CN-224220148-U - Disposable flexible electrocardio sensor

Abstract

The utility model provides a disposable flexible electrocardiosignal, which comprises a main machine clamping shell and a conductive film, wherein the conductive film comprises a main body part, at least one electrode part is fixedly connected to the periphery of the main body part through a connecting part, a printed circuit is printed on the conductive film, the printed circuit extends from the main body part to the electrode part, the upper surface of the main body part is fixedly attached to the bottom surface of the main machine clamping shell, a main body non-woven fabric is attached to the lower surface of the main body part, a main body release paper is attached to the lower surface of the main body non-woven fabric, conductive gel is fixedly arranged on the lower surface of the middle of the electrode part and is electrically connected with the printed circuit, an electrode non-woven fabric is fixedly attached to the lower surface of the electrode part, a conductive gel hole through which the conductive gel passes is formed in the middle of the electrode non-woven fabric, and an electrode release paper is attached to the lower surface of the electrode non-woven fabric. The utility model has simple, light, thin, small and convenient use, and the non-woven fabrics of the main body and the electrode are contacted with human bodies, so that the non-woven fabrics are soft and comfortable, and the comfort degree of the body feeling is high.

Inventors

• MAO DINGHONG
• GAO YAN

Assignees

• 深圳市博声医疗器械有限公司

Dates

Publication Date

20260512

Application Date

20250512

Claims (8)

1. 1. The disposable flexible electrocardio sensor is characterized by comprising The upper surface of the host card shell is provided with a host card slot for being clamped into the host; The conductive film comprises a main body part, at least one electrode part is fixedly connected to the periphery of the main body part through a connecting part, a printed circuit is printed on the conductive film, the printed circuit extends from the main body part to the electrode part, and the ends of the printed circuit are gathered together on the main body part to form a circuit gathering part; The upper surface of the main body part is fixedly attached to the bottom surface of the main body clamping shell, the bottom surface of the main body clamping shell is provided with a circuit port leading to the main body clamping groove, the circuit converging part is fixed on the inner bottom surface of the main body clamping groove through the circuit port, the lower surface of the main body part is attached to main body non-woven fabric, and the lower surface of the main body non-woven fabric is attached to main body release paper; The middle lower surface of the electrode part is fixed with conductive gel, the conductive gel is electrically connected with the printed circuit, the lower surface of the electrode part is also fixed with electrode non-woven fabrics, the middle of the electrode non-woven fabrics is provided with conductive gel holes through which the conductive gel passes, and the lower surface of the electrode non-woven fabrics is stuck with electrode release paper.
2. 2. The flexible electrocardio-sensor of claim 1, wherein the opening of the main machine clamping groove is provided with at least one buckle for clamping the main machine.
3. 3. The flexible disposable electrocardiosignal according to claim 1 wherein the main body part is fixed on the bottom surface of the main body card casing through a first double-sided adhesive tape, the main body non-woven fabric is fixed on the lower surface of the main body part through a second double-sided adhesive tape, and the electrode non-woven fabric is fixed on the electrode part through a third double-sided adhesive tape.
4. 4. The flexible disposable electrocardiosignal according to claim 3 wherein the main body non-woven fabric and the electrode non-woven fabric are single-sided adhesive non-woven fabric, the surface of the main body non-woven fabric corresponding to the main body release paper is an adhesive surface, and the surface of the electrode non-woven fabric corresponding to the electrode release paper is an adhesive surface.
5. 5. The flexible disposable electrocardiosignal according to claim 1 wherein the upper surface of the electrode part is fixedly stuck with electrode fixing paper.
6. 6. The flexible disposable electrocardiosignal according to claim 5 wherein the electrode fixing paper is fixed on the upper surface of the electrode part by a fourth double-sided adhesive tape.
7. 7. The flexible single use electrocardiograph according to any one of claims 1 to 6 further comprising a reinforcing sheet fixed to the main body portion corresponding to the circuit converging portion.
8. 8. The flexible one-time electrocardio sensor of claim 7 wherein said reinforcing sheet is secured to said body portion by a fifth double sided adhesive tape, said reinforcing sheet being a PE sheet.

Description

Disposable flexible electrocardio sensor Technical Field The utility model relates to the field of electrocardio sensors, in particular to a disposable flexible electrocardio sensor. Background Dynamic electrocardiograph (Holter) is an important tool for clinical diagnosis of cardiac diseases such as arrhythmia and myocardial ischemia. The traditional dynamic electrocardiograph (Holter) has large volume, complex lead wire, influences daily activities of users when worn, and data transmission depends on special equipment and cannot be monitored remotely in real time. Therefore, a disposable flexible electrocardio sensor which has a simple structure, is small and exquisite and is convenient to use needs to be designed. Disclosure of utility model The utility model provides a disposable flexible electrocardio sensor which solves the defects of larger volume, complex lead wire and inconvenient use of the traditional electrocardio sensor. The technical scheme of the invention is as follows: The disposable flexible electrocardiosignal comprises a host card shell and a conductive film, wherein a host card slot for being clamped into the host is formed in the upper surface of the host card shell, the conductive film comprises a main body part, at least one electrode part is fixedly connected to the periphery of the main body part through a connecting part, a printed circuit is printed on the conductive film, the printed circuit extends from the main body part to the electrode part, the ends of the printed circuit are gathered together on the main body part to form a circuit gathering part, the upper surface of the main body part is fixedly attached to the bottom surface of the host card shell, a circuit opening leading to the host card slot is formed in the bottom surface of the host card shell, the circuit gathering part is fixedly attached to the inner bottom surface of the host card slot through the circuit opening, a main body non-woven fabric is attached to the lower surface of the main body non-woven fabric, conductive gel is fixedly attached to the middle lower surface of the electrode part, the conductive gel is electrically connected with the printed circuit, an electrode non-woven fabric is fixedly attached to the lower surface of the electrode non-woven fabric, a conductive gel hole through which the conductive gel passes is formed in the middle of the electrode non-woven fabric, and the lower surface of the electrode non-woven fabric is attached to the electrode non-woven fabric. Preferably, at least one buckle for clamping the host is arranged at the opening of the host clamping groove. Preferably, the main body part is fixed on the bottom surface of the main machine card case through a first double-sided adhesive tape, the main body non-woven fabric is fixed on the lower surface of the main body part through a second double-sided adhesive tape, and the electrode non-woven fabric is fixed on the electrode part through a third double-sided adhesive tape. Preferably, the main body non-woven fabric and the electrode non-woven fabric are single-sided adhesive non-woven fabric, the surface of the main body non-woven fabric corresponding to the main body release paper is an adhesive surface, and the surface of the electrode non-woven fabric corresponding to the electrode release paper is an adhesive surface. Preferably, an electrode fixing paper is fixedly attached to the upper surface of the electrode portion. Preferably, the electrode fixing paper is fixed on the upper surface of the electrode part by a fourth double sided adhesive tape. Preferably, the circuit assembly further comprises a reinforcing sheet fixed on the main body corresponding to the circuit convergence part. Preferably, the reinforcing sheet is fixed on the main body part through a fifth double sided adhesive tape, and the reinforcing sheet is a PE sheet. When the utility model is used, the host machine is clamped into the host machine clamping groove, the printed circuit on the circuit convergence part is contacted with the elastic needle of the host machine, the main body release paper and the electrode release paper are torn off and are attached to the corresponding positions of a human body, the conductive gel is contacted with the human body, and the received signals are transmitted to the host machine through the printed circuit. Drawings In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art. FIG. 1 is an exploded view of a conductive film of the present utility model; FIG. 2 is a schematic diagram of a host card case accordin