Electrode plate and wearable defibrillation device

A technology of electrode plates and covers, applied in electrodes, mechanical equipment, cardiac defibrillators, etc., can solve problems such as low reliability, gas leakage, defibrillation equipment not working in time, etc., and achieve improved safety and timely protection Effect

Pending Publication Date: 2021-12-03
MICROPORT SORIN CRMSHANGHAICO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

But the shortcoming of this scheme is that in order to make the gas can squeeze out the capsule, the gas-generating drug is used to explode to generate a sufficient air pressure. At this time, the box that accommodates the capsule can only be designed according to the maximum strength, so that the box must be thick enough and hard enough to make the capsule The patient is uncomfortable when wearing it, and the willingness to wear it is not high
Not only that, but the safety of gas-promoting medicine is difficult to guara

Method used

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  • Electrode plate and wearable defibrillation device
  • Electrode plate and wearable defibrillation device
  • Electrode plate and wearable defibrillation device

Examples

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Example Embodiment

[0065] Example one

[0066] figure 2 with image 3 Respectively, schematic and exploded view of the structure of the electrode plate mounting structure according to a first preferred embodiment of the present invention. like figure 2 with image 3 , The present embodiment provides an electrode plate 100 for defibrillation, the electrode plate 100 comprises a capsule 110 and seal housing 120; the capsule 120 disposed within the sealed housing 110 and the conductive paste for storage .

[0067] Figure 4 with Figure 5 They are respectively a front view of the capsule according to a first preferred embodiment of the present invention and in Figure 4 A cross-sectional view of the capsule shown in A-A connection. like Figure 4 ~ 5 Shown, the capsule 120 includes a body 121, a hollow body 121 having a cavity 122, i.e. the conductive paste for storage in the cavity 122. The cavity 122 is provided with an outlet 123; the outlet 123 having an open state and a closed state; when the outlet 1...

Example Embodiment

[0080] Example 2

[0081] The inventors have further studied that the more capsules loaded by the electrode plates in the same defibrillation area, but the electrode plate can be used to load the space to carry the paste, and therefore, it is actually loaded by more capsules. Conductive paste. Specifically, in the first embodiment, the electrode plate 100 is installed, for example, between 14 capsules 120, 14 capsules 120, there is a gap, no matter how large the gap is, these gaps are completely unavailable, relatively, the more gaps The smaller the area that can be used to load the conductive paste on the sealing housing, which reduces the total load of the conductive paste. If in order to increase the loading of the conductive paste, increase the thickness of the electrode plate, it will increase the cost, especially the electrode plate is more thick, so that the patient is uncomfortable. Not only there is this, the more the capsule is, the more heat generating elements, but not...

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Abstract

The invention relates to an electrode plate and a wearable defibrillation device. The electrode plate comprises a sealing shell and capsules arranged in the sealing shell; the sealing shell is provided with an inflation port and glue overflow ports; the glue overflow ports are formed in an exposed surface of the sealing shell and the exposed surface has conductivity; the capsule comprises a body and a cover, the body is provided with a hollow cavity and an outlet communicating with the cavity, and the cavity is used for storing a conductive paste, and isolated from an empty cavity of the sealing shell; the cover is arranged at an outlet and used for sealing the outlet; and a gap formed after the cover is broken communicates with the outlet and the glue overflow port, such that the conductive paste in the cavity flows out to the exposed surface through the outlet, the gap of the cover and the glue overflow port in sequence. The device has advantages of automatically coating the conductive paste, protecting a patient in time, and improving release safety of the conductive paste.

Description

technical field [0001] The invention relates to the technical field of medical devices, in particular to an electrode plate and a wearable defibrillation device. Background technique [0002] Ventricular fibrillation is a relatively common heart disease in life. It has the characteristics of no aura of onset, short rescue time (only 4 minutes from onset to death), and high sudden death rate. For such patients, the current rescue method mainly uses high DC voltage to defibrillate the heart by discharging it, so that the heart returns to a normal rhythm. There are four main types of defibrillation equipment: [0003] (1) The mobile defibrillator can be moved, but it is bulky and inconvenient to carry. Therefore, it is mostly used in hospitals; [0004] (2) Automatic defibrillator (AED), which is easy to carry and placed in a conspicuous position in public places; [0005] (3) Implantable defibrillator (ICD), which can be operated fully automatically and can be implanted int...

Claims

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Application Information

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IPC IPC(8): A61N1/39A61N1/04B05C11/10B05C11/11F16J15/10
CPCA61N1/3904A61N1/3968A61N1/046A61N1/0484F16J15/10B05C11/10B05C11/11A61B5/361A61B5/256A61B5/4836A61B2560/0406A61B2562/04A61B5/6805A61B5/6843
Inventor 何明晨
Owner MICROPORT SORIN CRMSHANGHAICO LTD
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