Electrode plate and wearable defibrillation device

Abstract

An electrode plate () and a wearable defibrillation device are disclosed. The electrode plate () includes a hermetic shell (), a capsule () and a sealing structure (). The hermetic shell () has an inflation port () and an overflow aperture (). The overflow aperture () is disposed in a conductive exposed surface () of the hermetic shell (). The capsule () is provided in the hermetic shell () and defines a cavity () for storage of a conductive paste therein. The cavity () defines an inlet orifice () and an outlet orifice (). The overflow aperture () is disposed at the outlet orifice (). A sealing component () of the sealing structure () is positioned at the overflow aperture () and configured to close the overflow aperture () and the outlet orifice () when the hermetic shell () is not inflated. The force applying component () of the sealing structure () is disposed on the hermetic shell () and then is connected to the sealing component () after being inserted into the capsule () through the inlet orifice (). The force applying component () is configured to pull the sealing component () as a result of inflation and expansion of the hermetic shell () and thus open the overflow aperture () and the outlet orifice () and bring them into communication. As a result, the conductive paste is allowed to flow through the outlet orifice () and the overflow aperture () onto the exposed surface (). During cardiac defibrillation of the electrode plate (), the conductive paste can automatically applied to provide a patient with timely protection, and the conductive paste can be released in a reliable and safe manner.