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(19)

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2 670 422

(13)

(51)

IPC

H01M10/04(2006-01-01)

H01M10/623(2014-01-01)

H01M2/14(2006-01-01)

A61F2/14(2006-01-01)

A61F9/00(2006-01-01)

(21) (22)

Application

2017129565, 2015-08-18

(24)

Start date

2015-08-18

(22)

Actual filing date

2015-08-18

(45)

Published

2018-10-23

(72)

Inventor

Otts, Daniel B.Pugh, Randall B.Riall, James DanielToner, AdamFlitsch, Frederick A.Mahadevan, Shivkumar

(73)

Holder

Johnson Johnson Vision Care, Inc.

METHODS OF MANUFACTURE OF BIOCOMPATIBLE ENERGISATION ELEMENTS FOR BIOMEDICAL DEVICES CONTAINING MULTILAYER COMPOSITES AND OBJECTED DIVISIONS Russian patent published in 2018 - IPC H01M10/04 H01M10/623 H01M2/14 A61F2/14 A61F9/00

Abstract RU 2670422 C1

FIELD: medicine; electrical engineering.

SUBSTANCE: invention is related to the field of electrical engineering and medicine, namely to a method and apparatus for manufacturing biocompatible batteries. In certain examples, methods and apparatus for manufacturing biocompatible batteries are described, which include the steps of filling the cavities with active cathode chemicals and depositing spacers within the laminate battery construction. Proposed design of a biocompatible battery allows the battery's chemical composition to be effectively retained. Design of the battery allows internal control of the number of batteries inside the battery. Active elements of the cathode and the anode are sealed with a laminate package of biocompatible material. In some examples, the scope of the methods and apparatus may include any biocompatible device or product for which batteries are required.

EFFECT: increase in the safety and reliability of a biocompatible battery when compact, is the technical result of the invention.

22 cl, 9 dwg

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RU 2 670 422 C1

Authors

Otts, Daniel B.

Pugh, Randall B.

Riall, James Daniel

Toner, Adam

Flitsch, Frederick A.

Mahadevan, Shivkumar

Dates

2018-10-23—Published

2015-08-18—Filed