DE2821564C2 - Electrical wound capacitor with protective circuit - Google Patents

Description

The invention relates to an electrical wound capacitor with a protective circuit, its capacitor winding shrinks radially under the action of heat and its central area, which is coaxial with the capacitor winding, under the radial shrinkage pressure of the winding becomes longer axially, to which the protective circuit responds, which has a mechanical beta SS has controllable electrical switch with two switch contacts, which by means of at least one of the the ends of the central region displacing the elongation of the central region can be moved relative to one another.

Condenser coils which shrink radially under the action of heat are generally used a film tape made of thermoplastic material, which is stretched in the longitudinal direction of the tape and is therefore molecularly oriented in this direction, so that it moves in the longitudinal direction of the band under the action of heat contracts and therefore the condenser coil formed from it at least in the radial direction the radially inner winding areas shrinks. The amount of shrinkage depends on the development of heat. The greatest shrinkage occurs at the warmest point in the capacitor winding. If the capacitor winding is wound on a winding core, this point is generally the axial center of the winding core.

For such a capacitor winding, a winding core can be used, which is below the radial shrinkage pressure of the roll where this shrinkage pressure is greatest, i.e. in the area of Axial center of the winding core, is compressed radially so that at least one end of the winding core, mostly both winding core ends are pushed axially out of the winding and the winding core as a whole becomes longer when the tubular winding core is out a thermoplastic material which is softened under the action of heat this elongation of the winding core under the shrinkage pressure of the winding favored By appropriate selection of the material of the winding core can be adjusted for a given winding capacitor around which the winding core moves at a certain excess temperature in the capacitor winding! lengthens

The use of the axial elongation of a thermoplastic core tube under the influence of heat radially shrinking capacitor winding or dielectric for actuating a switch-off fuse, which interrupts the circuit of the capacitor when it is heated inadmissibly is known (DE-OS 26 06174). Here the lead wire leading to the emen end face of the coil is taut through the Core tube guided and mechanically fixed at both core tube ends so that by the axial elongation of the core tube the lead wire is torn. However, since the lead wire is stretched before it tears and the extent of elongation depends on the strength properties of the wire material, the initial length of the wire section stretched between the core ends and its initial length Tensile stress, it can happen in unfavorable cases that the supply line divm in those Increase in length of the winding core, at which it should tear, not yet tearing otter already tearing, if it shouldn't tear yet.

Tear sections as disconnection fuses are also available for Cup capacitors known, in which to interrupt the capacitor circuit from one to deformation of the beaker housing leading to the development of pressurized gas in the condenser winding when it is impermissible Warming is used. In such cup capacitors, instead of tear sections mechanical switches are also used as circuit breakers or short circuit switches in the K <~> ndensator circuit are switched on (DE-GM 77 18 990. U.S. Patent 3,246,205). A protective circuit with a circuit breaker in the capacitor circuit switched on mechanical switch is also known for having electrical wound capacitors the features mentioned above (DE-OS 26 06 175). Here, the two switch contacts are axially at a distance from one axial end of the without winding core wound capacitor winding set in a housing, which in turn is fixed in this so that one end of its central region when this under the shrinkage pressure of the roll axially out of this is squeezed out, occurs on the movable switch contact and it from the other switch contact takes off. For a responsiveness of this protective circuit within relatively narrow limits of the

Condenser operation, in which the heating of the Capacitor winding exceeds the permissible dimension, a relatively precise position of the capacitor winding relative to the switch must be ensured. However, in the known case it is assumed that the stirtiEseite achievable under the shrinkage pressure of a capacitor winding wound without a core tube Arching due to axial pushing out of the dieickinkum ligament is relatively strong in the axial region of the coil. Nevertheless, it must be ensured that In the event of impermissible heating, the end of the capacitor that interacts with the switch actually changes »·, iukcis bulges and does not bulge to the required extent for example, the material of the central area under the shrinkage pressure essentially only on the other Front end of the coil is squeezed out and therefore the switch does not respond. This is also known Capacitor relies on the presence of a housing.

In contrast, the object is achieved by the invention, a trained in the type mentioned to create electrical wound capacitor with protective circuit, the switch without interaction with a housing utilizing the overall de- axial deformation of the under the shrinkage pressure of the Winding axially longer central area of the same reliably responds

This is achieved according to the invention in that when the central area is designed as a winding core of the Capacitor winding, the switching contacts are each rigidly coupled to one end of the winding core.

According to the invention, the entire increase in length of the winding core is thus under the shrinkage pressure of the capacitor winding used to drive the actuator of the switch, its switching path can therefore be relatively large or small without observing tight tolerances in order to ensure the response of the To ensure protective circuit even in the event of slight impermissible heating of the capacitor winding. Furthermore, the protective circuit according to the invention works regardless of whether the capacitor in a Housing is open or not

The inventive solution is also relatively free in the choice of the arrangement of the Switch. It can therefore in particular also be arranged outside of the wound capacitor so that it can be arranged in particular close to other switching elements of an electrical circuit that are also arranged outside of the wound capacitor. By arranging the switch outside of the wound capacitor can also be visually observed its switching status.

Furthermore, you are relatively free in the design of the switch. It can be used in a switch which is closed by the extension of the winding core. Conversely, it is also possible to use a Switch to be used. the extension of the Core is opened. It is therefore possible, for example, to switch the capacitor on by operating the switch to switch off from the capacitor circuit, to bridge part of the capacitor circuit and / or a Switch on the circuit in the capacitor circuit. The use of multiple switches is also possible.

In particular, it is preferred in the solution according to the invention that the switch in itself known way is switched on as a short circuit switch in the capacitor circuit. This allows the both capacitor electrodes are short-circuited in the event of an impermissible overload of the capacitor. The protection circuit can contain a tuning circuit, which by shorting the Capacitor is detuned. Additionally or alternatively it is also possible to add an additional to the circuit in which the short-circuit switch is switched on To connect fuse, which responds by pressing the short-circuit switch

The coupling of one and / or the other Scb.aUfcon-

"> can be clocked at the assigned end of the winding core outside of the capacitor winding run around this. Preferably one runs Coupling, however, inside the tubular winding core. Here it is possible to use both switching contacts in each case a support element, for example a rod, to be fixed at the associated end of the winding core, wherein both support elements extend axially into the tubular winding core. In the preferred solution is however, the one switching contact on a faceplate.

For example, a plug, one end of the winding core arranged immediately, while only the other switching contact ι on the one hand, the tubular winding core axially extending, a ⁿ the other end, for example, also to a plug or the like. This core end, supported rod with said other end of the core is coupled

If a switch is to be used here, which is opened by the elongation of the core, both switching contacts within the winding

JO core lie. For training the switch as Short-circuit switch, however, it is preferred that the rod with its free end can be slid through the Front plate runs and with the switching contact arranged on it around the switching path of the short-circuit switch from the other switching contact arranged on the axial outside of the faceplate via the faceplate protrudes.

In this solution, the rod can consist of a suitable insulating material, for example from a thermosetting plastic material. However, such a rod can also be made from a conductor material train and use as part of the lead to that side of the capacitor winding, which the Is adjacent core end on which the rod is supported with its foot end. For the other side of the Capacitor winding, a separate supply line is possible, while the switch contact -n this other side of the capacitor winding adjacent end of the core via a separate lead wire is connected to this side of the capacitor winding. However, it is also possible to use the zulet / i to switch on the mentioned switching contact constantly in the supply line to the adjacent end face of the capacitor winding.

The invention is explained using an exemplary embodiment that can be found in the drawing can be seen schematically. In the drawing shows

Fig. 1 shows a longitudinal section of an electrical wound capacitor in the operating state with a circuit breaker designed as a short-circuit switch and

FIG. 2 shows the winding capacitor from FIG. 1 after the Operate the switch.

According to the drawing, the capacitor winding 1 is wound on a tubular winding core 2 made of thermoplastic material and consists of metallized plastic films made of a thermoplastic material. Z'.r. Front sides of the roll! are ir, usually with frontal contact layers 10, II

provided, to which the respective supply line 9, 13 is iingelöiet.

The metalized plastic film strips forming the roll I are molecularly oriented in their longitudinal direction corresponding to the circumferential direction of the roll 1, so that they contract in their longitudinal direction under a certain amount of heat that exceeds a certain amount and therefore the roll 1 shrinks in its radial direction. The temperature distribution over the roll 1 is different due to the heat-insulating properties of the plastic films. The temperature is highest approximately in the axial center of the winding in the area of the circumference of the tubular winding core 2, since there the self-cooling is lowest π due to the most unfavorable heat dissipation conditions there. At this point, the radial shrinkage of the winding 1 is greatest, so that a temperature-dependent increasing pressure is exerted on the outer wall of the winding core 2, especially in its longitudinal center. The winding core 2 consists of a plastic material which softens under the action of heat, so that after its softening temperature has been exceeded under the shrinkage pressure of the roll 1, it is radially compressed in its longitudinal center, whereby the winding core ends 7, 8 are pushed axially out of the roll 1. This state is shown in FIG. 2 shown.
According to FIG. I is at the lower end 8 of the winding core

2 an end plate set, on which in turn a Rod 5 is set with its lower end, which jo extends axially through the winding core 2 to beyond its other end 7 and is axially displaceable there passes through a second face plate 6 on this other winding core endc 7.

The rod 5 is made of electrical as a lead-through conductor conductive material. At its foot on the lower face plate 14 is the lead wire to the neighboring one The end contact layer 10 of the capacitor winding 1 is soldered on. On the outside of the other end of the winding core 7 lying free end of the rod 5 is a «switching contact 7 set, which under training an electrical switch interacts with another switch contact .3, which is on the axial outside the face plate 6 is arranged. This switch contact

3 is via a lead wire 12 to the neighboring

Front contact layer 11 of the capacitor winding 1 connected. The lead to this front contact layer 11 takes place via a separate lead wire 13 which is soldered to the contact layer 11.

If, due to the radial shrinkage of the capacitor winding 1, when the Capacitor, the winding core 2 is axially longer, the two switching contacts 3, 4 are displaced accordingly towards each other until they come into contact with one another, so that the two end contact layers 10 and 11 over the electrically conductive rod 5 and the lead wire 12, and therefore also the electrodes of the capacitor be short-circuited. Via the lead wire, which is part of the lead 9 to the front contact layer 10 the free end of the rod 5 is soldered, which is connected to the free end of the rod 5 in an electrically conductive manner Switching contact 4, the second switching contact 3 and the connecting wire 12 to the adjacent front contact layer 11, the two input connections 9, 13 of the winding capacitor are short-circuited. Through this A circuit breaker (not shown) can respond, which supplies power to the wound capacitor interrupts.

Instead of the one capacitor connection 9 to the free end of the lead-through conductor To connect rod 5, this feed line 9 can be similar to the feed line 13 separately to the associated Front contact layer 10 are performed. Obviously, it is also possible to have separate leads 9 and 13 for the to use both end contact layers 10, 11, the Form rod 5 from insulating material and the switching contact 4 separately to a suitable electrical Connect circuit, which by closing the switch with only one, to the front contact layer 11 connected capacitor electrode is interconnected, while an immediate Short-circuit the two Koi.Jensatorelectrodes over the switch 3.4 does not take place.

It can also be seen that in the embodiment shown, the switches 3, 4, 5 on the core tube 2 possibly already assembled before the winding of the dielectric can be present, while the corresponding connections 9, 12, 13 can only be made later.

1 sheet of drawings

Claims (5)

Patent claims: 1.Electric wound capacitor with protective circuit, whose capacitor winding shrinks radially under the action of heat and whose with the Capacitor winding coaxial central area under the radial shrinkage pressure of the winding axial becomes longer, to which the protective circuit responds, which has a mechanically operated electrical Has switch with two switch contacts, soft by means of at least one of the elongation of the central area displacing ends of the same are movable towards each other, characterized in that that is when the central area is formed as a winding core (2) of the capacitor winding (t) the switching contacts (3, 4) are each rigidly coupled to one of the ends (7, 8) of the winding core (2). 2. wound capacitor according to claim 1, characterized in that the switch (3, 4) as Short-circuit switch in the capacitor circuit (9, 12) switched on; is 3. wound capacitor according spoke 1, characterized in that the one switching contact (4) on one in the tubular winding core (2) which extends axially and is supported at one end (8) Rod (5) is arranged and this switching contact (4) facing other switching contact (3) is supported on an end plate (6) of the other end (7) of the winding core (2) 4. wound capacitor according to claims 2 and 3, characterized in that the rod (5) with its free end can be displaced through the faceplate (6) runs and with the switching contact (4) arranged on it around the Schahweg of the short-circuit switch from the other switching contact arranged on the axial outside of the end plate (6) (3) protrudes beyond the face plate (6) 5. wound capacitor according to claim 4, characterized in that the rod (5) consists of one There is conductor material and, like the switching contact (4) supported on it, into the supply line (9) one capacitor side (10) is switched on while the other switching contact (3) is connected to the other Capacitor side (11) is connected 45