DE8514824U1 - Electric capacitor that is built into a housing so that it cannot be shaken or twisted - Google Patents

Description

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Siemens Aktiengesellschaft Our symbol Berlin and Munich VPA 7 DE

85 P 1 3 0 3 DE

Electric capacitor that is built into a housing so that it cannot be shaken or twisted.

The invention relates to an electrical capacitor, in particular an end-contact wound capacitor, the Shake-proof and twist-proof is built into a housing, and with the outer capacitor through at least one Fastening part designed as a retaining plate or insulating cap by means of a fastening part attached to the housing wall Bead is fixed.

Electrical capacitors, especially power capacitors, are tightly installed in metal can housings, on the one hand, for example, to prevent an impregnation liquid from escaping and, on the other hand, to prevent the Protect condenser from environmental influences. When installing the capacitor, care must be taken that relative movements between the capacitor case and the capacitor itself. Such relative movements, in particular twisting would result in either lead wires arranged in the capacitor being sheared off or that short circuits occur.

So far, this problem has been solved by pushing a fastening part over the capacitor winding wild, and that this fastening part is pushed through a bead arranged in the housing under the application of pressure Capacitor winding defines. Such fastening parts can be used, for example, as a retaining plate or insulation

Sac 1 Wen / May 7th 1985

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lierkappe (DE-OS 30 47 815) be formed. These fastening parts have ribs on the inside, for example, which have a good frictional connection with the rough
Ensure front contact surface of the winding. One
Shake-proof mounting is achieved by the known fastening parts, that is, relative movements
in the axial direction of the capacitor winding are avoided. On the other hand, they generally consist of a | Insulating fixture parts, j can so that the required force fit f achieved between the housing and fastening bead portion only by egg I NEN high bearing pressure of the housing bead f a relatively smooth surface. This may lead to a deformation of the
Winding surface (Schoop layer). When withdrawing the
Contact pressure there is a risk that the force does not reach i nötigs connection between fastening part and bead; is, whereby the fastening part and thus the capacitor winding a rotary movement with the described after- '; partial consequences can perform. i

The object of the invention is to provide an electrical capacitor that can be rotated into a housing ' is built in.

This object is achieved according to the invention in that
the fastening part on the outside recesses in the
Has corner area.

This has the advantage that when beading f during installation, the housing bead corresponds to the shape is applied accordingly to the fastening part. As a result |

there is automatically a form fit that causes twisting
prevented. It is also advantageous during assembly

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to exert a much smaller force without the secure fixation of the wrap suffers.

Advantageous embodiments provide that the fastening part has additional recesses in the outer edge area and ribs on the inside.

The invention is illustrated by the following exemplary embodiments explained in more detail.

Show in the accompanying drawing

1 shows a wound capacitor built into a housing, FIG. 2 shows an embodiment of a retaining plate with a recess,

3 shows an enlarged detail from FIG. 1 and FIG. 4 shows a further embodiment of a holding plate.

1 shows how a capacitor winding 1 is installed in a metal housing 2. At the bottom 3 of the housing 1 there is an insulating holding part 4 which serves as a support for the capacitor winding 1. On the top On the side of the capacitor winding 1, an insulating holding part 5 is arranged, which is supported by a bead 6 in the housing jacket is pressed firmly and thus fixes the roll 1 in the housing 2. The housing 2 is covered by a cover 7 completed, which is tightly connected to the housing 2, for example by folding, gluing, soldering or welding. Insulating bushings 8 for the electrical supply lines 9 are located in the cover 7.

In the figure 2, the insulating holding part 5 is shown, which is designed as a holding plate and preferably made of

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consists of an insulating material. The holding plate 5 has 3 recesses IO in the corner area.

In FIG. 3, an enlarged section of the figure is shown. The retaining plate 5 is above the capacitor winding 1 arranged and it can be seen that in the region of the recess 10, the housing bead 6 according to the shape on Ho-r HolfonlaHo S onii'ont I-J π οτΉι ιτηη ontefoht Hot ρητιη_

Conclusion, the twisting of the retaining plate 5 and related of the capacitor winding 1 prevented. On the inside of the holding plate 5 ribs are arranged which are in intimate contact with the Schoop layer 11 on the end face of the capacitor winding 1 and because of the "Rough" surface of the front contact layer 11 fix the roll 1 sufficiently securely. The holding plate 5 is pulled down a little laterally, so that on the one hand a secure insulation to the metal housing 2 and on the other hand a fixation of the capacitor winding 1 is guaranteed in the radial direction. Through the interaction of the described Measures is ensured that the capacitor winding 1 does not move relative to the Housing 2 can run. In this way, electrical short circuits are reliably prevented.

FIG. 4 shows a further embodiment of a holding plate 14 which, in addition to recesses 14 Has additional recesses 15 in the outer edge area in the corner area. Because through the recesses 15 in the outer edge area the pressure is exerted in the radial direction when beading, this allows capacitor winding in particular can be installed gently in the housing with low contact pressures.

3 claims

4 figures

Claims (3)

t t I I III II III; - 5 - VPA 85 V 1 3 O 3 DE claims 1. Electrical capacitor, especially face contact! The wound capacitor that is shake-proof and twist-proof in ί a housing is built in, and in which the capacitor by at least one designed as a retaining plate or insulating cap Fastening part is set by means of a bead attached in the housing wall, thereby j marked that the fastening part (5) has recesses (10) on the outside in the corner area. 2. Electrical capacitor according to claim 1, characterized in that the fastening part (13Ϊ has additional recesses (15) in the outer edge area . 3. Electrical capacitor according to claim 1 or 2, characterized in that the fastening part (5, 13) has ribs (12) on the inside.