DE2301519A1 - MAINS TRANSFORMER - Google Patents

Description

Mains transformer The invention relates to a mains transformer for use in electrical equipment such as television receivers, radios, tape recorders, Stereos and desktop electric calculators.

Used in the conventional network transformers for Western Europe electrical equipment must withstand the withstand voltages and creepage distances between the primary winding and the secondary winding, the secondary winding and the core and the core and the primary winding are more than 4 kV and more than 8 mm, respectively. With conventional power transformers, such as one Transformer, as described in D2-OS 21 04 421.3, are the ones mentioned above Requirements achieved by swiping a spacer open in the middle a pair of bobbins is set, on each of which the primary winding and secondary winding are wound up. Such a network transformer requires many components, which many Production steps. It is especially difficult with a smaller one Mains transformer to achieve a large creepage distance.

The aim of the invention is a network transformer that has the desired creepage distance and requires fewer components and fewer production steps.

The following are examples based on the accompanying drawing preferred embodiments of the invention explained in more detail.

Fig. 1 is a perspective view of a bobbin assembly; which is used in one embodiment of the mains transformer according to the invention will.

Fig. 2 is a plan view of this power transformer.

FIG. 3 is a perspective view of that shown in FIG Power transformer.

Figure 4 is a perspective view of a spool assembly another embodiment.

Figures 5d, 5B and 5O are perspective views of various spacers; which can be used in the bobbin arrangement shown in FIG.

The coil former arrangement of a power transformer shown in FIG. 1 has a bobbin 11 and a pair of insulating spacers 20 and 21 on. The bobbin 11 contains a hollow rectangular insulation body 12, a pair of outer isolation flanges 13 and 14, which are in one piece on the opposite Ends of the body 12 are formed, and an insulating separator 17, which in is formed in one piece at the central portion of the body 12. The separator .has grooves 15 and 16, which are in a group opposite end faces are designed to divide the end faces into two sections. Primary- and secondary windings 18 and 19 are on the body 12 between the separator 17 and each of the paired flanges 13 and 14 each wound up. the spacers 20 and 21 arranged in pairs have spacers 22 and 23 and Cover plates 20a and 21a. When the paired spacers 20 and 21 are attached to the opposite sides of the bobbin 11, are the Spacer members 22 and 23 each inserted into the grooves 15 and 16 and the cover plates 20a and 21a can cover the opposite sides of the bobbin 11. The cover plate can preferably have two flange sections at opposite ends have to closely cover the side of the bobbin. An egg-shaped core 24 is attached to the bobbin 11 (Fig. 2) and fastened by a frame 25, with which a complete network transformer (Fig. 3) is formed.

In the case of the mains transformer, the creepage distance is the distance between the opposite ends of the primary and secondary windings 18 and 19 received over the edge of the separator 17. Since the separator 17 is formed therein Grooves 15 and 16 have a creepage distance of the required length, for example more than 8 mm, easily achieved.

Conventional mains transformers have two separate bobbins used for the primary and secondary windings, whereas according to the invention the primary and secondary windings 18 and 19 are wound around a bobbin 11 reducing the number of components and production steps, which leads to lower costs.

Fig. 4 shows the bobbin assembly of another embodiment a network transformer. In this bobbin arrangement, the separator has 31 of the coil body 11 has a continuous groove 30 in the outer surface of the Edge is designed to divide this outer surface into two sections. A pair of spacers 32 and 33 mounted on the spool 11 include B-shaped cover plates 34 and L-shaped spacer members 35, which in one piece are attached to the cover plates. The spacers 35 are used to two portions of the end faces of the edge of the separator 31 in the same way as in the embodiment described above. The cover plate 34 has first and second deck sections 34a and 34b. The first deck section 34a has a width which is equal to the height of the bobbin 11 while the second deck section 34b has a width which is half as large as that of the first Deck section 34a is.

In order to have a long creepage distance in the bobbin shown in FIG To achieve this, it is necessary to match the size of the other group to the opposite To enlarge end faces that do not have a groove formed therein.

In this embodiment, however, a relatively long creepage distance is used obtained without difficulty with a small size transformer, since the groove 30 is formed in the entire circumferential surface of the separator 31. Furthermore Most of the side sections of the bobbin 11 are covered by the cover plates 34 and consequently the available section of the windings is reduced, which is high Security guaranteed.

In the above embodiments, the first and second Cover section 34a and 34b of different widths, but it is also possible the width of the cover sections 34a and 34b is equal to the height of the bobbin 11 (Fig. 5A).

In addition, in the spacers of FIGS. 4 and 5A, the Deck sections 34b extended in one or cross opposite directions to cover the side portions of the bobbin 11 effectively.

Claims (1)

Claims t Mains transformer with a primary winding, a secondary winding, a separator placed between the primary and secondary windings and a Core inserted into the primary and secondary windings, characterized in that that a bobbin around which the primary and secondary windings are wound, a hollow rectangular insulating body and a pair of outer insulating bodies Has flanges formed in one piece at opposite ends of the hollow rectangular insulating body are attached, and the separator in one piece attached to the hollow rectangular insulating body between the pair of flanges is and has grooves in at least one group of the opposing End faces are formed around these end faces in two sections to subdivide. 2. Mains transformer according to claim 1, characterized by a pair insulating spacers, each of which has a spacer that extends into the Groove is inserted. 5. Mains transformer according to claim 1, characterized in that the separator has a continuous groove in the entire circumferential surface is designed to divide this peripheral surface into two sections and further a pair of insulating spacers are provided, each of which is an L-shaped Spacer that is inserted into the groove and has an L-shaped cover plate, to cover the side gates of the bobbin. L e r s e i t e