DE9203918U1 - Safety transformer - Google Patents

Description

Safety transformer

The invention relates to a safety transformer in accordance with the European standard EN 60742 or VDE 0551, in particular one that passes test 26.3 of EN 60472 page 57 and does not act as an ignition source for the environment in the event of failure. This test is intended to prove that insulating parts that keep live parts in place do not act as an ignition source for the environment, even in the event of abnormal heat or fire caused by overload as a result of a fault in the transformer. To do this, any protective devices and fuses that may be present are bridged, the output winding is short-circuited and the input winding is fed with the highest nominal input voltage. The transformer must fail without flames or molten material escaping.

Safety transformers with an arrangement of various insulation bodies of the coil body on a plastic basis by casting the entire transformer in a wide variety of designs and materials are known to date. These arrangements cannot be produced without increasing the spatial size of the entire transformer. The disadvantage that this results in is that with the current arrangement, an increase in the spatial size of the entire transformer is unavoidable.

The invention specified in claim 1 is based on the object of creating a safety transformer which, without increasing its installation dimensions and without a total enclosure, can withstand the test mentioned without becoming an ignition source. '■- ' ^: -"~ ^: '''\- ¹

This problem is solved by the measures of claim 1. Surprisingly, it was found in experiments that, despite the many known arrangements of plastics around the coil body by casting, an arrangement of glass fiber reinforced thermoplastics by injection molding around the coil body is sufficient to withstand the above-mentioned test without becoming an ignition source. This achieves flame resistance in the event of a short circuit.

An embodiment of the invention is explained using Figure 1. It shows:

Figure 1: Safety transformer - schematic diagram

The safety transformer is shown in Figure 1. The winding is first soldered to the solder lugs of the primary coil body. The wound and connected coil body is placed in an injection molding tool or pressing tool. In this tool, the insulation material is arranged around the primary coil body in the usual way by injection molding or pressing. In the application example, PA 6 GF 30 is used for this. The primary coil body provided with insulation material is then completed in the conventional way and packaged to form the transformer. Of course, it is also possible to arrange the insulation material around the primary and secondary coil bodies. In our experience, however, the insulation material arrangement on the primary coil body is completely sufficient to pass the VDE test 0551 and to receive the certificate.

Claims (5)

&bgr;#&bgr; * IS) · O * "Safety Transformer" CLAIM 1. Safety transformer characterized in that an insulating material is arranged only around the coil body by injection molding or pressing. 2. Safety transformer according to claim 1, characterized in that glass fiber reinforced injection moldable plastics, preferably polyamide 6 with 30% by weight glass fiber content, are arranged as the insulation material. 3. Safety transformer according to claim 1 and 2, characterized in that the insulating material is a black-colored thermoplastic or duroplastic plastic for better heat radiation. 4. Safety transformer according to one of claims 1 to 3 characterized in that the insulating material is only arranged around the primary coil body. 5. Safety transformer according to one of claims 1 to 4 characterized in that the insulating material is simultaneously arranged as contact protection.