DE3228143A1 - Suction electrode - Google Patents

Abstract

The invention describes a suction electrode for treatment with stimulating current which comprises a bell-shaped housing provided with a central suction line and consisting of an elastic, electrically non-conductive material, and which contains a layer arranged so as to adjoin the adhesive edge of the housing and made of sponge or similar absorbent material and above which an electrode plate is arranged, the top side of which is at a distance from the opening of the suction line. The bottom and an adjoining side region of the housing are reinforced in such a way that the remaining cavity adjoining the bottom when the housing interior is evacuated is a multiple of the volume of the maximum amount of water absorbable by the layer. The opening of the suction line is arranged inside a central volume range of the cavity enclosing half the distance in such a way that the water level of the amount of partly or wholly squeezed-out water does not reach the opening in any application position of the suction electrode.

Description

Suction electrode

The invention relates to a suction electrode for stimulation current treatment according to the preamble of claim 1.

In known suction electrodes of this type (DE-PS 1 224 847 and 1 184 831) a connection piece is arranged in the center of the base of the bell housing, which limits the axially extending suction line. Those made of metal, graphite or electric Electrode plate made of conductive plastic has air passage openings on. The underlying layer of absorbent material can be made of sponge, open-pored Foam or be made of a textile, so that this layer with Water can be soaked through which the layer becomes electrically conductive. This results in a more even distribution of the current density in the patient's skin achieved in comparison to direct application of the electrode plate on the patient's skin. On the other hand, this water-soaked layer prevents a burn of the skin between the electrode plate and the patient's skin due to electrolytic effects at the interface between the electrode plate and the skin of the patient by having this effect in the interface between the electrode plate and the water-soaked layer is relocated to which Boundary layer the electron conduction changes into an ion conduction, so that here chemically active electrolytes can arise.

In the practical application of such suction electrodes, there is Difficulty that the water-soaked layer during application on the patient due to the negative pressure when evacuating the housing is so compressed, that the water is partially or completely squeezed out of the layer and passes various components of the suction device via the suction duct, so that, for example, provided throttle valves or solenoid valves are contaminated and sooner or later signs of corrosion can be caused. aside from that it is problematic that the water from the layer between during the treatment the electrode plate and the patient's skin is suctioned off, so that this layer dries out, so that the mentioned purpose of the layer is lost or at least is affected. That which reaches the suction device via the suction line Water must also be removed from the suction device again, for which in known Suction devices special water separators are provided that are proportionate need to be emptied frequently.

It is therefore the object of the invention to provide a suction electrode of the initially mentioned mentioned type while avoiding the disadvantages mentioned as far as possible and Difficulties to improve so that the leakage of water in the suction device is prevented as much as possible, so that even with a longer treatment period a sufficient amount of water in the suction electrode to soak the layer is available. In the case of a suction electrode, this task becomes the one mentioned at the beginning Type solved according to the invention by the subject matter of claim 1. Beneficial Further developments of the invention are the subject of the subclaims.

Sufficient stiffening of the bottom area of the housing can with such a suction electrode by sufficient reinforcement of the elastic Material can be made in this area, and / or through the use of a support structure as a spacer between the floor and the electrode plate. Since the mouth at least near the axis of the housing and about midway through the distance between the Housing and the electrode plate is provided, can be squeezed out water at most if the suction electrode has been shaken into the suction line becomes, but this is not the case with normal use of such a suction electrode occurs. Preferably, the electrode plate leaves one in communication with the cavity standing edge area on the surface of the layer free, thus squeezed out Water can get back into the absorbent layer to a sufficient extent. This is particularly advantageous when using the suction electrode for a suction massage, because with known suction electrodes the water is caused by the pulsation of the negative pressure is withdrawn relatively quickly through the suction line.

The invention is to be explained in more detail, for example, with the aid of the drawing will. 1 shows a sectional view of a suction electrode according to the invention; and FIG. 2 shows four different application positions of the suction electrode in FIG. 1.

The suction electrode shown in Fig. 1 consists of a bell-shaped Housing / made of elastic, electrically non-conductive material. The bottom 7 and a adjoining side area of the housing 1 are stiffened in such a way that when evacuated Housing interior the remaining cavity adjoining the bottom 7 is a water trap forms and a multiple of the volume of the maximum absorbable by a layer 3 Water quantity9.

The layer 3 is arranged under an electrode plate 2.

The layer 3 and the electrode plate 2 have a circular shape Cross-section and are arranged coaxially to the axis of the housing 1. The diameter of the electrode plates 2 is smaller than that - of the layer 3, so that one with the cavity 6 in connection with the edge region 15 on the surface of the layer 3 is exposed. This ensures that in most application layers 10-12 (Fig. 2) the amount of water squeezed out of the layer 3 in contact with the edge area 15 can reach so that it can be absorbed again by the layer.

In the illustrated embodiment, there is also a support structure 14 is provided as a spacer between the bottom 7 and the electrode plate 2 is arranged. As can be seen from FIG. 1, the support structure 14 has the outside of the housing 1 has a tapered connection piece and contains a suction line 4 extending in the axial direction, one leading to a mouth Has 5 leading radial end portion. A fastening sleeve can be attached to the base 7 17, which are located on an annular shoulder 18 on the support structure 14 supports. By forming a radial flange 19 in an annular groove in the Sleeve 17 sits, a reliable connection of the housing 1 with the support structure 14 can be achieved.

The mouth 5 of the suction line 4 is at a height which corresponds to half the distance D between the base 7 and the electrical end plate 2. Since the diameter of the support structure 14 in the region of the mouth 5 is small compared to the diameter of the housing 1, the mouth 5 of the suction line is located within a central, half the distance comprehensive volume range, so that the water level of the fully or partially squeezed out amount of water 9 (FIG. 2) in each application layer 10-13 of the suction electrode does not reach the mouth 5. With sufficient stiffening of the housing 1, however, it is also possible not to provide a support structure between the base 7 and the electrode plate 2, but only an axial suction line 4, at the lower end of which the mouth 5 is located. In no case can the water level of the total amount of water squeezed out rise so high that it reaches the mouth 5, as can best be seen in FIG.

Fig. 2 shows the arrangement of such a suction electrode on a Patients 8 in four spatial extremes 10, 11, 12 and 13, each with the out the amount of water 9 squeezed out of the layer 3 is shown. It can be seen from this that the suction electrode can be swiveled anywhere without the water can penetrate into the rounding 5 of the suction line 4.

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Claims (4)

Claims suction electrode for stimulation current treatment, consisting from a bell-shaped housing provided with a central suction line elastic, electrically non-conductive material, as well as with an adjacent to the adhesive edge of the housing arranged, with water-soaked layer of sponge or the like absorbent material over which an electrode plate is arranged is, the top of which is at a distance from the mouth of the suction line, d a -d u r c h e k e n n n z e i c h n e t that the bottom (7) and an adjacent one Side area of the housing (1) are stiffened in such a way that when the interior of the housing is evacuated the remaining cavity (6) adjacent to the floor is a multiple of the volume the maximum amount of water (9) that can be absorbed by the layer (3), and that it Mouth (5) of the suction line (4) within a central, half the distance (D / 2) comprehensive volume area of the cavity (6) is arranged such that the water level the partially or completely squeezed out amount of water (9) in each application position (10,13) of the suction electrode reaches the mouth. (5) does not reach. 2. suction electrode according to claim 1, d a d u r c h g e -k e n n z e i c h n e t that the suction line (4) is provided in a support structure (14) which arranged as a spacer between the bottom (7) and the electrode plate (2) is. 3. suction electrode according to claim 2, d a d u r c h g e -k e n n z e i c h n e t that the suction line running in the axial direction of the support structure (14) (4) has a radial end section leading to the mouth (5). 4. Suction electrode after one of the. preceding claims, d a d u It is noted that the electrode plate (2) is connected to the cavity (6) associated edge area (15) on the surface of the layer (3) releases.