Прилуцкий Дмитрий Анатольевич (RU),Коновалова Ирина Александровна (RU),Ефремова Антонина Дмитриевна (RU)
申请号:
RU2017112087
公开号:
RU0000174400U1
申请日:
2017.04.10
申请国别(地区):
RU
年份:
2017
代理人:
摘要:
A useful model refers to medicine, namely cardiodiagnosis, and can be used as electrocardiographic sensors to remove biopotentials in electrophysiological ECG studies. Provides stability of reception and transmission of signal due to close contact of the hydrogel electrode contact to the skin of the patient, excluding its shift during research, as well as due to the tight contact of the electrode terminals of the loop zone of the base with the contacts of the connector of external equipment. The electrode sensor is a figured flexible base 1, which includes a loop zone 2 and a zone 3 of ECG leads. In the zone 3 of the ECG leads, hydrogel electrode contacts 4 with electrodes 5 supplied to them are installed. The electrodes 5 are made in the form of a flexible conductive layer applied to the flexible substrate 1, and are led to the loop zone 2 of the flexible base 1. The base 1 in the loop zone 2 is reinforced with a liner 6 installed on the side, on the back side of the conductive layer of the electrodes 5. The base 1 in the loop zone 2 has holes 7 adapted to be fixed in the connector external equipment. Each hydrogel electrode contact 4 is provided with means 8 for its removable attachment to the skin of the patient, 9 zp. f-ly, 2 ill. Each hydrogel electrode contact 4 is provided with means 8 for its removable attachment to the skin of the patient, 9 zp. f-ly, 2 ill. Each hydrogel electrode contact 4 is provided with means 8 for its removable attachment to the skin of the patient, 9 zp. f-ly, 2 ill.Полезная модель относится к медицине, а именно к кардиодиагностике, и может быть использована в качестве электрокардиографических датчиков для снятия биопотенциалов при электрофизиологических ЭКГ-исследованиях. Обеспечивает устойчивость приема и передачи сигнала обусловленное плотным прилеганием гидрогельного электродного контакта к коже пациента, исключающего его сдвиг при проведении исследований, а также обусловленное плотным контактом электродных выводов шлейфовой зоны
