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Bioelectrical signal monitoring device, monitoring garment and monitoring gloves

A bioelectric signal and monitoring device technology, applied in diagnostic recording/measurement, medical science, sensors, etc., can solve problems that affect the accuracy of bioelectric signals, difficult to monitor biological characteristics of living organisms, body aches, etc.

Pending Publication Date: 2016-11-23
SHANGHAI UNIV OF ENG SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The surface bioelectric signal monitoring component is mainly to collect the bioelectric signal of the surface layer of the skin of the living body, and transmit the electrical signal to the signal receiving device through the negative ion gel material such as conductive gel. The conductive gel mainly uses the negatively charged ions in the doped polymer For signal transmission, although the conductivity is very good, long-term use will irritate the skin and cause symptoms such as skin allergies and ulcers, and the bioelectrical signal monitoring components in the form of gel are difficult to install on wearables such as tights and gloves. The biometrics of living organisms are monitored
[0004] However, in the prior art, the collection of bioelectrical signals needs to be manually attached to the electrodes to measure the bioelectrical signals. It is difficult to achieve 24-hour monitoring and cannot meet the requirements of long-term monitoring of bioelectrical signals.
In addition, because the plug-in electrodes in the prior art penetrate the inner layer of the skin and cause certain damage to the organism, and because the bioelectric signal monitoring component needs to penetrate the inner layer of the skin, it will cause a certain degree of stimulation to the organism , thus greatly affecting the accuracy of the measured bioelectrical signal
[0005] At the same time, during the monitoring process, it is usually necessary to maintain a posture and lie still. When the monitoring time is long, the inability to move will easily lead to body pain and bring troubles to users.

Method used

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  • Bioelectrical signal monitoring device, monitoring garment and monitoring gloves
  • Bioelectrical signal monitoring device, monitoring garment and monitoring gloves
  • Bioelectrical signal monitoring device, monitoring garment and monitoring gloves

Examples

Experimental program
Comparison scheme
Effect test

Embodiment approach 1

[0049] The first embodiment of the present invention provides a bioelectrical signal monitoring device, such as figure 1 with figure 2 As shown, it is applied to a wearable product 7, including a bioelectrical signal monitoring component, a memory metal component 9, and a main control unit.

[0050] Among them, the bioelectric signal monitoring component and the memory metal component are arranged on the wearable product, and at least part of the bioelectric signal monitoring component is fixed on the position of the wearable product 7 corresponding to the part of the organism to be monitored, and is set on the wearable product. The memory metal assembly 9 on the 7 is resisted.

[0051] The activation temperature of the memory metal component 9 is lower than the body temperature of the organism to be measured. When the organism puts on the wearable article 7, the memory metal component 9 is activated, and the memory metal component 9 deforms in the direction of the bioelect...

Embodiment approach 2

[0078] The second embodiment of the present invention relates to a bioelectrical signal monitoring device. This embodiment is substantially the same as the above-mentioned first embodiment, the difference is that in this embodiment, the fabric electrodes 1 are made of several The metal layer is composed of yarns, and the yarns are interwoven or entangled with each other. Wherein, at least one side of the fabric electrode 1 is resisted by the memory metal component 9 .

[0079] From the above content, it can be seen that since the fabric electrode 1 can also be formed by a plurality of interwoven or intertwined yarns, and each yarn is plated with a metal layer, forming a metal conductive layer with a fabric-like structure, which can be better It is attached to the surface of the skin of the living body, so that the fabric electrode 1 can better retain the original comfort, air permeability and biological affinity of the fabric and many other advantages, and has the ability to r...

Embodiment approach 3

[0081] The third embodiment of the present invention relates to a bioelectrical signal monitoring device. This embodiment is substantially the same as the above-mentioned first embodiment. The difference is that in this embodiment, the fabric electrode 1 includes several layer of shape-memory alloy wires, and each shape-memory alloy wire is interwoven or intertwined with each other.

[0082] It is not difficult to find from the above content that in practical application, since the fabric electrode 1 is formed by interweaving or winding several shape memory alloy wires coated with a metal layer, when the wearable product 7 is worn on the human body, especially the fabric electrode 1 After the electrode 1 touches the parts to be monitored of the human body, such as fingers and arms, since the body temperature of the human body is higher than the excitation temperature of the shape memory alloy wires, each shape memory alloy wire is automatically curled, thereby forming a multi-a...

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Abstract

The invention discloses a bioelectrical signal monitoring device applied to a wearable article. The bioelectrical signal monitoring device comprises a bioelectrical signal monitoring assembly, a memory metal assembly and a main control unit, wherein the bioelectrical signal monitoring assembly and the memory metal assembly are arranged on the wearable article, and at least part of the bioelectrical signal monitoring assembly is fixed in the position, corresponding to a to-be-monitored part of the living body, of the wearable article and connected with the memory metal assembly; the excitation temperature of the memory metal assembly is lower than the temperature of the to-be-monitored living body; when the living body wears the wearable article, the memory metal assembly is excited and deforms towards the bioelectrical signal monitoring assembly to prop the bioelectrical signal monitoring assembly against the to-be-monitored part of the living body. Compared with the prior art, the bioelectrical signal monitoring assembly can be tightly attached to the to-be-monitored part of the living body under the action of the memory metal assembly without aid of external force, and bioelectrical signals of the living body can be monitored precisely for a long time through the main control unit.

Description

technical field [0001] The invention belongs to the field of medical physiological signal monitoring textiles, and relates to a bioelectrical signal monitoring device, monitoring clothes and monitoring gloves. Background technique [0002] With the development of society and economy, as well as the needs of experimental or medical research and application, an intelligent wearable bioelectrical signal monitoring that can monitor bioelectrical signals for a long time and provide timely feedback to abnormal bioelectrical signals The device came into being. The whole monitor includes multiple modules such as information collection module, information processing module, information comparison and physiological state feedback. [0003] As the core device of bioelectrical signal acquisition, monitoring electrodes have been paid attention by researchers at home and abroad. Traditional monitoring electrodes can be divided into two types: plug-in bioelectric signal monitoring compon...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61B5/04A61B5/0402A61B5/021A61B5/00
CPCA61B5/021A61B5/6804A61B5/6806A61B5/746A61B5/24A61B5/318
Inventor 刘振刘晓霞王双管昳昳
Owner SHANGHAI UNIV OF ENG SCI
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