradiate light for treatment with a user's body; insert-molding an upper cover member on an upper portion of the FPCB by first injecting a silicone resin into the mold; moving the slide core located under the FPCB in a downward direction; It is manufactured by a double silicone molding method including; insert molding a lower cover member under the FPCB by injecting a second silicone resin into the empty space in the mold, but in the insert molding step of the upper cover member, the user's skin It is characterized in that a diffusion part for maintaining and diffusing the light uniformity is formed on the upper portion of the light emitting device so that light can be uniformly irradiated to the entire surface.

As described above, according to the present invention, the FPCB on which the light emitting device is mounted is constituted and the upper and lower cover members are finished by a silicon molding method at the upper and lower parts of the FPCB, so that a flexible pad can be configured, so that the user can be easily wrapped. Of course, there is an advantage in that light can be uniformly irradiated to the entire skin of the user as a diffusion unit for maintaining and diffusing the light uniformity is provided on the upper portion of the light emitting device.

1 is a block diagram of a neonatal jaundice light therapy device provided with a light diffusion structure including a medical flexible pad structure according to a preferred embodiment of the present invention.
2 is an exploded perspective view showing the configuration of a medical flexible pad structure having a light diffusion structure according to a preferred embodiment of the present invention.
3 is a plan view showing the configuration of a medical flexible pad structure having a light diffusion structure according to a preferred embodiment of the present invention.
4 is a cross-sectional view showing the configuration of a medical flexible pad structure provided with a light diffusion structure according to a preferred embodiment of the present invention.
5 is an explanatory view showing diffusion of light by a diffusion part of a flexible medical pad structure having a light diffusion structure according to a preferred embodiment of the present invention.
6 is an explanatory view showing the protrusion structure of the upper cover member of the medical flexible pad structure provided with the light diffusion structure according to the preferred embodiment of the present invention.
7 is a state diagram of a medical flexible pad structure provided with a light diffusion structure according to a preferred embodiment of the present invention.
8 is a flowchart illustrating a method of manufacturing a medical flexible pad structure having a light diffusion structure according to a preferred embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings. Like reference numerals in each figure indicate like elements.

1 is a block diagram of a neonatal jaundice phototherapy device having a light diffusion structure including a medical flexible pad structure according to a preferred embodiment of the present invention, and FIG. 2 is a medical use having a light diffusion structure according to a preferred embodiment of the present invention. It is an exploded perspective view showing the configuration of the flexible pad structure, and FIG. 3 is a plan view showing the configuration of the medical flexible pad structure having a light diffusion structure according to a preferred embodiment of the present invention.

4 is a cross-sectional view showing the configuration of a medical flexible pad structure provided with a light diffusion structure according to a preferred embodiment of the present invention, and FIG. 5 is a medical flexible pad structure provided with a light diffusion structure according to a preferred embodiment of the present invention. It is an explanatory diagram showing the diffusion of light by the diffuser.

6 is an explanatory view showing the projection structure of the upper cover member of the flexible medical pad structure provided with the light diffusion structure according to the preferred embodiment of the present invention, Figure 7 is provided with the light diffusion structure according to the preferred embodiment of the present invention A state diagram of the medical flexible pad structure used.

First, the neonatal jaundice phototherapy device or infrared thermal therapy device using IR LED includes a control unit 10, a cable 20, and a pad, wherein the control unit 10 basically controls the intensity and on/off of the light irradiated to the user, It adjusts the irradiation time and the like, and functions such as alarm or reservation setting and temperature control of the light source may be provided, and a built-in battery enables treatment without a separate power source. On the other hand, the cable 20 performs a function of transferring the power generated by the control unit 10 to the pad so that the light emitting device 110 can emit light, and the control unit 10 and the cable 20 are the present invention. Since it is a well-known technique in the art, a detailed description thereof will be omitted, and the pad structure will be described below.

1 to 6 , the medical flexible pad structure having a light diffusion structure according to a preferred embodiment of the present invention includes an FPCB 100 and a cover member 200 .

The FPCB 100 is connected to the cable 20 that transmits power generated by the control unit 10 to enable the light emitting device 110 to emit light, so that the user's body is irradiated with light for the treatment of jaundice. The light emitting device 110 is configured to be mounted on the upper surface, and the light emitting device 110 is preferably configured in the form of an LED strip in which a plurality of LEDs are arranged.

The FPCB 100 refers to a 'Flexible Printed Circuit Board', that is, a flexible printed circuit board, and provides excellent flexibility. It is possible to be flexibly folded or bent together with the cover member 200 .

On the other hand, as shown in FIG. 4, a heat sink 120 emitting heat to the outside is installed on the lower surface of the FPCB 100, and the heat sink 120 is provided, so that the light emitting device 110 emits light. It is possible to minimize the heat transferred to the user from

As shown in FIG. 7 , the cover member 200 is configured to cover the user's body in the form of a blanket, and in the present invention, the cover member 200 surrounds the upper portion of the FPCB 100 and inserts It consists of an upper cover member 210 to be molded, and a lower cover member 220 molded to form a space in which the FPCB 100 is mounted so as to surround the lower portion of the FPCB 100 and accommodate the FPCB 100 . It is characterized by being

In addition, in the present invention, the upper cover member 210 is characterized in that a diffusion portion 213 for maintaining and diffusing the light uniformity is provided, and the diffusion portion 213 is the light emitting device 110 . By spreading the light of the light emitting device 110 by being located on the upper part of the, it becomes possible to uniformly irradiate the light to the entire skin of the user.

As shown in FIG. 5 , the diffusion unit 213 may be simply formed in the form of a concave lens, preferably in the form of a Fresnel lens having a small thickness and a large light diffusion property. It is better to do it with

On the other hand, as the cover member 200 is configured to accommodate the FPCB 100 in a double silicon molding method through the upper cover member 210 and the lower cover member 220 , the airtightness is improved, and moisture is absorbed by the light emitting device 110 . By blocking the penetration, the water resistance is improved. Due to this, it is possible to easily wash the cover member 200 after use.

In addition, the upper cover member 210 and the lower cover member 220 are bent or folded in any direction according to the curvature of the user's skin in the process of wrapping the user's body in the form of a blanket, and are made of an elastomer so as to flexibly contact the user's skin. It is preferred to be constructed.

On the other hand, the upper cover member 210 is made of a transparent material so that the light irradiated from the light emitting device 110 can be transmitted to the outside and irradiated to the user's body. ) is irradiated with light without being exposed to the outside, so that oscillation and burns of the user can be prevented by the heat of the light emitting device 110 .

In addition, as shown in FIG. 4 , a vacuum insulation layer 212 is formed on the inside of the upper cover member 210 , and the vacuum insulation layer 212 is provided, so that in the light emitting process of the light emitting device 110 , a user It is possible to minimize the heat transferred to the

In addition, it is preferable that the lower cover member 210 is formed by cutting a portion of the lower cover member 210 positioned directly below the heat sink 120 so that the heat of the heat sink 120 can be discharged to the outside.

On the other hand, the upper cover member 210 is shown in FIG. 6 on the inner surface of the upper cover member 210 to minimize the amount of heat transfer due to heat conduction of the light emitting device 110 when in contact with the user's skin, that is, the portion in contact with the user's skin. As such, it is preferable that a plurality of protrusions 211 such as brushes or ribs for separation from the user's skin are provided.

Hereinafter, a method of manufacturing a medical flexible pad structure having a light diffusion structure according to a preferred embodiment of the present invention will be described with reference to FIG. 8 .

First, the FPCB 100 on which the light emitting device 110 is mounted is mounted in a mold to irradiate light for jaundice treatment to the user's body (S100), and then a silicone resin is first injected into the mold to irradiate the FPCB 100 ), the upper cover member 210 is insert-molded (S200) on the upper part, and in the present invention, in the insert molding step (S200) of the upper cover member 200, the uniformity of light on the upper cover member 210 It is characterized in that the diffusion part 213 for maintaining and diffusion is formed together, and the diffusion part 213 is configured to be located on the upper part of the light emitting device 110 and the light emitting device 110 through the diffusion part 213 By diffusing the light, it becomes possible to uniformly irradiate the entire skin of the user.

On the other hand, in the insert molding step (S200) of the upper cover member 210, it is configured to form a vacuum insulating layer 212 on the inside of the upper cover member 210. Due to this, in the light emitting process of the light emitting device 110, It becomes possible to minimize the heat transferred to the user.

Next, after moving the slide core located at the lower part of the FPCB 100 in the downward direction (S300), a second silicone resin is injected into the empty space in the mold to lower the lower cover member 220 of the FPCB 100. insert molding (S400), in the insert molding step (S400) of the lower cover member 220, the lower surface of the FPCB (100) in order to minimize the heat transferred to the user during the light emitting process of the light emitting device (110) It is preferable to mold the heat sink 120 located in the molded together.

As described above, the present invention configures the FPCB 100 on which the light emitting device 110 is mounted, and finishes the upper and lower cover members 210 and 220 in the upper and lower portions of the FPCB 100 by a silicon molding method, thereby forming a flexible pad. Since this is possible, not only can the user be easily wrapped, but also the light emitting device 110 is provided with a diffusion unit 213 for maintaining and diffusing the uniformity of light on the upper portion of the light emitting device 110, so that light is evenly spread over the entire skin of the user. It is possible to investigate

Best embodiments have been disclosed in the drawings and specification. Although specific terms are used herein, they are used only for the purpose of describing the present invention, and are not used to limit the meaning or scope of the present invention described in the claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

10: control unit 20: cable
100: FPCB 110: light emitting device
120: heat sink 200: cover member
210: upper cover member 211: projection
212: vacuum insulation layer 213: diffusion
220: lower cover member

Claims (5)

FPCB having a light emitting device mounted on its upper surface to irradiate light for treatment with the user's body; and
Doedoe configured to cover the user's body in the form of a blanket, an upper cover member insert-molded to surround the upper part of the FPCB, and a lower cover member molded to form a space in which the FPCB is mounted so as to surround the lower part of the FPCB. Including a cover member for accommodating the FPCB;
Medical use with a light diffusion structure, characterized in that the upper cover member is provided with a diffusion portion for maintaining and diffusing the uniformity of light on the upper portion of the light emitting device so that light can be uniformly irradiated to the entire skin of the user Flexible pad structure.
The method according to claim 1,
The upper cover member and the lower cover member are bent or folded in any direction according to the curvature of the user's skin and are made of an elastomer so as to flexibly contact the user's skin.
3. The method according to claim 2,
The upper cover member is a medical flexible pad structure with a light diffusion structure, characterized in that it is made of a transparent material so that the light irradiated from the light emitting device is transmitted to the outside.
4. The method according to claim 3,
A plurality of protrusions such as brushes or ribs for spaced apart from the user's skin are provided on the inner surface of the upper cover member in contact with the user's skin to minimize heat transferred to the user during the light emitting process of the light emitting device,
A vacuum insulation layer is formed inside the upper cover member to minimize the heat transferred to the user during the light emitting process of the light emitting device,
A medical flexible pad structure with a light diffusion structure, characterized in that a heat sink is installed on the lower surface of the FPCB to minimize heat transferred to the user during the light emitting process of the light emitting device.
Placing the FPCB on which the light emitting device is mounted in a mold to irradiate light for treatment with the user's body;
insert molding an upper cover member on an upper portion of the FPCB by first injecting a silicone resin into the mold;
moving the slide core located under the FPCB in a downward direction;
It is manufactured by a double silicone molding method including; insert molding a lower cover member under the FPCB by injecting a second silicone resin into the empty space in the mold, but in the insert molding step of the upper cover member, the user's skin A method of manufacturing a flexible medical pad structure provided with a light diffusion structure, characterized in that a diffusion portion for diffusing while maintaining the uniformity of light is formed on the upper portion of the light emitting device so that light can be uniformly irradiated to the entire surface.

Images