CN201085622Y - Disposal electrode slice type normal electrocardiogram lead wire - Google Patents

Abstract

Disclosed is a disposable electrode-type conventional electrocardiogram lead line used as a lead line for conventional electrocardiogram monitoring and recording. A cable (5) is connected with a shielding bonding line (3) through a fixed connection distributor (4); the rear end of the shielding bonding line (3) is connected with a joint (1) whose work surface is adhered with a disposable sticky electrode (2). The utility model has the advantages that the clamp or ball suction type metal electrode is changed to the disposable sticky electrode for enhancing and ensuring the electrode to be contacted with the corresponding skin position stably and improving the success rate and recording rate of the electrocardiogram examination; meanwhile, the continuous use electrode is changed to the disposable electrode to meet the public health requirements. The disposable electrode-type conventional electrocardiogram lead line has convenient and effective structure and is easy for application.

Description

Disposable electrode sheet type conventional ECG lead wire

1. Technical field

The utility model belongs to a lead wire for conventional electrocardiogram monitoring and tracing, in particular to a disposable electrode sheet type conventional electrocardiogram lead wire.

2. Background technology

Electrocardiogram (ECG) In each cardiac cycle, the heart is excited successively by the pacemaker, atrium, and ventricle, accompanied by changes in bioelectricity, and various forms of potential changes are drawn from the body surface through the electrocardiograph (ECG for short). ). The electrocardiogram is an objective indicator of the occurrence, propagation and recovery process of cardiac excitement. Relevant studies have shown that the changes in the combined value of the QRS amplitude of the electrocardiogram and the combined value of the chest lead have great clinical significance, and the percentage resin of the change and the specific sum value can be used as a useful quantitative index.

Animal body tissues and body fluids can conduct electricity, and the electrocardiograph's recording electrodes can be placed on any two non-isoelectric parts of the body surface to record images of ECG changes. This measurement method is called bipolar lead. , the measured potential change is the algebraic sum of the potential changes at two points on the body surface, and the analysis waveform is more complicated. If one of the two measuring electrodes, usually the electrode connected to the negative terminal of the tracer, is managed to keep its potential at zero potential, it becomes a so-called "irrelevant electrode", while the other measuring electrode is placed on a certain measurement point on the body surface. Point, as a "probing electrode", this measurement method is called a monopolar lead. Since the irrelevant electrodes always keep the zero potential unchanged, the measured potential change only represents the potential change of the part where the probe electrode is located, so the interpretation of the waveform is relatively simple. Both unipolar and bipolar leads are currently used in the clinical examination of ECGs. There are 12 conventionally used ECG lead methods.

In the current known technology, the standard lead is a bipolar lead and can only trace the potential difference between two electrodes. The electrode connection method is: the first lead (referred to as mutual), the right arm (-), the left arm (+); the second lead (referred to as II), the right arm (-), the left foot (+); the third lead (referred to as III), left arm (-), left foot (+). The corresponding electrocardiogram and lead wires use metal electrodes with clips on the limbs, and metal electrodes with suction balls on the chest. The size of the contact area and the tightness of adsorption are different, and are affected by factors such as changes in the humidity of the contact surface, resulting in changes in the QRS amplitude in the ECG, affecting the success rate of ECG examination and the quality of tracing.

Disclosed individual related technologies also try to solve the above problems, such as Chinese patent 98226535.2 net-type electrocardiogram lead wire, an electrode wire is arranged on the electrode plate of the lead wire, and the electrode wire is connected with the electrocardiograph. The end points of the wires are connected to the contact round handle, and the lead wires are divided into three groups, the chest lead wire group, the upper limb lead wire group, and the lower limb lead wire group. Each group of lead wires is connected with a net, and each group of lead wires The net formed by the lines is fan-shaped.

After analysis, it is found that these technologies cannot solve the above problems very well.

3. Contents of the invention

The purpose of this utility model is to propose a kind of, namely disposable electrode sheet type conventional electrocardiogram lead wire.

The measures to realize the purpose of the invention of the utility model are: the cable is connected to the shielded glued wire through a fixed connection splitter, the end of the shielded glued wire is connected to the joint, and the working surface of the joint is bonded with a disposable paste electrode.

The utility model has the advantages of changing the clip-type and ball-absorbing metal electrodes in the prior art into disposable stick-type electrode sheets, which can effectively enhance and ensure the stable contact between the electrodes and the corresponding parts of the skin, and improve the efficiency of electrocardiogram examination. Success rate and tracing quality, etc., at the same time, after changing the continuous use of electrodes to one-time use, it also meets the requirements of public health. The utility model has a simple and effective structure and is easy to implement.

4. Description of drawings

Fig. 1 is the structural representation of the utility model embodiment 1

5. Specific implementation

Embodiment 1: The cable 5 is connected to the shielded glued wire 3 through the fixed connection splitter 4, the end of the shielded glued wire 3 is connected to the joint 1, and the working surface of the joint 1 is glued with the disposable paste electrode 2.

The cable 5 adopts a standard 10-core single-strand shielded cable. After being fixedly connected with the splitter 4, 10 single-strand shielded glued wires 3 are formed. The ends of the shielded glued wires 3 are connected to the snap-type connector 1, and the working surface of the connector 1 is glued and pasted at one time. Electrode 2.

When in use, first stick the disposable sticky electrode 2 on the working surface of the joint 1, and then stick the disposable sticky electrode 2 on the working surface where the ends of the 10 single-strand shielded glued wires 3 are connected, and align them with the respective corresponding joints. The detection position, the disposable adhesive electrode 2 is pasted on the skin at the corresponding position to form a standard lead, and the detection starts. The lead wire is ready for next use.

In the embodiment of the utility model, changing the clip-type and ball-absorbing metal electrodes in the prior art into disposable stick-type electrode sheets can effectively enhance and ensure the stable contact between the electrode and the skin of the corresponding part, and improve the success of the electrocardiogram examination. At the same time, after the continuous use of the electrode is changed to one-time use, it also meets the requirements of public health. The utility model has a simple and effective structure and is easy to implement.

Claims (3)

1. Disposable electrode sheet type conventional electrocardiogram lead wire, characterized in that the cable (5) is connected to the shielded glued wire (3) through a fixed connection splitter (4), and the end of the shielded glued wire (3) is connected to the connector (1) , the working surface of the joint (1) is bonded with a disposable pasting electrode (2). 2. The disposable electrode sheet type conventional electrocardiogram lead wire as claimed in claim 1, is characterized in that the cable (5) adopts a standard 10-core single-strand shielded cable, and forms 10 cables after being fixedly connected with the wire distributor (4). Single-strand, shielded, glued wire (3). 3. The disposable electrode sheet type conventional electrocardiogram lead wire as claimed in claim 1, characterized in that the end of the shielded glued wire (3) is connected with a snap connector (1).

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