CS228175B1 - Contact electrode - Google Patents

Abstract

A contact electrode for electronic instruments, which are applied for suppressing pains and for seeking active spots on the skin. The aim is to secure a sufficient, if possible constant, pressure of the electrode on the body surface, which causes no pain even on sensitive parts of the body, but which secures the same physical conditions at diagnostical and therapeutical repeated applications. The contact electrode comprises a sprung needle electrode 5, which is slidingly seated by means of an insulating body 7 inside an outer electrode 1, which is provided with an extension sleeve 2. The electrode may be for single handed use, when a separate connection is made to the outer electrode 1 which is gripped by the patient for self application, or (Fig. 2) for use by a doctor when the second connection is made by a separate tubular electrode (13) gripped by the patient. <IMAGE>

Description

The invention solves the construction of a touch electrode for electronic devices for pain relief and search for active sites on the skin.

These devices first detect active sites on the polcSce. They are characterized in that in their place the electrical resistance is less than in other parts of the skin. For this reason, it is desirable that the pressure of the sensing electrodes on the skin be the same every time. Another limiting factor of the sensing electrode pressure is the fact that the active sites are on various sensitive parts of the body such as hands, feet, face, ears and the like.

In the electronics of suppressing booesti ae into the active bases by means of electrodes brings electrical impulses. Here again, however, the electrode pressure at the active site must be sufficient and not painful.

The electrodes used to date for medical devices are designed as fixed assemblies. The electrode pressure on the skin is dependent on the abilities and experience of the person working with the electrode. Since electronic pain relief devices are intended for a relatively broad public, the use of solid electrodes in such devices does not meet the above requirements.

Disadvantages of the fixed electrodes are eliminated by the contact electrode according to the invention, which is formed from an external electrode connected to the adapter, the inner wall of the outer electrode being provided with an insulating insert and a guide sleeve in which the needle electrode is mechanically and conductively connected to the contact spring. is supported by its other end on the insulating body inserted in the extension piece, the limit axial position of the insulating body being defined by the internal diameter of the extension piece.

It is a further feature of the invention that the insulating body is provided with a terminal block and that the first plug is provided. the conductor is connected to the needle electrode by means of this terminal block and the contact spring, and the other conductor is assisted by: terminal block and spring connected to the external electrode.

Another feature of the invention is that the first supply conductor is connected to the needle electrode via a plurality of terminal blocks and contact springs and the second conductor is connected to the self-rotating external electrode.

Suspension of the needle electrode with a long, soft spring allows an approximately constant pressure of the electrode on the skin surface and hence stable physical conditions when measuring and stimulating the active passages. At the same time, the spring-loaded needle electrode prevents the electrode from being painfully pressed against the body surface. The arrangement of the external electrodes then allows self-acquisition of the patient, who can detect or stimulate the active sites.

Two embodiments of the touch electrode are not indicated in the attached drawings. Fig. 1 shows a one-hand embodiment of the touch electrode; Fig. 2 shows an embodiment of the touch electrode.

The one-touch contact electrode is formed from an outer cylindrical electrode 1 provided with a plastic adapter 2. Inside the outer electrode 1 is the insulating insert J of the tapered part by means of the guide sleeve 4, the needle electrode 2 'is slidably mounted

The contact surface of the needle electrode 2 has a sphere shape. The needle end of the needle electrode 5 is mechanically and conductively connected to a long soft spring 2, which is supported by an insulating body Z slidably mounted in the extension 2. The axial position of the insulating body Z is defined by the shoulder 2 of the inner diameter of the extension 2. clamp ^ nc! 5, in which the first conductor 11 is connected by a spring 6, the free end of which passes through the insulating rod 2 through the needle electrode 2, the second supply conductor 12 by means of a tongue 10 passing through a groove in the insulating rod 2 with the outer electrode 4.

The two-hand electrode differs from the one-year one only in that the external electrode 1 remains unconnected and the second power conductor 12 is in turn connected to the self-flying external electrode 13.

PM scoring of the active sites or during their stimulation, the touch electrode is applied to the skin and pressed slightly until the needle electrode 2 partially retracts. . Since the needle electrode 2 is rounded and the pressure of the spring 6 is less than 10 Pa, the contact of the needle electrode 6 cannot be painful and, at each electrode application, the difference in pressure on the skin is negligible. Further refinement can be achieved by marking the recommended electrode depth with a mark on the needle electrode 2.

In the one-year design of the touch electrode, the instructed patient is electrically connected to the device by gripping the outer electrode 1 and can itself search or stimulate the active site by means of the needle electrode 2.

In the case of the two-hand embodiment, the self-rotating external electrode 13 is held by the patient and the one-year touch electrode with the external electrode 1 not connected is then searched or stimulated by the physician.

Touch electrodes can also be used in more complicated diagnostic medical devices for measuring changes in nerve endings, sensing biological potentials, etc.

Claims (4)

A electrode for the electronic apparatus for pain relief and active skin detection, characterized in that it is formed from an outer electrode (1) connected to the extension (2), the inner wall of the outer electrode (1) being provided with an insulating insert (3) ) and a guide sleeve (4), in which the needle electrode (5) is slidably mounted, mechanically and conductively connected to the contact trough (6), which is supported by its other end on the insulating body (7) slidably mounted in the extension (2). ), the limit axial position of the insulating body (7) being defined by a shoulder (9) of the inner diameter of the extension (2). 2. The contact electrode according to claim 1, characterized in that the insulating body (7) is provided with a terminal block (8). 3. The electrode according to claim 1, characterized in that the first supply conductor (11) is by means of a terminal block (8) and a contact spring. (6) connected to the needle electrode (5) and the second supply conductor (12) is via the terminal block (8) and. a spring (10) connected to the larger electrode (1). 4. The electrode according to claim 1, characterized in that the first supply conductor (11) is connected to the needle electrode (5) by means of terminal block ¹ (8) and contact spring (6) and the second supply conductor (12) is connected to a self-rotating an external electrode (13). .