DE1939523B1 - Suction electrode device for electrical medical devices - Google Patents

Description

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The invention relates to a suction electrode device which requires considerable technical effort makes it manoeuvrable for electromedical devices for therapy.

or diagnostics with at least one by sub- The invention is based on the object of a

pressure using an electrically conductive suction electrode device having at least one Contact liquid to be applied suction electrode, 5 suction electrode of the type mentioned so ausdie a suction connected to a suction pump, that electrical shunts through Konglocke having. accumulation of tact fluid in the hose line

Such a suction electrode device is to be avoided from gene and via the suction pump, the German Auslegeschrift 1 224 847 known. This object is achieved according to the invention

Such suction electrode devices are released so that the suction pump is electrically isolated In therapy as well as in diagnostics, compressed gas used as a blasting agent is used. The electrodes fulfill the task of the pump, their vacuum chamber with the interior the human or animal body is either connected to the suction cup, and that the supply electrical power or the bioelek jet pump has a free-flowing outlet, Irish action potentials, such as B. in the case of 15 through the electrocardiograph from the suction cup and the like, contact men sucked off the body and carried along by the blasting agent. The formation of the electrodes as suction electrostatic fluid is freely sprayed.

the simplifies the application technology of the electrical The result is an accumulation of from the

the. In simple devices, rubber balls, suction cups, are known for sucked-in contact liquid in a negative pressure that produces the desired suction adhesion of the electrical shunts and electrodes. Such an amount is no longer possible because the contact liquid rubber balls inevitably lose, as far as they are sucked in, immediately with the compressible leaks in a short time that the adhesion gas is sprayed at the outlet of the jet pump and the negative pressure ensuring that they are only there cannot form an electrical bridge, although im usable for a short time. This disadvantage can be avoided electrically in a simple manner, for the rest of the jet pump, that the suction electrodes can be arranged unearthed,
Potential suction pumps can be connected upstream, although there is the possibility of using the suction electrode

in order to arrange the negative pressure in the - separately from the jet pump for any length of time, while maintaining the suction electrode and thus guaranteeing one of the reasons mentioned above, for example in the assured suction adhesion. Such suction guide hose between the electrode and the suction pump electrodes do not interfere with the aforementioned collecting contact liquid, for example, but German Auslegeschrift 1 224 847 is known. In the preferred embodiment of the suction cup according to the invention of these known suction electrodes, a suction electrode device is arranged with an electrode plate, which is characterized by the fact that the jet pump has holes leading to the suction pressure chamber and connected to an electric bell to form a structural unit is. The actual connection line of the suction electrode is particularly expedient to lay the jet pump in the suction supply hose to a suction pump. bell arranged itself. In this embodiment, however, these known devices have a suction cup with the electro-medical major technical disadvantage because the supply hose connecting the device no longer makes contact between the electrode and the suction line, but a pressure line through human or animal bodies necessary that the press gas is fed to the jet pump, electrically conductive contact liquid inevitably. Any contact liquid sucked in by the suction pump can therefore never be sucked through the feed hose against the flow in the feed hose, which means that the contact liquid flows in the direction of the press gas in the electro-media supply hose and in the feed hose at ground potential 45 Device and collects suction pump lying there to shunts and leads to an elec- tric. It is therefore recommended in a further Ausirischen shunt leads to the measure of an electrical ohmic electrical input connected in parallel, especially when the Saugelekdiagnostischen devices having the invention are formed, the usually very high-electrode device, connecting line of the suction electrode in one connection and after a short operating time Reliable measurements 50 Lay the guide hose of the compressed gas to the jet pump to the usually very small bioelectrical action, which makes it impossible in itself for potentials serving as suction lines. Although it is known, supply hoses are already known, but there against this disadvantage with the help of liquid leads to the difficulties outlined above, separators proceed, which the suction pump upstream The compressed gas can be connected in various ways, but the technical effort 55 for example from compressors or pressure bottles, for electrically highly insulated liquids, whereby it is of course advisable to keep the pressure of the compressed gas on condensate very considerably when operating several suction electrons. In addition, such constant values need to be regulated in order to generate a constant liquid separator with a suitable drainage device - negative pressure in the suction bell,
services and related maintenance. From a constructional point of view, the invention can be The necessary suction pumps require a suction electrode device with regulators on a different mechanism that realizes the negative pressure within permissible limits. One particularly holds good. The supply of a large number of elec- trical embodiments is characterized in that an electrode plate is arranged in the suction bell approximately parallel to its adhesion. the one the side walls of the suction bell diametrically trode feed a defined negative pressure or carries for piercing metal pipe, in the cavity of which each electrode provides its own suction pump, - with an axial; Distance from each other two nozzles to

Formation of the jet pump are used and a suction opening in its pipe wall between the nozzles which communicates with the interior of the suction cup via a hole in the electrode plate stands.

Appropriately, a hose nipple can be screwed into the compressed gas inlet opening of the metal pipe, which carries the supply hose for the compressed gas and is connected to the electrical connection line is. The compressed gas outlet opening of the metal pipe and thus the outlet of the jet pump open into the free.

In the following, the suction electrode device having the invention is shown in the drawing illustrated embodiment explained in more detail; it shows

1 shows a longitudinal section through a suction electrode device having the invention,

Fig. 2 is a section in the direction II-II through the Item according to Fig. 1,

F i g. 3 shows a section in the direction III-III through the Item according to Fig. 1.

The figures show a suction electrode for electromedical applications to be applied by negative pressure Devices, especially for those medical devices that are used for diagnostics and which are bioelectrical Contact potentials of relatively small size dissipated from the human or animal body Need to become. For this purpose, the suction electrode in the exemplary embodiment consists of a suction bell acting electrode housing 1 made of elastically deformable material, for example rubber or an elastic plastic, which with its sealing lip 2 the shape of the human or animal Body creates a seal and so adheres to it when inside 3 of the electrode housing 1 Negative pressure is generated. The soaked with an electrically conductive contact liquid lays down Electrode sponge 4 against the human or animal body and causes the electrical Contact with the actual electrode plate 5, which is electrically connected via a line 12 to a suitable measuring input of the electromedical, not shown Device is connected. To generate the negative pressure in the electrode housing 1, the interior 3 of the electrode housing is connected to a suction pump, which as one with electrical insulating compressed gas is designed as a jet pump operated by blasting media. The negative pressure room (Nozzle 9) of this jet pump is in communication with the interior 3 of the electrode housing 1. The jet pump has a freely opening outlet 7, which is sucked out of the electrode housing 1 and from Contact liquid carried along by blasting media is sprayed into the open atmosphere.

In the exemplary embodiment, the jet pump is connected to the suction electrode to form a structural unit, namely arranged directly in the electrode housing 1 itself. The in the electrode housing contributes to this 1 held electrode plate 5 a the side walls of the electrode housing 1 diametrically piercing Metal pipe 6, in the cavity of which two the jet pump are axially spaced from one another forming nozzle 9 and 10 are used. The nozzle 10 serves as a jet nozzle, the nozzle 9 as a vacuum chamber, while the relatively long outlet channel 8 of the pipe 6 acts as a silencer. In the pipe wall, a suction opening 16 is provided between the nozzles 9, 10, which via a hole 15 in the electrode plate S with the interior 3 of the electrode housing 1 is in communication. In the Compressed gas inlet opening of the metal pipe 6, a hose nipple 11 can be screwed into the feed hose 14 for the compressed gas on the thread 17 (FIG. 3) and the one with the electrical connection line 12 is connected. The metallic connection nipple 11 creates the electrical connection between the electrical connection line

12 over the tube 6 with the electrode plate 5. With

13 an electrical shielding of the electrical connection line 12 is indicated. Fig. 1 shows that the electrical connection line 12 of the electrode in the supply hose 14 of the compressed gas is relocated to the jet pump. The compressed gas, e.g. B. compressed air, can by a compressor or from a Compressed air bottles are supplied, with of course suitable pressure regulating devices

20 "are interposed to increase the pressure of the abrasive and thus to keep the negative pressure generated in the electrode housing 1 approximately constant. Of the to generate a sufficient negative pressure in the electrode housing 1 required compressed gas throughput in the jet pump is very low. For example, the jet nozzle 10 has only one nozzle diameter of about 0.25 mm.

The suction electrode does not have to have the structure shown in the exemplary embodiment with one of the electrode housing own separate electrode plate and an electrode sponge, it is rather also the possibility of forming the housing 1, which serves as a suction bell, itself as an electrode and for this purpose made of a suitable metal or other electrically conductive material.

Claims (6)

Patent claims: 1. Suction electrode device for electromedical devices for therapy or diagnostics with at least one by negative pressure using an electrically conductive contact liquid to be applied suction electrode, which has a suction bell connected to a suction pump has, characterized in, that the suction pump operated with an electrically insulating compressed gas as a blasting agent Jet pump (8, 9, 10), the vacuum chamber (9) of which is connected to the interior (3) of the suction bell (1) stands, and that the jet pump has a freely opening outlet (7) through which the contact liquid drawn in from the suction cup (1) and carried along by the blasting agent through it sprayed freely. 2. suction electrode device according to claim 1, characterized in that the jet pump (8, 9, 10) is connected to the suction bell to form a structural unit. 3. suction electrode device according to claim 2, characterized in that the jet pump (8, 9, 10) is arranged in the suction bell (1) itself. 4. Device according to one of claims 1 to 3, characterized in that an electrical Connection line (12) of the suction electrode in a supply hose (14) for the compressed gas Jet pump (8, 9, 10) is relocated. 5. Device according to one of claims 1 to 4, characterized in that in the suction bell (1) an electrode plate (5) is arranged approximately parallel to its opening plane, which a carries the side walls of the suction bell (1) diametrically piercing metal tube (6), in which Cavity with an axial distance from each other two nozzles (9, 10) are used to form the jet pump and which has a suction opening (16) in its pipe wall between the nozzles (9, 10), via a hole (15) in the electrode plate (5) with the inside (3) of the suction bell (1) communicates. 6. Device according to one of claims 1 to 5, characterized in that in the compressed gas inlet opening of the metal tube (6) a hose nipple (11) can be screwed in, which carries the supply hose (14) for the compressed gas and is connected to the electrical connection line (12). 1 sheet of drawings