SU1828743A1 - Method of making s-shaped cramps of electrode clip - Google Patents

Description

The invention relates to medical equipment and is intended for use in the study of blood circulation parameters of a person by the method of tetrapolar rheography, as well as for other electrographic studies. for example electrocardiography, and! is an improvement to the device. by author St. No. 1309957.

The purpose of the invention is the expansion of the scope of the clamp by providing the possibility of its use in tetrapolar rheography.

In FIG. 1 is a general view of the clamp; FIG. 2 is a top view along AA, in FIG. 3 - node I to scale.

The clamp consists of two S-shaped brackets 1 and 2. having a variable cross section in the area of coverage of the limbs and facing the concave part to each other. The brackets are interconnected by means of a ball joint 3 located in the place of closest closure of S-shaped staples. The brackets 1 and 2 are pressed against each other with the help of an elastic element made in the form of two equal flat S-shaped springs 4 located symmetrically on both sides of the support | 3 and inserted movably into the holes in the brackets 1 and 2. On the covering concave part of the S-shaped bracket, symmetrically relative to the ball joint 3, there are two conductive strips 5 connected to the twin-core cable 6, the area of each strip ι, for example, at least 10 cm ² . The strips of each bracket facing each other are connected by wires 7, shielding; a conductive layer 8, made on each bracket in the form of a lattice located above the conductive strips 5. isolated from them by a dielectric layer, connected to the screen of the cable 6, connected by a connector to the rheograph.

1 828 743 A2

The female concave portion of the S-shaped brackets 1 and 2 has a variable thickness, for example, has a thickness of 0.4 mm, 0.6 mm, 0.8 mm, the tail and support portion of both brackets has a significantly larger thickness, for example 3 mm. The varying cross sections of the enclosing part of the brackets 1 and 2 in combination with their implementation from a high modulus durable material, for example fiberglass, provide high elasticity of the enclosing part of the clamp electrode and solve the problem of contact of the electrodes with the patient’s skin surface with different anatomical structure of the limb. For this, the enclosing concave part of the S-shaped bracket is given a shape corresponding to the narrow anatomical structure of the wrist, and the thickness of the enclosing part and the force of the S-shaped spring are chosen so as to provide again the range of coverage of the limbs of different structures.

The clamp works as follows.

To apply the clamp electrode to the patient’s limb, it is necessary to open it by pressing on the shanks and the limb should be located between the concave surfaces of the S-shaped brackets, then the shanks and the surface of the brackets should be gently lowered, due to the elasticity of the construction of their concave part, they will be pressed to the surface of the patient’s limb, This ensures the required contact area of the electrodes with the skin (more than 15 cm ² ).

The difference in the anatomical structure of the limb of the patient does not affect the reliability of the contact of the electrodes with the skin, because Due to the elastic deformation of S-shaped staples, a change in the geometry of their concave part is ensured in accordance with the anatomical structure of the limb, and the presence of a spherical support 3 and springs ensures that the staples rotate relative to each other. Moreover, each S-shaped spring works independently, and in contrast to the known clamp, the interaction of each spring and the concave part of the S-shaped bracket provides elastic deformation of the bracket in mutually perpendicular directions (torsion), which significantly improves the contact conditions of the electrodes with the limb surface.

Claims (2)

Claim 1. Clamp for attaching ECG electrodes according to ed. No. 1309957, characterized in that, in order to expand the scope by providing the possibility of its use in tetrapolar rheography, electrically conductive strips isolated from each other symmetrically relative to the ball bearing are made on the edges * of the internal surfaces of each S-shaped bracket, while facing to each other, the strips of both brackets are electrically interconnected, and the S-shaped brackets are made of elastic material of variable thickness, increasing towards the hinge. 2. Clamp pop. 1, characterized in that in the body of each bracket above the electrically conductive strips there is a conductive shielding layer separated from them by a dielectric and electrically connected to the screen of the contact cable. Figure 1 5 5 Fig. 2 I figz