DE102008023502A1 - Vacuum interrupter - Google Patents

Abstract

The invention relates to a vacuum interrupter (1) with a fixed contact (17) and with respect to the fixed contact movably arranged moving contact (19) for switching current and voltage, wherein the moving contact (19) arranged with a displaceable, a wall (7) of the Vakuumschlatöhre thorough contact pin (9) is connected. The contact pin (9) closes when moving in the direction of the outer tube outer space (35) an electrical contact between the fixed contact (17) and the moving contact (19) and opens when moving in the direction of the inner tube (33) the electrical contact. Furthermore, the invention relates to an arrangement with such a vacuum interrupter.

Description

The The invention relates to a vacuum interrupter with a fixed contact and a movable with respect to the fixed contact arranged Moving contact for switching current and voltage, wherein the moving contact arranged with a displaceable, a wall of the vacuum interrupter thorough contact pin is connected.

Such a vacuum interrupter is known from German Offenlegungsschrift DE 26 33 543 A1 known. Regarding the concept of a vacuum interrupter, it should be noted that in German-speaking countries the term "interrupter" has come to be used for such vacuum interrupters. In the context of this description, however, a vacuum interrupter should not only be understood to mean a cylindrical component, but rather vacuum interrupters may also have other shapes, for example they may be formed as cuboidal components.

Of the Invention is based on the object, a vacuum interrupter and to provide an arrangement with a vacuum interrupter, in which an electrical contact between the moving contact and the Fixed contact using only low mechanical forces be opened or kept in the open state can.

These Task is with a vacuum interrupter of the above Art solved according to the invention that the contact pin when moving in the direction of the outer tube an electrical contact between the fixed contact and the moving contact closes and moves towards the interior of the interrupter tube opens the electrical contact.

at this vacuum interrupter closes the contact pin when shifting towards the interrupter outer space (i.e., when moving in the direction of the vacuum interrupter surrounding external space) the electrical contact between the fixed contact and the moving contact; during the subsequent move of the contact pin towards the interrupter interior (i.e. H. in the direction of the vacuum interrupter or of the Housing of the vacuum interrupter enclosed Volume), the contact pin opens the electrical contact between the fixed contact and the moving contact.

there is particularly advantageous that when moving the contact pin in the direction of the interior of the intercoupler tube for shifting the contact pin applied driving force in the same direction superimposed on the force due to the interior of the switch tube prevailing vacuum and in the interrupter outer space prevailing normal air pressure on the contact bolt and the it fixed moving contact acts (addition of the driving force and the Force of air pressure). The driving force and the due effect the pressure differences between the intercoupler outer space and switch tube interior resulting force in the same Direction, d. H. the two forces are increasing. Thereby is for opening or keeping open the electrical Contact between the moving contact and the fixed contact only one low driving force necessary. The inventive Vacuum interrupter can be so very easy in the switched-off state or transfer keep in this. In a smooth storage of the Contact bolt in the wall of the vacuum interrupter can even achieved that no extra at all Driving force for opening or keeping open the electrical Contact is necessary, but that the closed electric Contact after loosening a contact bolt holding Lock automatically opens and then due held the force of air pressure in the open state becomes.

The Vacuum interrupter can be designed so that the fixed contact is formed hollow cylindrical and the contact pin the solid contact (axially) passes through. This can advantageously achieved a particularly compact construction of the vacuum interrupter become.

The Vacuum interrupter can also be designed so that the moving contact with respect to the hollow cylindrical Fixed contact is formed lid-shaped. Such a Moving contact is also referred to as pot contact.

The Vacuum interrupter can be realized so that in the switched Condition of the vacuum interrupter the moving contact an end opening the hollow cylindrical fixed contact at least partially closes.

The Vacuum interrupter can be designed so that in the switched Condition of the vacuum interrupter an annular End face of the hollow cylindrical fixed contact touched the moving contact. About this annular End face of the current to be switched flows from Fixed contact to the moving contact or in the opposite direction.

The Vacuum interrupter can be designed so that at least parts of the surface of an interior of the hollow cylindrical fixed contact arranged portion consist of the contact pin of arc-resistant material.

The Vacuum interrupter can also be realized so that at least Parts of the inner circumferential surface of the hollow cylindrical Fixed contacts made of arc-resistant material.

The Vacuum interrupter can be designed so that at least Parts of the moving contact facing away from the end face of hollow cylindrical fixed contact made of arc-resistant Material exist.

At the Use of arc-resistant material in the above mentioned embodiments of the vacuum interrupter is particularly advantageous that when forming an (unwanted) arc between the contact pin of the moving contact and the hollow cylindrical Fixed contact Damage to the surface of the Contact pin and the fixed contact minimized or avoided.

Farther can also be the inside surface of the lid-shaped or cup-shaped moving contact at least partially consist of arc-resistant material, whereby the moving contact from damage when arcing occurs is protected.

The described vacuum interrupter can be used with advantage be in an arrangement with a first vacuum interrupter of the type described and with a second vacuum interrupter with a fixed contact and one with respect to the fixed contact movably arranged moving contact, wherein the moving contact with a slidably disposed, a wall of the second vacuum interrupter is connected by cross-bolt contact, and this contact pin when moving in the direction of the inner tube of the second Vacuum interrupter making electrical contact between the Fixed contact and the moving contact closes and moves in the direction of the outer tube of the second Vacuum interrupter opens the electrical contact, and the contact bolt of the first vacuum interrupter mechanically coupled with the contact pin of the second vacuum interrupter is.

In this arrangement, a first vacuum interrupter of the type described above is combined with a second interrupter, as they are already as such from the document DE 26 33 543 A1 is known. The contact pin of the first vacuum interrupter is mechanically coupled to the contact pin of the second vacuum interrupter. The coupling takes place in such a way that, when the contact bolt of the first vacuum interrupter is displaced in the direction of the interrupter interior of the first vacuum interrupter, the contact pin of the second vacuum interrupter is simultaneously displaced in the direction of the outside of the second vacuum interrupter. Conversely, upon displacement of the contact pin of the first vacuum interrupter, a direction of interrupter outer space of the first vacuum interrupter of the coupled contact pins of the second vacuum interrupter is shifted toward the interrupter interior of the second vacuum interrupter. Both contact pins can move through the coupling only in each case with the same sense of direction. In such an arrangement is particularly advantageous that when you turn on the first vacuum interrupter and the second vacuum interrupter turns on or off when you turn off the first vacuum interrupter and the second vacuum interrupter. In other words, the electrical contact between the fixed contact and the moving contact of the second vacuum interrupter is closed when closing the electrical contact between the fixed contact and the moving contact of the first vacuum interrupter. Conversely, even when the electrical contact between the fixed contact and the moving contact of the first vacuum interrupter is opened, the electrical contact between the fixed contact and the moving contact of the second vacuum interrupter is also opened. By means of such an arrangement of a first and a second vacuum interrupter can be various electrical circuits (in particular series circuits of vacuum interrupters) realize in which switch must be closed or opened at about the same time.

The Arrangement can also be designed so that the contact pin the first vacuum interrupter in the contact pin of the second Vacuum interrupter passes. This will be a achieved rigid coupling of the two contact pins.

The Arrangement can also be designed so that the contact pin the first vacuum interrupter and the contact pin of the second vacuum interrupter with interposition of a mechanical spring or damping element with each other are coupled. It is advantageous that any occurring Shocks are damped, mechanical stresses recorded or possibly occurring inaccuracies in the movable contact pin, moving contacts and / or fixed contacts be compensated.

in the The following will be based on the figures embodiments of the invention explained. It is in

1 an embodiment of a vacuum interrupter according to the invention and in

2 an embodiment of an arrangement shown with a vacuum interrupter according to the invention.

In 1 is a sectional view of a cylindrical vacuum interrupter 1 shown. This vacuum interrupter 1 has a vacuum interrupter housing, which in the embodiment, a first hollow cylindrical housing part 3 out Ceramic and a second hollow cylindrical housing part 5 made of ceramic. A first end face of the first hollow cylindrical housing part 3 is with a cap-shaped wall 7 Made of stainless steel sheet provided by a contact pin 9 is penetrated. The contact pin 9 is by means of a sliding bearing 11 slidable on the wall 7 stored, using a bellows 13 a vacuum-tight displacement of the contact pin 9 is possible. The second end face of the first housing part 3 is with an annular flange 15 connected in a vacuum-tight manner, one inside the vacuum interrupter 1 arranged hollow cylindrical fixed contact 17 wearing. The contact pin 9 passes through the hollow cylindrical fixed contact 17 axially and carries at its free end in the interior of the vacuum interrupter a moving contact 19 ,

The annular flange 15 serves as power supply for the fixed contact 17 while the contact pin 9 as power supply for the moving contact 19 serves. The fixed contact 17 and the moving contact 19 are suitable for switching current and voltage.

The fixed contact 17 and the moving contact 19 represent so-called main contacts of the vacuum interrupter, ie contacts that are suitable for switching high currents and high voltages. Such contacts are sometimes referred to as a main current-carrying contacts or as contacts, which form the main current path of a vacuum interrupter. These contacts are designed in the embodiment for large currents, so that the vacuum interrupter can be used, for example, to switch off high short-circuit currents.

The annular flange 15 is still with a stainless steel fourth housing part 21 connected, which has the form of a thin-walled hollow cylinder. This fourth housing part 21 is vacuum-tight with an end face of the second housing part 5 connected, which at the opposite end of the fourth housing part vacuum-tight with a (for example made of stainless steel sheet) second cap 23 connected is. The second cap 23 forms one of the wall 7 opposite second wall 23 , The vacuum-tight connections between the individual housing parts, the annular flange 15 and the sliding bearing 11 are realized as solder joints.

The second housing part 5 isolated the second cap 23 from the potential of the fixed contact 17 , leaving the second housing cap 23 is on a floating potential (a so-called floating potential). The second housing part 5 is optional. If the second housing part 5 is omitted, then goes the fourth housing part 21 directly into the housing cap 23 above; the housing cap 23 then lies on the electrical potential of the fixed contact 17 ,

The inner surfaces of the existing ceramic first housing part 3 and the second housing part 5 are in a conventional manner by means of steam screens 25 . 27 . 29 and 31 protected from the deposition of metal vapor generated during switching operations.

The wall 7 the vacuum interrupter 1 thorough contact bolts 9 is slidably arranged: It can be arranged by an outside of the vacuum interrupter (in the 1 not shown) switching tube drive in the direction of the inner tube (ie in the direction of the arrow 33 ) and in the direction of the interrupter outer space (ie in the direction of the arrow 35 ) move. In the 1 is the vacuum interrupter 1 shown in the off state, ie between the fixed contact 17 and the moving contact 19 there is no electrical contact. When the contact pin 9 in the direction of the outer tube space is displaced (arrow 35 ), then moves on the contact pin 9 arranged moving contact 19 on the fixed fixed contact 17 to; when touching the moving contact 19 with the fixed contact 17 An electrical contact between the fixed contact and the moving contact is closed. The vacuum interrupter is then in the switched-on state. When switched on, the current flows from the contact pin 9 over the moving contact 19 , the fixed contact 17 to the annular flange 15 and from this from the vacuum interrupter 1 out.

When the vacuum interrupter is switched on, the moving contact closes 19 the moving contact 19 facing frontal opening of the hollow cylindrical fixed contact 17 at least partially; an annular end face 43 the hollow cylindrical fixed contact 17 touches the moving contact 19 ,

When switched on the vacuum interrupter, the contact pin 9 in the direction of the intercommunion tube interior (arrow 33 ) is moved, then moves the moving contact 19 from the fixed contact 17 away, the electrical contact between the fixed contact 17 and the moving contact 19 will be opened; the vacuum interrupter 1 goes into the off state. When opening the electrical contact arcs may arise between the fixed contact and the moving contact. To minimize or eliminate damage from these arcs are the moving contact 19 , the solid contact 17 and / or the contact pin 9 at least partially provided with arc-resistant material or consist of such arc-resistant (high-strength) material. In the Ausfüh example of the 1 consist of parts of the surface of the contact pin 9 which occurs when opening the electrical contact between the moving contact 19 and the fixed contact 17 in the interior of the hollow cylindrical fixed contact 17 are made of such arc-resistant material. In another embodiment, for example, but also the entire surface of the contact pin 9 (or the surface of the portion of the contact pin 9 , which is the moving contact 19 adjacent) consist of arc-resistant material.

The arc-resistant material may, for example, in the form of a in the contact pin 9 taken in sleeve 37 or one on the contact pin 9 be formed pushed sleeve; in other embodiments for vacuum interrupters can in the contact pin 9 However, even on arc-resistant material can be completely dispensed with, so that the entire contact pin 9 for example, may consist of copper.

The inner circumferential surface of the hollow cylindrical fixed contact 17 is also made of arc-resistant material. In the embodiment of 1 In addition, the two faces of the hollow cylindrical fixed contact exist 17 made of arc-resistant material. In the exemplary embodiment, therefore, both the moving contact 19 opposite end face 41 as well as the moving contact 19 facing end face 43 the hollow cylindrical fixed contact 17 made of arc-resistant material.

When For example, arc-resistant material could usually for vacuum interrupters used contact material used on the basis of copper-chromium become. However, it could be arc-resistant as such Material also stainless steel or another heat-resistant (refractory) Material used.

In the embodiment, the moving contact 19 realized as a known as such pot contact in RMF (RMF = radial magnetic field). The moving contact 19 consists of a contact carrier 45 , which is provided for generating the radial magnetic field with slots. The contact carrier 45 carries a contact disc 47 Made of high-strength, arc-resistant material. The inner surface and the bottom surface of the cup-shaped moving contact 19 also consists at least partially of arc-resistant material 49 ,

The hollow cylindrical fixed contact 17 also has a pot shape in the embodiment, he also represents a pot contact. The hollow cylindrical fixed contact 17 has a contact carrier 49 on which a contact disc 51 made of arc-resistant material. Also the contact carrier 49 is provided with slots which cooperate with the slots of the contact carrier 45 generate the radially oriented magnetic field (RMF); the fixed contact 17 is also an RMF contact.

In other embodiments, the fixed contact 17 and the moving contact 19 but also be designed as a so-called AMF contacts (AMF = axial magnetic field) or the fixed contact and the moving contact could have no slots at all, whereby particularly simple to produce contacts.

In another embodiment, the vacuum interrupter could also be constructed so that only parts 37 the surface of the contact pin 9 as well as the contact discs 47 and 51 consist of arc-resistant material, whereas those of the moving contact 19 opposite end face 41 , the inner lateral surface 39 of the fixed contact 17 , the inner surface of the moving contact 19 and / or the inner floor surface 49 the moving contact 19 could consist of cheaper, only moderately arc-resistant material (such as copper).

The described vacuum interrupters can be used in particular as a sluggish security element by the contact pin in the closed state of the electrical contact 9 is locked and released in case of release of the fuse of the contact pin. Then opens due to the pressure difference between the interior and exterior of the vacuum interrupter - as described above - automatically the electrical contact between the moving contact and the fixed contact, and the vacuum interrupter goes into its off state, ie serving as a fuse vacuum interrupter interrupts the flow of current. Thereafter, the vacuum interrupter remains securely in the open state until the electrical contact is closed again by means of a driving force acting on the outside of the contact pin.

In 2 an arrangement with two vacuum interrupters is shown. In the lower part of the 2 is a first vacuum interrupter 101 represented, the structure of which in the 1 shown and described vacuum interrupter is similar. This first vacuum interrupter 101 has a first fixed contact 103 and one relating to the first fixed contact 103 displaceably arranged first moving contact 105 on. The first fixed contact 103 as well as the first moving contact 105 are suitable for switching current and voltage. The first moving contact 105 is arranged by a displaceable, a wall 107 the first vacuum interrupter 101 thorough contact pin 109 carried. As related to the 1 explained in detail, closes when moving the first contact pin 109 towards the interrupter tube outer space of the first vacuum interrupter 101 (ie in the direction of the arrow 113 ) the electrical contact between the first fixed contact 103 and the first moving contact 105 , When moving the first contact pin 109 in the direction of the interrupter interior of the first vacuum interrupter 101 (Arrow 111 ) opens the electrical contact between the first fixed contact 103 and the first moving contact 105 again.

In contrast to the vacuum interrupter tube 1 exist at the first vacuum interrupter 101 only parts 115 the surface of the contact pin 109 as well as contact discs 117 and 119 made of arc-resistant material, while that of the moving contact 105 facing away from the end face, the inner surface of the fixed contact 103 , the inner surface of the moving contact 105 and the inner bottom surface of the moving contact 105 Made of cheaper copper. Of course, these surfaces made of copper can also be provided with an arc-resistant material.

In the upper part of the 2 is a second vacuum interrupter 120 shown, which is a fixed contact 122 and one regarding this fixed contact 122 slidably arranged moving contact 124 having. The moving contact is arranged by a displaceable, a wall 126 the second vacuum interrupter 120 thorough contact pin 128 carried. If this contact pin 128 in the direction of the interrupter interior of the second vacuum interrupter 120 (ie in the direction of the arrow 130 ) is moved, then closes the electrical contact between the fixed contact 122 and the moving contact 124 , Will then the contact pin 128 in the direction of the switching tube outer space of the second vacuum interrupter 120 moved (ie in the direction of the arrow 132 ), then opens the closed contact between the fixed contact 122 and the moving contact 124 the second vacuum interrupter 120 again.

The contact pin 109 the first vacuum interrupter 101 is mechanical with the contact pin 128 the second vacuum interrupter 120 coupled. In the exemplary embodiment, the coupling is realized such that one outside the first vacuum interrupter 101 lying end face of the contact pin 109 the first vacuum interrupter 101 with an end face of the contact pin 128 the second vacuum interrupter 120 is rigidly connected, said end face of the contact pin 128 outside the second vacuum interrupter 120 lies. The contact pin 109 the first vacuum interrupter 101 So goes into the contact pin 128 the second vacuum interrupter 120 over, for example, is bolted to this.

At the contact pin 128 the second vacuum interrupter 120 is a drive and power supply bolt 134 attached, which on the one hand to the power supply for both the moving contact 124 the second vacuum interrupter 120 as well as for the moving contact 105 the first vacuum interrupter 101 serves. In addition, about this bolt 134 also a driving force for both the moving contact 124 the second vacuum interrupter 120 as well as for the moving contact 105 the first vacuum interrupter 101 initiated. As with a double arrow 136 indicated, by means of this driving force, the first vacuum interrupter 101 and the second vacuum interrupter 120 simultaneously switched on or off.

In another embodiment, however, the contact pins of the two vacuum interrupters are not rigidly coupled, but the coupling takes place with the interposition of a spring and / or damping element. Such a spring element and / or damping element may for example consist of a substantially circular cylindrical elastomeric body, which the contact pin 109 the first vacuum interrupter 101 elastic with the contact pin 128 the second vacuum interrupter 120 combines.

It a vacuum interrupter was described in which the electric Contact between the moving contact and the fixed contact with only small external Forces or without external forces (powerless) open and / or kept open. In addition, was an arrangement with such a vacuum interrupter and a second vacuum interrupter described in the at the first-mentioned vacuum interrupter of the electrical contact also with only small forces or powerless open and / or can be kept open. With this arrangement can continue very simple and in a structurally compact design two Open or close vacuum interrupters simultaneously, without that mechanical elements for deflecting or reversing the direction a driving force need to be provided.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 2633543 A1 [0002, 0017]

Claims (12)

Vacuum interrupter ( 1 ) with a fixed contact ( 17 ) and with respect to the fixed contact movably arranged moving contact ( 19 ) for switching current and voltage, wherein the moving contact ( 19 ) arranged with a displaceable, a wall ( 7 ) of the vacuum interrupter by cross-bolt ( 9 ), characterized in that the contact pin ( 9 ) when moving in the direction of the interrupter outer space ( 35 ) an electrical contact between the fixed contact ( 17 ) and the moving contact ( 19 ) and when moving in the direction of the interior of the interrupter tube ( 33 ) opens the electrical contact. Vacuum interrupter according to claim 1, characterized in that the fixed contact ( 17 ) is hollow cylindrical and the contact pin ( 9 ) the fixed contact ( 17 ). Vacuum interrupter according to claim 1 or 2, characterized in that the moving contact ( 19 ) with respect to the hollow cylindrical fixed contact ( 17 ) is formed lid-shaped. Vacuum interrupter according to one of the preceding claims, characterized in that in the switched-on state the vacuum interrupter ( 1 ) the moving contact ( 19 ) an end opening of the hollow cylindrical fixed contact ( 17 ) at least partially closes. Vacuum interrupter according to one of the preceding claims, characterized in that in the switched-on state the vacuum interrupter ( 1 ) an annular end face ( 43 ) of the hollow cylindrical fixed contact ( 17 ) the moving contact ( 19 ) touched. Vacuum interrupter according to one of the preceding claims, characterized in that at least parts ( 37 ) of the surface of the contact pin ( 9 ) consist of arc-resistant material. Vacuum interrupter according to claim 6, characterized in that at least parts of the surface of a in the interior of the hollow cylindrical fixed contact ( 17 ) arranged portion of the contact pin ( 9 ) consist of arc-resistant material. Vacuum interrupter according to one of the preceding claims, characterized in that at least parts of the inner lateral surface ( 39 ) of the hollow cylindrical fixed contact ( 17 ) consist of arc-resistant material. Vacuum interrupter according to one of the preceding claims, characterized in that at least parts of the moving contact ( 19 ) facing away from the end face ( 41 ) of the hollow cylindrical fixed contact ( 17 ) consist of arc-resistant material. Arrangement with a first vacuum interrupter ( 101 ) according to one of claims 1 to 9 and with a second vacuum interrupter ( 120 ) with a fixed contact ( 122 ) and with respect to the fixed contact movably arranged moving contact ( 124 ), whereby the moving contact ( 124 ) arranged with a displaceable, a wall ( 126 ) of the second vacuum interrupter ( 120 ) thorough contact pins ( 128 ), and this contact bolt ( 128 ) when moving ( 130 ) in the direction of the interrupter interior of the second vacuum interrupter tube ( 120 ) an electrical contact between the fixed contact ( 122 ) and the moving contact ( 124 ) and when moving ( 132 ) in the direction of the outer tube of the second vacuum interrupter tube ( 120 ) opens the electrical contact, and the contact pin ( 109 ) of the first vacuum interrupter ( 101 ) mechanically with the contact pin ( 128 ) of the second vacuum interrupter ( 120 ) is coupled. Arrangement according to claim 10, characterized in that the contact pin ( 109 ) of the first vacuum interrupter ( 101 ) in the contact pins ( 128 ) of the second vacuum interrupter ( 120 ) passes over. Arrangement according to claim 10 or 11, characterized in that the contact pin ( 109 ) of the first vacuum interrupter ( 101 ) and the contact pin ( 128 ) of the second vacuum interrupter ( 120 ) are coupled together with the interposition of a mechanical spring or damping element.