BACKGROUND OF THE INVENTIONThe present invention relates to an electro-medical electrode comprising a plate-shaped part having a portion for establishing contact with the skin of a patient, a flange part connected with the plate-shaped part, snap connecting means provided on said flange part and including a stud portion for establishing connection to a lead wire connector means of a measuring apparatus, a base portion formed integrally with the stud portion, and fastening means for fastening the snap connecting means to the electrode, said snap connecting means being positioned at a distance from the skin contact establishing portion, and a conductive area extending between said skin contact establishing portion and the snap connecting means.[0001]
Electrodes establishing electrical contact between the skin of a patient and measuring apparatus are well-known in the art, and are e.g. used for measuring electrical signals generated in or by the body. For instance, the functions of the heart may be registered by recording the signals of the heart on an electrocardiogram (ECG).[0002]
The connection between the electrode and the measuring apparatus is provided by means of a lead wire having at one end a connector means which is coupled to the electrode in a suitable manner, most often by a snap connecting means fastened to the electrode.[0003]
One example of an electrode having a snap connecting means which is offset from the skin contact establishing portion of the electrode is disclosed in EP patent No. 0 210 184. The snap connecting means of the electrode of this document is a two-piece construction in which a pin part comprising the stud and base portions is connected with a fastening means in the form of a rivet. During assembly of the electrode, the pin part and the rivet are placed on a respective side of the flange part of the electrode and are subsequently driven into interlocking engagement with each other. As both of these parts, i.e. the pin part and the fastening means are formed of an electrically conductive material, the electrical contact between the conductive area and the stud portion is established by this engagement. Due to the material consumption and the assembly operation required, the production costs are, however, undesirably high.[0004]
SUMMARY OF THE INVENTIONWith this background it is an object of the present invention to provide an electrode which is simple and inexpensive to produce, and which at the same time provides for a secure fastening of the snap connecting means and good electrical contact between the conductive area and the stud portion.[0005]
This object is met by an electrode of the initially stated kind which is characterized in that the fastening means of said snap connecting means is formed integrally with the base portion and comprises a plurality of legs which protrude from said base portion, and that said legs are folded to a position in which they abut against said conductive area.[0006]
By forming the fastening means integrally with the remaining portions of the snap connecting means, the material required is substantially reduced and the production costs are thus reduced. A safe fastening of the snap connecting means is provided by the folded legs, and the good electrical contact is provided by the abutment of the legs against the conductive area.[0007]
In a preferred embodiment, the legs are folded to a position in which the flange part and the conductive area are sandwiched between the base portion and the legs. In this way, it is by folding the legs possible to squeeze the flange part and the conductive area situated between the base portion and the legs, whereby a higher contact pressure and consequently a better electrical conductivity between the legs and the conductive area are obtained.[0008]
In an advantageous embodiment of the invention, the legs are folded away from each other to the position in which they abut the conductive area. In this manner, the contact points between the snap connecting means and the flange part with the conductive area are spread over a larger area. Further, it is possible to obtain a larger contact area by folding the legs outwards instead of inwards. Consequently, a more stable attachment of the snap connecting means to the electrode can be achieved. As a result, the snap connecting means is more resistant against impacts during handling of the electrode, for instance when the wire connected to the snap connecting means is pulled in different directions. Thereby a good electrical contact between the snap connecting means and the conductive area is ensured.[0009]
In an advantageous embodiment very simple to manufacture, the snap connecting means is punched out of a thin sheet material.[0010]
In an embodiment of the invention, flaps punched out of the sheet material and pointing away from each other are bent at a first position in a direction towards each other to form a double layer of the sheet material, said double layer forming part of the base portion, and the flaps are bent at a second position in a direction pointing away from the base portion to form the legs. In this way, it is in the form of the double layer of sheet material possible by simple punching and bending operations to obtain an outwardly protruding part of the base portion corresponding to each leg, so that the leg may be folded outwards to jam the flange part and the conductive area of the electrode between said part of the base portion and the leg.[0011]
In another embodiment, flaps punched out of the sheet material between remaining parts of the sheet material and pointing away from each other are bent in a direction pointing away from the base portion to form the legs, and said remaining parts of the sheet material form part of the base portion. This embodiment is very simple to manufacture, as only one punching operation and one bending operation are necessary. If the flange part is rather stiff, it may be jammed between the legs and said remaining parts of the sheet material.[0012]
If however, the flange part is flexible, advantageously parts of the sheet material forming the base portion are bent to form a double layer of the sheet material and to cover at least partially the holes in the base portion resulting from the punched out flaps. The sheet material covering said holes form an abutment, against which the flange part may be squeezed by the legs and thereby be secured firmly.[0013]
In yet another embodiment, the legs are folded-in to a position in which they abut said conductive area, whereby very little material is used.[0014]
Two legs may be provided which are positioned substantially diametrically opposite each other.[0015]
Advantageously, three or four legs are provided which in their folded positions are pointing in directions intersecting substantially at equal angles. This enhances the stability of the fastening means.[0016]
Each of said legs may be inserted through a separate corresponding punched hole in the flange part of the electrode, whereby a minimum of material is cut out of the flange part, ensuring stability of this.[0017]
In an advantageous embodiment very simple to manufacture, all of said legs are inserted through one single punched hole in the flange part of the electrode. The insertion of all the legs in only one hole may be easier, especially if the legs are inclined towards each other.[0018]
In a further advantageous embodiment, the single punched hole in the flange part has the shape of a polygon and has a straight side corresponding to each leg, respectively. This further enhances the stability of the fastening, as the legs may abut the edges of the hole.[0019]
Advantageously, edges of the legs and/or edges of the base portion are provided with teeth for better grip. The teeth may be directed towards the flange part in the mounted position of the snap connecting means on the flange part.[0020]
The invention also relates to a method of manufacturing a snap connector for fastening on a flange part of an electro-medical electrode for establishing electrical contact between a wire and a conductive area on the electrode. According to the invention, the method is characterized by punching out the snap connector of one single piece of sheet metal, whereby a substantially ball-shaped upper stud portion is formed for connection with the wire, and by punching out flaps to be folded as legs for fastening the connector to the flange part of the electrode. In this way, the above advantages are obtained.[0021]
The invention further relates to a method of fastening a snap connector on a flange part of an electro-medical electrode for establishing electrical contact between a wire and a conductive area on the electrode. According to the invention, the method is characterized by introducing legs of the snap connector in one or more holes in the flange part of the electrode, and by bending the legs to abut the conductive area on the electrode.[0022]