Long-term effective patch structure

Abstract

A long-term effective patch structure includes a binding layer, an absorbing layer and a water-proof layer sequentially stacked together. The binding layer has a function of attaching and fixing, and is configured to be attached and fixed on a skin. Sweat or liquid from the skin can pass through the binding layer to reach the absorbing layer, which is aligned with binding layer at the edge. The water-proof layer is water-proof and has vapor permeability, and its area is larger than the area of the absorbing layer. The outer part of the water-proof layer is attachable to the skin. Since the absorbing layer can absorb the liquid from the skin and the water-proof layer can ventilate the vapor to the outside, the skin is kept dry and comfortable and suitable to be attached to human skin for a long period of time without inducing skin allergy or discomfort.

Claims

1. A long-term effective patch structure, comprising: a binding layer having a function of attaching and fixing, and being configured to be attached and fixed on a human skin; an absorbing layer for absorbing liquid from the skin or the binding layer, the binding layer and the absorbing layer being configured not to mutually stack or interfere with each other; a water-proof layer configured to be on the binding layer and the absorbing layer and having an area larger than a total area of the binding layer and the absorbing layer, wherein the absorbing layer is covered by the water-proof layer, an outer part of the water-proof layer not covering the absorbing layer is used to attach to the skin, the water-proof layer provides a water-proof function to insulate and block external liquid from entering the absorbing layer, and has high moisture vapor transmission rate (MVTR), and the water-proof layer has a thickness smaller than a thickness of the binding layer and a thickness of the absorbing layer; and further comprising at least one of a conductive electrode layer and a release layer, wherein the conductive electrode layer provides a function to measure electrocardiogram signal from the skin, and is configured between the binding layer and the absorbing layer such that the conductive electrode layer directly or indirectly contacts the human skin to measure the electrocardiogram signal, and the release layer is provided on the water-proof layer, and has an area larger than the area of the water-proof layer.

2. The long-term effective patch structure as claimed in claim 1, wherein the binding layer is implemented by acrylic, polyurethane (PU), silicone, hydrogel or artificial skin, and has a structure of through holes, network or gaps for sweat or tissue liquid from the skin to pass through the binding layer and not to remain between the human skin and the binding layer, the sweat or tissue liquid gradually evaporates through the water-proof layer over time, the absorbing layer is implemented by acrylic, polyurethane, silicone, hydrogel, artificial skin, non-woven cloth, resin, cotton, polymer or plastic material, and the water-proof layer is stacked on the absorbing layer, and has a size extending from an outermost edge of the absorbing layer by 23 mm.

3. The long-term effective patch structure as claimed in claim 1, further comprising a reinforcing layer provided on the absorbing layer for reinforcing strength, wherein the reinforcing layer has hardness larger than hardness of the water-proof layer, the binding layer and the absorbing layer, and the reinforcing layer has an area smaller than the area of the water-proof layer.

4. The long-term effective patch structure as claimed in claim 1, wherein the absorbing layer further comprises a rigid base for supporting a long term medical device or wearable device, and the rigid base has an area smaller than the area of the water-proof layer.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The present invention will be apparent to those skilled in the art by reading the following detailed description of a preferred embodiment thereof, with reference to the attached drawings, in which:

(2) FIG. 1 is a perspective view showing the long-term effective patch structure according to one embodiment of the present invention;

(3) FIG. 2 is a bottom view showing the long-term effective patch structure in FIG. 1;

(4) FIG. 3 is a perspective view showing the long-term effective patch structure according to another embodiment of the present invention; and

(5) FIG. 4 is a bottom view showing the long-term effective patch structure in FIG. 3.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

(6) The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. The drawings illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

(7) Please refer to FIGS. 1 and 2 illustrating the perspective and bottom views of the long-term effective patch structure according to the embodiment of the present invention, respectively. As shown in FIGS. 1 and 2, the long-term effective patch structure 1 according to one embodiment of the present invention generally comprises a binding layer 10, an absorbing layer 20 and a water-proof layer 30 for directly attaching to the human skin SK so as to absorb liquid W from the skin SK such as sweat or tissue liquid entering in a direction D, such that the liquid W absorbed gradually and readily evaporates and the skin SK is kept dry and comfortable. Thus, the long-term effective patch structure 1 of the present embodiment can attach to the skin SK for at least 7 to 14 days without causing any irritating/uncomfortable feeling or allergy.

(8) Specifically, the binding layer 10 has a function of attaching and fixing and is configured to be directly attached and fixed on the skin SK. The absorbing layer 20 is stacked on the binding layer 10 to absorb any liquid W from the binding layer 10 and the skin SK, and particularly, the absorbing layer 20 is aligned with binding layer 10 at the edge. In other words, the binding layer 10 and the absorbing layer 20 have the same shape and area in the horizontal surface.

(9) The binding layer 10 absorbs the liquid W from the skin SK to cause the liquid W to easily penetrate and reach the absorbing layer 20. The water-proof layer 30 is stacked on the absorbing layer 20, and has an area larger than an area of the absorbing layer 20 such that the absorbing layer 20 is covered by the water-proof layer 30, and the portion of water-proof layer 30 not covering the absorbing layer 20 is used to attach the skin SK. Particularly, the water-proof layer 30 has a size extending from an outermost edge of the absorbing layer 20 by at least 2 mm.

(10) It is preferred that the absorbing layer 20 is implemented by acrylic, polyurethane (PU), silicone, hydrogel, artificial skin, non-woven cloth, resin, cotton, polymer or plastic material.

(11) Additionally, the water-proof layer 30 is formed of a water-proof coating or a water-proof film, and further provides the water-proof effect to insulate and block any external liquid from entering the absorbing layer 20, and has high moisture vapor transmission rate (MVTR) so as to cause the liquid W absorbed to evaporate and transfer to the outside, thereby keeping the skin SK in a dry and comfortable status.

(12) More specifically, the binding layer 10 is implemented by acrylic, PU, silicone, hydrogel or artificial skin, and has a structure of through holes, network or gaps for sweat or tissue liquid from the skin to pass through the binding layer 10 and reach the absorbing layer 20, which absorbs the liquid.

(13) The long-term effective patch structure 1 of the present embodiment further comprises another water-proof layer 14, which is sandwiched between the binding layer 10 and the absorbing layer 20, and implemented by a water-proof coating or a water-proof film with a structure of through holes, network or gaps. The above another water-proof layer 14 prevents the absorbing layer 20 from absorbing the liquid W absorbed by the binding layer 10 during the long-term effective patch structure 1 is manufactured.

(14) In addition, the present invention may further comprise a conductive electrode layer 24 and/or a releasing layer 40. The conductive electrode layer 24 is formed of metal or any conductive material, and is configured between the binding layer 10 and the absorbing layer 20, and/or the absorbing layer 20 and the water-proof layer 30 for providing a function to measure physiological signal of the human body, such as ECG, EMG and EEG. The release layer 40 is provided on the water-proof layer 30, and has an area larger than the area of the water-proof layer 30 so as to protect the binding layer 10 and the water-proof layer 30. The user needs to remove the release layer 40 only when the long-term effective patch structure 1 is used for attaching.

(15) Further refer to FIGS. 3 and 4 illustrating the perspective and bottom views of the long-term effective patch structure according to another embodiment of the present invention, respectively.

(16) As shown in FIGS. 3 and 4, the long-term effective patch structure 2 comprises the binding layer 12, the absorbing layer 22 and the water-proof layer 32. It should be noted that the present embodiment is similar to the embodiment shown in FIGS. 1 and 2. The primary difference is that the binding layer 12 and the absorbing layer 22 in FIGS. 3 and 4 are not stacked together, but respectively attached to the same surface of the water-proof layer 32, like the lower surface of the water-proof layer 32. Thus, the binding layer 12 has the attaching and fixing feature, and is attachable to the skin SK. The absorbing layer 22 can be also attached to the skin SK to absorb the liquid W. Particularly, the binding layer 12 and the absorbing layer 22 are configured not to mutually stack together or interfere with each other. Since other elements in FIGS. 3 and 4 are similar to those FIGS. 1 and 2, the detailed description is omitted hereinafter.

(17) Moreover, the present embodiment further comprises a reinforcing layer 50, which is provided on the lower surface of the water-proof layer 32 and between the binding layer 12 and the absorbing layer 22. In other words, the binding layer 12 and the absorbing layer 22 is attached to the lower surface of the reinforcing layer 50, and the upper surface of the reinforcing layer 50 is attached to the lower surface of the water-proof layer 32. More specifically, the reinforcing layer 50 has hardness larger than hardness of the water-proof layer 32, the binding layer 12 and the absorbing layer 22 to as to enhance strength of the whole structure. Preferably, the reinforcing layer 50 has an area smaller than the area of the water-proof layer 32.

(18) The long-term effective patch structure 2 of the present embodiment may also comprise at least one of a conductive electrode layer and a release layer 40. The conductive electrode layer 24 is used to measure physiological signal from the skin, and specifically configured between the binding layer 12 and the absorbing layer 22 such that the conductive electrode layer 24 directly or indirectly contacts the human skin SK to measure the physiological signal. The release layer 40 is provided on the water-proof layer 32, and has an area larger than the area of the water-proof layer 32. Additionally, a number of conductive electrode layers and the binding layer 12 are assembled and provided beneath the water-proof layer 32 so as to easily measure physiological signal such as ECG.

(19) Also, the absorbing layer 22 further comprises a rigid base 60 for supporting a long term medical device or wearable device 62. In particular, the rigid base 60 has an area smaller than the area of the water-proof layer 32.

(20) Overall, the long-term effective patch structure of the present invention can also provide the specific medical function of the long term medical device or wearable device 62 like blood glucose meter, electrocardiogram machine, heartbeat detector, respiration detector, sphygmomanometer or medicine releasing device, if the present invention is combined with the long term medical device or wearable device 62, and configured on the human body. As a result, the user simply configures the long term medical device or wearable device 62 to the long-term effective patch structure to demonstrate the original preset functions for the long term medical device or wearable device 62.

(21) From the above mention, one of the primary aspects of the present invention is that the long-term effective patch structure formed as a three layers structure comprising the binding layer, the absorbing layer and the water-proof layer sequentially stacked together can be continuously attached to the skin for at least 7 to 14 days, and provides the advantage of water-proof without causing allergy or inflammation. Particularly, the present invent fast absorbs sweat or tissue liquid to keep the skin dry and comfortable. High vapor permeability is also provided to readily evaporate and transfer the liquid absorbed by the absorbing layer through the water-proof layer to the outside. Thus, the present invention is suitable to cover the region of the skin with a wound so as to provide excellent care and insulation and prevents the wound from badly humid environment, thereby greatly speeding up recovery.

(22) Another aspect of the present invention is that the area of the water-proof layer is larger than the absorbing layer and the binding layer, and its outer portion can be attached to the skin so as to fix all the stack structure and cover the skin. At the same time, any external water is effectively prevented from entering the absorbing layer and the binding layer to maintain the sticky property for attaching.

(23) Although the present invention has been described with reference to the preferred embodiments thereof, it is apparent to those skilled in the art that a variety of modifications and changes may be made without departing from the scope of the present invention which is intended to be defined by the appended claims.