EP4304708A1 - Connector for an electromedical electrode, a mating connector, electromedical pulse generator, electromedical electrode, and electromedical plug connection - Google Patents

Abstract

The invention relates to improvements in the technical field of electromedical plug connections. For this purpose, inter alia a connector (1) for an electromedical electrode (2) is devised, having at least one contact terminal (3) that is coated with a non-conducting protective layer (4) that can be locally opened at least to some extent (cf. fig. 3).

Description

Electromedical electrode connector plug, mating connector, electromedical pulse generator, electromedical electrode and electromedical

connector

The invention relates to a connecting plug for an electromedical electrode with at least one contact pole, a corresponding mating plug, an electromedical pulse generator, an electromedical electrode and an electromedical plug connection.

Electromedical electrodes are used, for example, to deliver stimulation pulses from an electromedical pulse generator to a target tissue, such as muscle tissue and/or a nerve of a patient. Electromedical electrodes are also used to pick up electrical impulses from a patient, for example electrical impulses from a muscle, in particular a heart muscle, and to transmit them to a corresponding evaluation unit via the electrode.

Electromedical electrodes have a connector plug at their proximal end, with which they can be connected to an electromedical pulse generator and/or a corresponding evaluation unit.

At least one contact pole is formed on the connector plug of such electromedical electrodes. When handling such electrodes, the at least one contact pole should not be touched in order to avoid accidental coupling of signals into the electromedical electrode. This is particularly the case when the distal end of the electrode is already implanted in the target tissue of the patient. The object of the invention is to provide a connector plug, a corresponding mating connector, an electromedical electrode and an electromedical plug connection comprising a connector plug and a mating connector, the handling of which is simplified, in particular when the electrode is connected to a pulse generator or an evaluation unit, and which prevents accidental coupling of signals avoid.

To solve the problem, a connector of the type mentioned is initially proposed, which has the means and features of the independent claim directed to such a connector. To achieve the object, a connector plug for an electromedical electrode with at least one contact pole is proposed, which is characterized in that the at least one contact pole is coated with a non-conductive protective layer that can be at least partially opened locally.

In this way, a connector plug is provided, the at least one contact pole of which is protected by a non-conductive protective layer against the coupling of unwanted interference signals and is insulated by the non-conductive protective layer. The non-conductive protective layer can be a protection against accidental contact of the at least one contact pole. Immediately before the connection plug is connected to a corresponding mating connector, the non-conductive protective layer with which the contact pole is coated can be at least partially opened locally in order to allow electrical contact between the contact pole and a corresponding mating contact pole of the mating connector.

The non-conductive protective layer can, for example, on the at least one contact pole painted, glued, deposited, sprayed on and/or produced by immersing the contact pole in an immersion bath with a liquid from which the non-conductive protective layer is made, on the at least one contact pole.

The non-conductive protective layer can be designed in such a way that it is automatically at least partially opened locally when the connector plug is connected to the mating connector. In this way, the separate removal of the protective layer, which possibly couples in interference signals, before the connection plug is connected to the mating plug can be dispensed with.

Possibilities of how the non-conductive protective layer, with which the at least one contact pole of the connector plug is coated, can be opened automatically at least partially locally when connecting to a corresponding mating connector are discussed below in the context of the mating connector according to the invention and also in the context of the specific exemplary embodiments of Invention explained in more detail.

In one embodiment of the connector plug, it is provided that the protective layer covers the at least one contact pole at least to the extent that protection against accidental contact with the contact pole is ensured. In a preferred embodiment of the connector plug, the protective layer completely covers the at least one contact pole. In this way, the protective layer reliably protects the at least one contact pole of the connector plug against accidental coupling of control signals.

The at least one contact pole can be electrically insulated by the protective layer.

It can be particularly expedient if the protective layer is a polymer layer covering the at least one contact pole. Such a protective layer has a good electrically insulating effect and can also be applied comparatively easily to the at least one contact pole.

In one embodiment of the connector plug, it is provided that the at least one contact pole is ring-shaped. The at least one ring-shaped contact pole can be formed by a contact ring that surrounds a longitudinal axis of the connector plug.

The at least one contact pole of the connector plug can be connectable to an electrical conductor, for example an electrical conductor of an electromedical electrode, or can be connected when the connector plug is in the usage position. The contact pole can function as a contact means providing an interface for transmitting the signals transmitted to the contact pole via the aforementioned conductor to a corresponding mating contact pole.

In one embodiment of the connector plug, the at least one contact pole has a connection interface for connection to an electrical conductor, in particular to an electrical conductor of an electromedical electrode, on a side facing away from the protective layer, which can be a rear side of the contact pole, for example. The contact pole can be connected to an electrical conductor via its connection interface. After the protective layer has been opened locally, the contact pole connected to the electrical conductor on the back, for example, can be used to connect to a mating contact pole of a mating connector.

In one embodiment of the connector plug, the at least one contact pole has a round, preferably circular, cross section. At another Embodiment of the connector plug has at least one contact pole on an angular, for example, a rectangular cross section. A contact pole with an angular, for example rectangular, cross-section is suitable for securing the connection plug against rotation on or in a mating plug, for example on or in a socket that is used as a mating plug.

To solve the problem, a mating connector with the means and features of the independent claim directed to such a mating connector is also proposed. This mating connector can be a mating connector for the connector plug already explained above and/or for a connector plug according to one of the claims directed to such a connector.

To achieve the object, a mating connector is proposed in particular, which has at least one mating contact pole and at least one means for at least partially locally opening a non-conductive protective layer of a contact pole of the connector plug, in order to establish an electrical contact between the at least one Contact pole of the connector plug, which is coated with the non-conductive protective layer, and to produce at least one mating contact pole of the mating connector.

In this way, a mating connector is provided which is set up to open the non-conductive protective layer, with which the at least one contact pole of the connector plug is covered, at least partially locally when the plug-in connection is made between the connector plug and the mating connector, in order to create an electrically conductive Establish connection between the contact pole of the connector plug and the mating contact pole of the mating connector. To this Way, a separate handling to remove electrical insulation before connecting the connector plug is avoided with the mating connector. This can considerably simplify the handling of an electromedical electrode provided with such a connecting plug and mating plug and also increase the safety for a patient to be treated with such an electromedical electrode.

The at least one means, which is set up for at least partially locally opening the non-conductive protective layer of the contact pole of the connector plug, can be a cutting edge, for example. The cutting edge can be arranged and/or formed on the mating connector and/or assigned to the at least one mating contact pole.

For each mating contact pole, the mating connector preferably has at least one such means for at least partially locally opening a non-conductive protective layer on a contact pole of a connector plug.

In one embodiment of the mating connector, the at least one means for at least partially local opening of the non-conductive protective layer is a cup blade. The ring blade can be formed on a fastening screw of the mating connector for the connector plug.

In one embodiment of the mating connector, it is provided that the mating connector has at least one cutting contact on which a mating contact pole and at least one means for at least partially local opening of a non-conductive protective layer of a contact pole of the connector plug are formed or arranged. In this embodiment of the mating connector, it is particularly easy to automatically establish the electrical connection between the at least one contact pole of the connector and the at least one mating contact pole of the mating connector when connecting the mating connector to the connector.

It is particularly advantageous if the mating connector has a number of mating contact poles and/or means for at least partially local opening of the protective layer, which corresponds to a number of contact poles of the connector plug. In this way it is possible to automatically establish an electrical connection between all of the contact poles of the connector plug and mating contact poles of the mating connector when connecting the connector plug to the mating connector.

In one embodiment of the mating connector, at least two, in particular a plurality of mating contact poles, for example spaced apart axially, are provided.

The mating connector can have a pull-out protection for a connection plug connected to the mating connector. In this way, the connected to the mating connector

Connectors are reliably fixed in its contact position on the mating connector. The pull-out protection prevents the plug connection from coming loose unintentionally.

The at least one means, which is provided for the local opening of the protective layer of a contact pole of a connector plug, can serve as protection against the mating connector being pulled out for the connector plug connected to the mating connector. The pull-out protection can be provided, for example, that the means, such as the Cut into the coating and, like a barb, fixes the connector to the mating connector. It can be advantageous if the at least one means is oriented transversely and/or obliquely to a pull-out direction of a connector plug defined by the mating connector and preferably counter to this pull-out direction. When the connector plug is pulled in the direction of extraction, a tensile force transmitted to the at least one means can be deflected by the orientation of the means in such a way that the means is pressed against the connector plug, in particular against the contact pole of the connector plug to which the means is assigned, and so on can counteract a loosening of the connector plug from the mating connector.

The at least one means, for example the cutting edge already mentioned above, can be arranged or formed on a carrier, for example on a metal strip. The at least one mating contact pole can be or can be connected to an electrical conductor. In connection with the aforementioned pull-out protection, it can be advantageous if the carrier is aligned obliquely to the pull-out direction and/or counter to the pull-out direction that the mating connector can define for the connector plug. The carrier oriented obliquely to the pull-out direction can span an acute angle with the pull-out direction. In order to provide protection against being pulled out, the at least one means, in particular the cutting edge, can run in a plane oriented transversely or at right angles to the direction of extraction and can therefore be oriented transversely or at right angles to the direction of extraction.

The mating connector can be designed as a socket. The pull-out direction mentioned above can be aligned in the direction of the course of a longitudinal axis of the plug socket. The mating connector can, especially if it is used as a socket is designed to be part of an electromedical pulse generator, for example a pacemaker.

To solve the problem, an electromedical pulse generator, for example a pacemaker, with at least one mating connector according to one of the claims directed to such a device and/or with at least one connector plug according to one of the claims directed to such a device is also proposed.

To solve the problem, an electromedical electrode with a connection plug and/or a mating plug according to one of the preceding claims is also proposed.

Furthermore, to solve the problem, an electromedical plug-in connection is also proposed, which has a connecting plug and a mating plug, each according to one of the preceding claims.

The invention is based on

Embodiments described in more detail, but is not limited to these embodiments. Further exemplary embodiments are obtained by combining the features of individual or multiple claims with one another and/or by combining individual or multiple features of the exemplary embodiments.

Show it:

1 shows a proximal section of an electromedical

Electrode with a connector plug on which a total of five contact poles designed as ring contacts are formed,

FIG. 2 shows the electromedical device shown in FIG Electrode with its connector plug, with all contact poles of the connector plug being coated with a non-conductive protective layer,

3 shows a perspective representation of an electromedical plug-in connection comprising a connecting plug, as shown in FIGS. 1 and 2, and a mating plug designed to correspond thereto, which has a total of five mating contact poles with means for at least partially local opening of those covering the contact poles of the connecting plug, has non-conductive protective layer.

4 shows a perspective view of a mating contact of a further mating connector, which, as a means for fixing a connector plug as shown in FIGS. 1 to 3, has a fastening screw and as a means for at least partially opening the non-conductive protective layer locally

connector plug has a cup point at the screw-in end of the fastening screw,

Fig. 5 shows an exploded view of the mating contact shown in Fig. 4,

6 shows a perspective representation of parts of an electromedical plug connection, which comprises a connector plug and a mating connector, wherein contact poles of the connector plug are shown in the connection position on mating contact poles of the mating connector and each contact pole of the connector plug is connected to an electrical conductor, 7 shows a further perspective representation of the parts of the plug connection shown in FIG

8 shows a perspective view of a further plug connection comprising a mating connector and a connector plug connected to the mating connector,

9 shows a perspective representation of a further embodiment of a connector plug with contact poles with a rectangular cross section, by means of which the connector plug can be secured against rotation, for example on a mating connector shown in the previous figures, and

10 shows a schematic representation of an electromedical pulse generator with an electromedical electrode which is connected to the pulse generator via a plug-in connection according to the invention.

In the following description of different embodiments of the invention, elements that are the same in terms of their function are given the same reference numbers, even if they are designed or shaped differently

1 to 3 and FIGS. 6 to 10 show different embodiments of connector plugs denoted as a whole by 1 .

1 to 3 show a connector plug, designated as a whole by 1, which is connected at one end, for example an end, which is distal from a patient's point of view, of an electromedical electrode 2 . The connector plug 1 includes a total of five contact poles 3. According to FIG. The connector plugs 1 shown in the other figures are also constructed according to this concept.

The protective layer 4 covers the contact poles 3 completely. The contact poles 3 of the connector plug 1 are electrically insulated by the protective layer 4 as long as the protective layer 4 in the area of the contact poles 3 is not yet at least partially open locally. In this way, accidental contacting of the contact poles 3 is avoided. The protective layer 4 covering the contact poles 3 is a polymer layer. The protective layer 4 thus acts as protection against accidental contact for the contact poles 3.

The contact poles 3 of the connector plug 1 are ring-shaped contact poles formed by contact rings.

The contact poles 3 of the connector plug 1 are axially spaced from one another with respect to a longitudinal axis of the connector plug 1 and are uniformly distributed in one area.

3 shows a mating connector 5 that matches the connector plug 1 . The mating connector 5 has a total of five mating contact poles 6 that match the contact poles 3 of the connector plug 1 . At least one means 7 for at least partially local opening of the non-conductive protective layer 4 of the contact poles 3 of the connector plug 1 is assigned to each of the mating contact poles 6 . Fig. 3 makes it clear that the mating connector 5 is set up by the means 7 for at least partially local opening of the protective layer 4 on the contact poles 3 of the connector plug 1 when connecting the connector plug 1 to the mating connector 5 an electrical contact between the contact poles 3 of the connector plug 1 and the mating contact poles 6 of the mating connector 5 to produce.

The means 7 for at least partially opening the protective layer 4 locally on the contact poles 3 of the connector plug 1 are cutting edges. In the one shown in FIG

This exemplary embodiment of the mating connector 5 has a total of five cutting contacts 8 . A mating contact pole 6 and at least one means 7 for at least partially local opening of the non-conductive protective layer 4 of the contact poles 3 of the connector plug 1 are formed or arranged on each of the cutting contacts 8 .

3 shows how the means 7, which are in the form of cutting edges, are cut into the protective layer 4 at the cutting contacts 8, which covers the contact poles 3 of the connector plug 1. FIG.

The cutting contacts 8 each have a pair of arms 9 on which the means 7 are designed in the form of blades. The arms 9 of a cutting contact 8 are at a distance from one another such that the means 7, here the cutting edges, reach the position shown in FIG. In the process, the means 7 come into contact with the contact poles 3, as a result of which the desired electrical contact between the mating contact poles 6 and the contact poles 3 of the connector plug 1 is ultimately established. 4 and 5 show a mating contact 10 of a further mating connector 5, which is also designed to correspond to the connector plug 1 of FIGS. 1 to 3. This mating contact 10 also has a mating contact pole 6 and a means 7 for at least partially locally opening the protective layer 4 of the connector plug 1, which covers the contact poles 3 of the connector plug 1.

The mating contact 10 is provided with a fastening screw in the form of a grub screw 11 on which the mating contact pole 6 and the means 7 for at least partially local opening of the protective layer 4 in the form of a cup point 12 are formed.

To connect the connector plug 1 to the mating connector 5 provided with the mating contact 10, the connector plug 1 is pushed through an opening 13 of the mating contact 10, shown in Figs. 4 and 5, until the connector plug 1 has one of its contact poles 3 in the area of the mating contact pole 6 arrives, which is formed on the mating contact 10.

In this position, the fastening screw 11 is screwed against the contact pole 3 located in the opening 13, with the cup point 12 of the fastening screw 11 cutting through the protective layer 4 until it comes into direct contact with the contact pole 3 of the connector plug 1.

With the help of the fastening screw 11, the connector plug 1 is thus not only fixed to the mating contact 10 and thereby at least indirectly also to the mating connector 5, but also the protective layer 4, which covers the contact pole 3, is at least partially opened locally in such a way that an electrical contact between to the Mating contact pole 6 and the contact pole 3 of the connector plug 1 is produced.

3 shows that the mating connector 5 has a number of mating contact poles 6 and means 7 for at least partially opening the protective layer 4 locally, which corresponds to the number of contact poles 3 of the connector plug 1 .

According to FIG. 3, the mating connector 5 has a total of five mating contact poles 6 spaced axially from one another. The connection plug 1 and the corresponding mating plug 5 together form an electromedical plug connection 14. Such a plug connection 14 is also shown in FIG.

The previous explanations in relation to the connector plug 1 shown in FIGS. 1-3 can be transferred to the connector plug 1 shown in FIGS. 6-10.

FIG. 6 makes it clear that the contact poles 3 of the connector plug 1 shown there are each connected to an electrical conductor 15 and are each covered with an electrically non-conductive protective layer 4 . The protective layer 4 on the contact poles 3 acts as protection against accidental contact and prevents the unintentional introduction of impulses into the conductor 15 of an electromedical electrode 2 connected to the contact poles 3 . The conductors 15 of the electrode 2 are connected to the contact poles 3 of the connector plug 1 and are themselves designed as stranded wires provided with insulation.

On their side 16 facing away from the protective layer 4 , the contact poles 3 each have a connection interface 17 for connection to the electrical conductors 15 of the electromedical electrode 2 . For example the contact poles 3 shown in FIG. 6 are connected to the electrical conductors 15 via their connection interfaces 17 on the side 16 facing away from the protective layer 4 . At the front, the contact poles 3 are covered with the protective layer 4 already mentioned above. The protective layer 4 can also be opened locally in this exemplary embodiment of the connector plug 1 using the means 7 of the mating connector 5 in order to establish electrical contact between the contact poles 3 of the connector plug 1 and the corresponding mating contact poles 6 of the mating connector 5 . This happens automatically when the connector plug 1 is brought into its connection position on the mating connector 5 shown in FIGS.

The connector plugs shown in FIGS. 1-3 and 6-8 have contact poles 3 which are not only ring-shaped but also circular in cross-section. These contact poles 3 have a cylindrical outer contour.

The connector plug 1 shown in Figure 9, which also has a total of five contact poles 3, which are covered on the outside with an insulating protective layer 4, has a rectangular cross section and accordingly has contact poles 3 with a rectangular cross section. The configuration of the contact poles 3 with a rectangular cross section allows protection against rotation 9 can be connected to the mating contact poles 6 of the mating connector 5 shown in FIG.

The mating contact poles 6 of the mating connector 5 shown in FIGS. 6, 7 and 8 are formed on the arms 9 of the U-shaped cutting contacts 8 . Each cutting contact 8 has three means 7 each, namely cutting, for the local opening of the protective layer 4 on the contact poles 3. In this way it is possible to insert the connector plug 1 shown in the figures between the arms 9 of the cutting contacts 8, as a result of which the means 7, namely the cutting edges of the cutting contacts 8, cut into the protective layer 4 on the contact poles 3, the protective layer 4 doing this open at least locally and make electrical contact with the contact poles 3 .

The mating connectors 5 shown in FIGS. 3-10 have a pull-out protection 18 for one with the respective mating connector

5 connected connector plug 1 on.

The means 7, namely the aforementioned cutting edges of the mating connector 5, can provide a pull-out safeguard 18 of the mating connector 5 for a connector plug 1 connected to the mating connector 5.

In the mating connector 5 shown in FIGS. 6-8, the means 7, namely the cutters, are arranged or formed on a free end of a carrier 19, namely a metal strip. The supports 19 are bent from the arms 9 of the cutting contacts 8 of the mating connector 5 shown in Figures 6-8. In the mating connector 5 shown in FIG. 6, the means 7 and the supports 19 are oriented in the direction of a pull-out direction 20 defined by the mating connector 5 and its cutting contacts 8 .

Fig. 7 shows the mating connector 5 in a comparison to Fig.

6 rotated by 180° relative to the connector plug 1 orientation. The carrier 19 and the means 7, namely the cutting edges of the cutting contacts 8, are recognizable here obliquely to and oriented counter to the pull-out direction 20 of the connector plug 1 from the mating connector 5 and clamp with the Extension direction 20 at an acute angle. In addition, the means 7, namely the cutters, also run in a plane oriented at right angles to the extension direction 20. When the connector plug 1 is pulled in the pull-out direction 20, a tensile force transmitted to the means 7 can be deflected due to the orientation of the means 7 in such a way that the means 7 are pressed against the connector plug 1, namely against its contact poles 3, serving as a pull-out safeguard 18 and counteract a loosening of the connection plug 1 from the mating plug 5 . The provided on the carriers 19 means 7 then act as barbs that the

Hold connector 1 in connection position on mating connector 5.

In the embodiments of the mating connector 5, which are shown in Figures 3 to 5, the arms 9 of the cutting contacts 8 and the grub screw 11 act as a carrier 19 for the means 7. Each of the cutting contacts 8 shown in Figures 6-8 has respectively three funds 7 in the form of cutting up. Two of the means 7 are arranged on sides of the arms 9 of the cutting contacts 8 which are facing themselves. A third means 7 is arranged on a connecting section of the respective cutting contact 8, which connects the two arms 9 to one another.

FIG. 8 of an electromedical plug connection 14 makes it clear that the contact poles 6 of the mating plug 5 are also connected to at least one electrical conductor 15 each.

FIG. 10 shows an electromedical pulse generator 21 which has a mating connector 5 according to the invention in the form of a socket. About the mating connector 5 equipped with a matching connector 1 electromedical electrode 2 to the electromedical Pulse generator 21 are connected. The electromedical pulse generator 21 can, for example, be a pacemaker, for example a cardiac pacemaker. The electromedical electrode 2 shown in FIG. 10 has a connector plug 1 at one end, which can be referred to as the distal end of the electrode 2 from the perspective of the patient and as the proximal end of the electrode 2 from the perspective of the pulse generator 21 . The contact poles 3 of the connector plug 1 are each connected to an electrical conductor 15 of the electrode 2 .

The invention addresses improvements in the technical field of electromedical connectors. For this purpose, a connection plug 1 for an electromedical electrode 2 is proposed, among other things, which has at least one contact pole 3, which is coated with a non-conductive protective layer 4 that can be at least partially opened locally.

/ List of References

Reference List

1 connector plug

2 electromedical electrode 3 contact pin

4 protective layer

5 mating connector

6 mating contact poles

7 means for at least partial local opening of 4 8 cutting contact

9 arms of 8

10 counter contact 9

11 Fixing screw / grub screw

12 cup point 13 opening of 10

14 electromedical connector

15 electrical conductors

16 the protective layer 4 facing away from 3

17 connection interface 18 pull-out protection

19 carriers

20 pull-out direction

21 electromedical pulse generator

/ Expectations

Claims

Expectations

1. Connector plug (1) for an electromedical electrode

(2) with at least one contact pole (3), characterized in that the at least one contact pole (3) is coated with a locally at least partially openable, non-conductive protective layer (4).

2. Connection plug (1) according to claim 1, wherein the protective layer (4) is a protection against accidental contact of the at least one contact pole (3) and/or wherein the protective layer (4) covers the at least one contact pole (3) at least to the extent that protection against accidental contact of the at least one contact pole (3) is ensured, or wherein the protective layer (4) completely covers the at least one contact pole (3).

3. Connection plug (1) according to claim 1 or 2, wherein the at least one contact pole (3) is electrically insulated by the protective layer (4) and/or wherein the protective layer (4) is a polymer layer covering the at least one contact pole (3).

4. Connection plug (1) according to any one of the preceding claims, wherein the at least one contact pole (3) is annular.

5. Connector plug (1) according to one of the preceding claims, wherein the connector plug (1) has at least two, preferably several, axially spaced contact poles (3).

6. Connector plug (1) according to any one of the preceding claims, wherein the at least one contact pole (3) with an electrical conductor (15), in particular one electromedical electrode (2), connectable or connected.

7. Connection plug (1) according to one of the preceding claims, wherein the at least one contact pole (3) on a side (16) facing away from the protective layer (4) has a connection interface (17) for connection to an electrical conductor (15), in particular an electromedical Electrode (2) has.

8. Connection plug (1) according to one of the preceding claims, wherein the at least one contact pole (3) has a round, preferably circular, or an angular, in particular a rectangular, cross section.

9. Mating connector (5), in particular for a connector according to any one of the preceding claims, wherein the mating connector (5) has at least one mating contact pole (6) and at least one

Means (7) for at least partial local opening of a non-conductive protective layer (4) of a contact pole (3) of the connector plug (1) are assigned in order to establish an electrical contact between the at least to produce a contact pole (3) of the connecting plug (1) and the at least one mating contact pole (6) of the mating plug (5).

10. Mating connector (5) according to the preceding claim, wherein the at least one means (7) is a cutting edge.

11. Mating connector (5) according to one of the preceding claims, wherein the mating connector (5) has at least one cutting contact (8) on which a mating contact pole (6) and a means (7) for at least partial local opening of a non-conductive protective layer ( 4) a contact pole (3) of Connection plug (1) are formed or arranged.

12. Mating connector (5) according to one of the preceding claims, wherein the at least one means (7) is a cup point (12), in particular on a fastening screw (11) of the mating connector (5) for the connector plug (1) is formed.

13. Mating connector (5) according to one of the preceding claims, wherein the mating connector (5) has a number of mating contact poles (6) and/or means (7) for at least partial local opening of the protective layer (4) which have a number of contact poles ( 3) of the connector plug (1).

14. Mating connector (5) according to one of the preceding claims, wherein the mating connector (5) has at least two, in particular several, for example axially spaced apart, mating contact poles (6).

15. Mating connector (5) according to one of the preceding claims, wherein the mating connector (5) has a pull-out protection (18) for one with the mating connector (5) connected to the connector (1).

16. Mating connector (5) according to one of the preceding claims, wherein the at least one means (7), in particular the at least one cutting edge, a pull-out protection (18) of the mating connector (5) for one connected to the mating connector (5).

Connection plug (1), in particular wherein the at least one means (7) is oriented transversely or at right angles to a pull-out direction (20) defined by the mating plug (5).

17. Mating connector (5) according to any one of the preceding claims, wherein the at least one means (7), in particular the at least a cutting edge is arranged or formed on a carrier (19), for example on a sheet metal strip or on a grub screw (11).

18. Mating connector (5) according to one of the preceding claims, wherein the at least one mating contact pole (6) can be connected or is connected to an electrical conductor (15).

19. Electromedical pulse generator (21), with at least one mating connector (5) and/or with at least one connector plug (1) according to one of the preceding claims.

20. Electromedical electrode (2) with a connector plug (1) and/or a mating connector (5) according to one of the preceding claims.

21. Electromedical electrode (2) according to the preceding claim, wherein at least one contact pole (3) of the connector plug (1) and/or at least one counter-contact pole (6) of the counter-plug (5) is connected to an electrical conductor (15), in particular the electrode ( 2), is connected.

22. Electromedical connector (14) with a connector plug (1) and a mating connector (5) according to one of the preceding claims.

/ Summary