DE1144363B - High voltage switch - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY
GERMAN M & m. PATENT OFFICE

kl. 21c 35/02

INTERNAT. KL. H 02 C

EXPLAINING EDITORIAL 1144 363

N17138Vmd / 21c

REGISTRATION DATE: AUG U S T 25, 1959

NOTICE DEK REGISTRATION AND ISSUE OF EDITORIAL: FEBRUARY 28, 1963

The invention relates to a high-voltage switch for limited breaking capacity with at least one switching pin as a movable contact which, when the switch is closed, lies in a gas-filled switching chamber made of insulating material, in which the fixed contact is arranged, with a conductive sleeve being assigned to the switching pin, which surrounds the outside of the switching chamber in the closed state of the switch, is also in contact with the fixed contact and is coupled so relatively movably to the switching pin that when the switch is opened, the conductive sleeve is separated from the fixed contact earlier than the switching pin. Such a switch is known from British patent specification 480 377, FIG. 1, and from USA patent specification 2455 998, FIG. 3.

The advantages mentioned below are not given in these references, and also are the same there are no indications in this direction.

An advantage of the aforesaid conductive sleeve is that when the switch is closed, the gap between the switching pin and the material of the switching chamber is field-free, which also affects the Permanent ionization in the space mentioned is prevented, with the beneficial consequence of avoidance Corrosion of the switch pin and the material of the switch chamber.

In the known switch, however, the arrangement is such that when the switch is closed the conductive sleeve comes into contact with the fixed contact later than the switch pin. this has the disadvantage that when preignition occurs, i. H. when an arc occurs before the moment in which when the switch is closed, the switch pin comes into contact with the fixed contact comes, the switch pin is knocked back by the rapidly increasing pressure in the switch chamber is, and also due to the high mechanical load on the wall of the switching chamber There is a risk of explosion in this chamber.

According to the invention, these disadvantages are eliminated in that said relative mobility at the same time is such that when the switch is closed, the conductive sleeve earlier with the fixed Contact comes into contact as the switch pin.

As a result of this measure, there can no longer be any preignition between the switch pin and the fixed contact occur because the switch pin had previously come into contact with the fixed contact via the conductive sleeve is.

In principle, it is possible that between high-voltage switches

Applicant:

N. V. Fabriek van Electrische Apparaten

voorheen F. Hazemeijer & Co.,

Hengelo (Netherlands)

Representative: Dr.-Ing. E. Sommerfeld, patent attorney,
Munich 23, Dunantstr. 6th

Claimed priority:
Netherlands of August 27, 1958 (No. 230 886)

preignition occurs between the conductive sleeve and the fixed contact, but it is likely far less than the probability of preignition in the interrupter, because in the interrupter more pollution occurs than outside of it. Also, the pressure outside of the Switching chamber never rise as high as within it.

It has been found that by the invention Measure a smooth closing of the switch is promoted under all circumstances.

There are already known switches that conduct electricity within the switching chamber Contain switching fluid and which have contacts outside the switching chamber, which close earlier when the switch is inserted than those inside the switching chamber Contacts. In these switches, however, the switching chamber contained - as I said - a conductive one Switching fluid, and the suggestion when inserting the switch the contacts outside the To bring the switching chamber into contact with one another earlier than the contacts inside the switching chamber, has only been made to neutralize a delay effect due to the switching fluid do. One could therefore not infer the suggestion from these known switches, with switches, which do not contain any switching fluid, d. H. for switches that have a gas-filled switching chamber, when the switch closes the outside of the

3 4

Auxiliary contacts located in the switching chamber earlier with part of the switching element 16 resiliently on the armature

to bring each other into contact than the inside plate 13; around each of the legs of the

the main contacts located in the switching chamber. organs 16, d. H. around each of the switching pins 17, namely

The invention is based on an embodiment borrowed a further helical spring 18 arranged, the

explained, which is shown in the drawing. 5 on the one hand under pressure on the anchor plate 13 and

Fig. 1 shows the switch at the beginning of the closing on the other hand on an outer collar 19 of the relevant

movement, fenden switching pin 17 is applied.

Fig. 2 in the closed state and in the open state of the switch have

Fig. 3 during opening. Individual parts of the moving part of the same opposite

The switch consists of a position shown below each other that is shown in FIG.

fixed part and a movable part shown above. The movable part of the switch is then of

Part. its fixed part lifted off. The fixed contacts 1

The fixed part has two designated as a whole with 1 and the switching chambers 5 are then protected in

Nice permanent contacts. These each consist of one that is enclosed by the insulating sleeve 6

central part 3 and an outer part 4. Between 15 space.

A cylindrical insulating layer lies between these two parts. To close the switch, the cap 10

Switching chamber 5 relative to the sleeve 6 is moved downwards. At this

The two fixed contacts 1 and the two movement comes to the free end after some time Switching chambers 5 are together with a sleeve 6 of each of the two metal sleeves 12 with the outer surrounded, which, as well as the body in which the two 20 part 4 of the corresponding fixed contact 1 in Beden Fixed contacts 1 are attached, from electrical contact. This creates the circuit between the high-quality insulating material, e.g. cast resin, fixed contacts 1 closed. This stage is is posed. Shown between the two fixed contacts 1 in FIG. The free end of each of the switching and the two switching chambers 5 cherishes, also in the pin 17 is not yet with the central part 3 of the Insulating material attached, a permanent magnet 25 corresponding fixed contact 1 in contact, system of two ferromagnetic pole plates 7, which is a return in the manner described a number of co-polarized percussion of the switching pin 17 due to preignition Magnets 9 are separated from each other. That prevents. Preignition of this kind is no longer possible Pole plates 7 protrude somewhat possible at their upper ends. One optionally between the metal neighboring insulation material. This allows a 30 sleeve 12 and the outer part 4 of the fixed Konweiter Ferro-magnetic cycle 1, which is to be discussed below, occurs outside of the Armature plate 13 directly with the pole plates 7 in the switching chamber 5 and can consequently only to one Be brought into contact. lead to much lower pressure development.

The moving part of the switch consists of a cap 10, starting from the position of the cap 10 made of insulating material, e.g. B. made of cast resin, the 35 measured Fig. 1, further compared to the sleeve 6 downwards is provided with a handle 11. The cap 10 moves, so after some time comes the free lower one is dimensioned so that they with a small intermediate end of each switching pin 17 with the corresponding space on the sleeve 6 of the fixed part of the switch central part 3 of the fixed contact 1 in contact, can be postponed. At this moment there is no more pre-ignition

In the cap 10, a mutual development 40 is possible because each of the two sleeves 12 is already included

distance equal to that of the fixed contacts 1, two the corresponding fixed contact 1 in contact

Electrically connected metal is connected and thus the circuit is connected via the switch.

sleeves 12 arranged. Each metal sleeve 12 is closed.

their side facing the axis of the switch, After the switch pin 17 with the fixed conv the handle 11 has come into contact with approximately 45 bars, the next step will be the Half of its length with a relatively moving of the cap 10, the coil spring 18 spread Slot yersghen. Between the two cases. The pin 17 is thus with the force of this sen 12 and perpendicular to the same, the spring is already pressed against the fixed contact 1. the The above briefly mentioned anchor plate 13 made of ferro-spring 18 acts as a contact pressure spring. The cap 10 magnetic material. This anchor plate can now be pushed completely onto the sleeve 6 until 50 in the longitudinal direction of the sleeves 12 against them, the armature plate 13 comes into contact with the pole plates 7 store and move within the axial comes. The switch is then in the one slot of these pods. Each of the sleeves 12 is in the switched state. He stays in this state Near its free lower end on the inside because the anchor plate 13 is under the influence of the permit a flange 8 is provided. Between the permanent magnet 9 of the pole plates 7 fixed-flange 8 and the anchor plate 13 cherishes in every ten. This state is shown in FIG. Sleeve 12 a coil spring 14, which is in further down between the anchor plate 13 and the middle still to be explained way serves as an opening spring. horizontal part of the switching element 16 is located By each opening spring 14 is one end of the now a gap which is equal to the length of the Anchor plate 13 in the direction of the handle 11 60 compression of the contact pressure springs 18 is. pressed. The anchor plate 13 rests on a used to explain the opening of the switch fork-shaped projection 15 of cap 10. Fig. 3.

The anchor plate 13 carries a U-shaped movable The opening takes place in that on the handy Schaltorgaji 16, the legs of which are pulled by a handle 11. The cap 10 moves of the two movable switching pins 17 are then formed 65 upwards, and each of the two metal sleeves 12 the. The U-shaped switching element 16 is opposite to the is entrained, whereby it from the outer part4 Anchor plate 13 is separated in the direction of the handle 11 of the corresponding fixed contact 1, movable. In FIG. 1, the central horizontal one is located. The armature plate 13 is, however, supported by the pole plates 7

held. As a result, the opening spring 14 is tensioned. The tension of this spring 14 increases until the non-slotted part of the metal sleeve H comes into contact with the anchor plate 13 at A (FIG. 3). The tensile force exerted on the handle 11 is then transmitted directly to the anchor plate 13 through the sleeves 12. This has the consequence that the armature plate 13 is torn off from the pole plates 7. As soon as the armature plate has moved a very small distance from these pole plates, the magnetic force exerted by the pole plates 7 drops to almost zero. This again has the consequence that the two now tensioned opening springs 14 accelerate the armature plate 13 strongly upwards. After a short time, the armature plate 13 comes into contact with the central part of the U-shaped switching element 16, as a result of which the end of each of the two switching pins 17 is abruptly removed from the corresponding fixed contact 1. This ensures a good interruption of the circuit in each of the two switching chambers 5.

The movement of the anchor plate 13 under the influence of the two opening springs 14 continues until the anchor plate 13 has come into contact with the projection 15 of the cap 10 again. The eventual Arc in each of the two switching chambers 5 is then already extinguished. After the cap 10 is completely removed from the sleeve 6, it can with all the individual parts present in it, which then again assume the mutual position according to FIG. 1, are set aside.

From the described mode of operation it follows that both when closing as when opening the Switch each of the two metal sleeves 12 leads the corresponding switch pin 17.

The invention is not limited to the illustrated embodiment.

It is Z. B. not necessary that the two switching pins 17 with the middle part of the U-shaped Switching member 16 form a whole. These pins can also be replaced by a completely different conductor, z. B. be connected to each other by a fuse.

It is also not necessary for the movable switching element to be V-shaped and for double interruption or closing the circuit is used. In principle, the invention is also applicable to individual interruptions applicable.

Claims (1)

PATENT CLAIM: High-voltage switch for limited breaking capacities with at least one switching pin as a movable contact which, when the switch is closed, lies in a gas-filled switching chamber made of insulating material, in which the fixed contact is arranged, the switching pin being assigned a conductive sleeve which, when the switch is closed, is the Outside of the switching chamber surrounds, is further in contact with the fixed contact and is coupled so relatively movably to the switching pin that when the switch is opened, the conductive sleeve is separated from the fixed contact earlier than the switching pin, characterized in that said relative mobility at the same time is such that when the switch is closed, the conductive sleeve comes into contact with the fixed contact earlier than the switch pin. Considered publications:
German patent specifications No. 603 926, 604 817. 1 sheet of drawings ι 30Ϊ 537/358 2.63