WO2017036711A1 - Vacuum interrupters having a retaining element receptacle and/or a retaining element, and method for producing the same - Google Patents

Abstract

The invention relates to vacuum interrupters for low voltage systems, medium voltage systems, and high voltage systems having a retaining element receptacle and/or a retaining element, and to a method for producing the same. The retaining element (5) is designed such that the retaining element prevents the moving contact (1) and/or the fixed contact (1) from sliding through the flange (3) in an unsoldered state.

Description

description

Vacuum interrupter with a Halteelementaufnähme and / or ei ^¬ nem holding element and method for producing such

The invention relates to a vacuum interrupter for low voltage ^¬ plants, medium voltage systems and high voltage systems or low voltage devices, medium voltage devices and high voltage equipment and a manufacturing method for producing such.

DE 32 16 251 AI describes a vacuum interrupter with egg ^¬ nem fixed contact and a moving contact. It is also disclosed that the vacuum interrupter is sealed vacuum-tight, in which the moving contact and the fixed contact each with a flange by means of soldering with one or more

Ceramic tubes is connected.

Nowadays, vacuum interrupters are standard soldered by so-called "one-shot brazing" in a step that ^¬ ser step also means closure soldering. It all components are plugged together, provided with solder material and evacuated in a single operation in a vacuum oven and soldered. To complete to ensure closure soldering, all the parts must pass the gravity or external brackets in the correct position to be kept in the furnace by your own phrase ^¬ ne weight of / in this type of production. is They preferred this fixation by the own weight / gravity as this the components makes it possible for the solder to liquefy during liquefaction.

This method reaches its limits when, due to the tube geometry, it is necessary that the upper contact must be inserted through the associated flange from below, ie inside or more precisely the vacuum side of the flange. In such a configuration, it is not possible for the contact to be in the position due to gravity. tion in which it is to be soldered to the flange with the contact.

The object of the invention is therefore to provide a vacuum tube and a method for producing selbiger vacuum tube, which makes it possible for soldering in the top furnace contact (moving contact or fixed contact) from below, ie from the inside or more precisely from the vacuum side of the respective flange to guide through the respective flange and still achieve a hold of the upper contact in the soldering position by its own weight / gravity.

This object is achieved by the features of the un ^¬ dependent claims 1 and 11 and the dependent thereof dependent claims.

A vacuum interrupter according to the invention for use in high-voltage installations and / or medium-voltage installations and / or low-voltage installations or devices has the following features:

 A first flange, wherein the first flange is a

 Having a gas side and a vacuum side and an opening having a first inner diameter extending from the gas side to the vacuum side,

 - A second flange, wherein the second flange a

 Having a gas side and a vacuum side and an opening having a second inner diameter extending from the gas side to the vacuum side,

 a moving contact soldered to the first flange and extending through the opening of the first flange,

 - A soldered to the second flange fixed contact which extends through the opening of the second flange, and wherein

 - The moving contact has a holding element and / or the

Fixed contact has a holding element, and / or

the moving contact on the gas side of the first flange has a recess or groove for engaging a retaining element mentes and / or the fixed contact on the

Gas side of the second flange has a recess or groove for engaging a holding element. The holding element is designed such that it prevents the movement ^¬ contact and / or fixed contact in the unerlöteten state from slipping through the flange.

In a preferred embodiment, the moving contact and / or the fixed contact is soldered to the holding element.

It is also preferred that the retaining element is soldered on the gas side of the flange with the respective flange. It is preferred that the holding element is designed such that it makes it possible to guide the moving contact and / or the fixed contact from the inside, ie the vacuum side, through the respective flange in the unsoldered state and then to hold it in the desired position with the holding element, If gravity would move the contact without the holding element from the ge ^¬ desired position. This is the case in particular when the gas side of the respective flange, which is to be soldered to the moving contact and / or the fixed contact, points upwards and the moving contact and / or the fixed contact from inside, ie the vacuum side, through the

Flange is guided.

It is further preferred that the first inner diameter and the second inner diameter are equal.

It is also preferred that the holding element is soldered both with the respective flange, as well as with the respective contact. In one embodiment, the retaining element is soldered to the gas side of the first flange and / or the gas side of the second flange. In a further embodiment, the holding element is soldered in a recess on the gas side of the first flange and / or second flange with the moving contact and / or the fixed contact.

In a further embodiment, the holding element is in a contour of the first flange and / or the second flange. It is also preferred that the retaining element is soldered in the contour with the first flange and / or the second flange.

It is also preferred that

 - The moving contact in the region of the first flange

 and / or the fixed contact in the region of the second flange has a circular cross-section,

 - The moving contact in the region of the first flange

 and / or the fixed contact in the region of the second flange has a first diameter,

 - The moving contact and / or the fixed contact in the region of the respective holding element has a second diameter,

- the moving contact and / or the fixed contact outside the second flange and on the gas side of the first flange and / or the gas side of the second flange has a third diameter in a Be ^¬ rich outside of the holding element and outside of the first flange and / or,

- the retaining element encloses the moving contact and / or the clock Festkon ^¬ completely or to a major part,

the retaining element has an opening with a third inner diameter, through which the respective moving contact and / or the respective fixed contact extends,

the first diameter and the third diameter are each larger than the second diameter,

the third inner diameter is less than or equal to the first and third diameters and the third inner diameter is greater than or equal to the second diameter, and - The holding member has an extension which extends over the first diameter.

The extension extends over the first diameter such that a fourth diameter is formed, which is larger than the first inner diameter and / or second inner diameter. Thus, the holding element engages in the Be ^¬ wegkontakt and / or the fixed contact that is fixed on the one hand on the moving contact and / or the fixed contact and by its extension a pass of the holding element on the loading contact and / or the fixed contact by the first inner diameter and / or second inner diameter is not possible.

This selection of the diameter and inside diameter makes it possible that the retaining element after performing the above lie ^¬ constricting moving contact and / or the fixed contact by the overlying flange from below so mounted on the upper movable contact and / or fixed contact, the moving contact and / or the fixed contact is held by its own weight / gravity in the position to be soldered.

It is preferred that the retaining element is formed by an annular disc or a ring or a spring ring. The advantage of a spring ring, that it is not clock the Bewegkon- and / or the fixed contact needs to be pressed, can be son ^¬ countries performed in the stretched state over a portion of the moving contact and / or the fixed contact, and then into the groove or recess of the respective moving contact and / or the respective fixed contact.

In a further embodiment, the holding element consists of two or more parts which individually surround each part of the moving contact and / or the fixed contact and to ^¬ together enclose the entire or the greater part of the moving contact and / or the entire or the greater part of the fixed contact , Preference is given to the use of open rings or open annular discs as a holding element. However, the parts of the holding element can also consist of any other geometric shapes, such as cuboids, cubes, trapezes, cones, conical segments, balls or spherical segments.

In another embodiment

- there is a supporting member of two or more Halteelemen ^¬ th, preferably ring segments,

 the moving contact has in the region of the first flange and / or the fixed contact has a circular cross-section in the region of the second flange,

- The first flange and / or the second flange has recesses in shape and size such that the holding elements, preferably ring segments, pass through these Aussparun ^¬ gene,

 - The holding elements, preferably ring segments, are rotated relative to the position of the recesses, and that

 a closure element on the vacuum side of the first

Flange and / or second flange is provided on the Be ^¬ wegkontakt and / or fixed contact and is soldered to the first and / or second flange, that the closure element closes the recesses on the respective flange.

This embodiment enables the overhead contact from inside or below, ie from the vacuum side to lead through the flange, the holding elements, preferably Ringseg ^¬ elements to pass through the recesses and the upper contact by rotating in the solderable position hold.

In a further embodiment, the retaining element is formed by a rod, preferably a cylinder, is formed, which is connected to the depending ^¬ weiligen moving contact and / or the respective fixed contact in such a way that it approaches the at respective moving contact and / or on the respective fixed contact

Gas side connects and wherein the rod, preferably cylinder, has a diameter which is larger than the first nendurchmesser and / or second inner diameter of the respective flange. In this embodiment, the Halteele ^¬ ment is thus formed by a rod, preferably cylinder, which is connected to the respective contact after the overhead contact was guided from below through the flange.

It is preferred that the retaining element formed by the cylinder ^{¬ is} screwed to the respective moving contact and / or fixed contact.

In particular, it is preferred that the holding element has a Zap ^¬ fen with external thread and the respective moving contact and / or fixed contact an end bore with an internal thread.

The method for producing a vacuum interrupter for use in high-voltage installations and / or medium-voltage installations and / or low-voltage installations or devices comprises a so-called "one-shot brazing" for the purpose of closure soldering. "One-shot brazing" means that all components plugged together and provided with a Lot evacuated and soldered in a work ^¬ gang in a vacuum oven. The overhead moving contact and / or fixed contact is guided from below, so the vacuum side or from the inside, by an overhead flange, and prevents the sliding back of the overhead moving contact and / or fixed contact by the overhead flange by means of a holding element.

 It is preferred that the retaining element is soldered during closure soldering at least with the flange.

It is preferred that the retaining element is positioned on the gas side of the overhead flange and. That the holding element is inserted into a Vertie ^¬ evaporation or groove of the respective overhead contact in such a way that the holding element to the respective movable is further preferred contact and / or the respective fixed contact encloses or encloses the greater part.

In particular, it is preferred that the holding element of holding elements, preferably ring segments, consists, in a

Level on the respective contact are arranged so that they fit through corresponding recesses in the respective overhead flange, and

that the respective overhead moving contact and / or fixed contact is prevented from slipping out by turning relative to the recesses in the respective upper flange.

But the retaining elements of the retaining element can also consist of be ^¬ arbitrary other geometric shapes, such as for example blocks, cubes, trapezoids, bowling, bowling segments, spheres or spherical segments. The trapezoids, cone, truncated segments, ball, ball segments may be advantageous ^¬ way especially if a particularly simple threading of the retaining elements ^¬ is desired in the recesses.

A closure element is on the vacuum side of the first

Flange and / or second flange provided on the Bewegkon ^¬ clock or fixed contact such that it closes the recesses in the respective flange. It is further preferred that the holding member by a rod, preferably a cylinder, is formed which is so connected to the jeweili ^¬ gen moving contact and / or stationary contact, that the rod, preferably of the cylinders to the respective moving contact and / or fixed contact connects on the gas side and wherein the rod, preferably the cylinder, has a diameter which is greater than the first inner diameter and / or the second inner diameter through which the moving contact and / or the fixed contact is guided by the flange. Figure 1 cross-sectional view through a moving contact or fixed contact with flange and an annular support member 2 shows a sectional view through a moving contact or fixed contact with a flange and a disk-shaped holding element FIG. 3 shows a plan view of a moving contact or fixed contact with a flange and a disk-shaped holding element according to FIG

FIG. 4 shows a sectional view through a moving contact or fixed contact with a flange and a retaining element axially fixed to the moving contact and / or fixed contact

Figure 5 cross-sectional view through a moving contact or fixed contact with flange and on the moving contact or the fixed contact radially mounted holding elements

Figure 6 top view of a moving contact or fixed contact with flange and on the moving contact or the fixed ^¬ contact radially mounted holding elements

In Figure 1, an embodiment of a held with an annular support member 5 in a desired position on a flange 3 moving contact and / or fixed contact 1. The moving contact and / or fixed contact 1 has a recess or groove 2, which is suitable annular holding ^¬ element 5 record. In this particular embodiment, the flange 3 has a contour 4, which is suitable for receiving the annular holding element 5, at least partially. The moving contact and / or fixed contact 1 is guided by the vacuum ^¬ page 7 of the flange 3, ie from the inside, through the flange. The annular retaining element 5 is arranged on the gas side 6 of the flange. When sealing the flange 3 is soldered to the moving contact or fixed contact, while the annular holding ^¬ element 5 can be soldered to the flange 3 and / or the moving contact or fixed contact 1. The moving contact 1 has a first diameter 30 and or the fixed contact 1 has a second diameter 30. In the figures, only one contact, optionally a moving contact or fixed contact 1 is shown. Therefore, the reference numerals do not distinguish between them.

The holding element, in FIG. 1 a ring or ring segment or spring ring, has a third inner diameter 41 and a fourth diameter 33. The moving contact and / or the fixed contact 1 at the thinnest point has a second diameter 32 at the depression or groove 2 on.

The respective flange 3 has an opening between the

Gas side 6 and the vacuum side 7, wherein the opening has a first inner diameter 40 for the first flange 3 and a second inner diameter 40 for the second flange 3 has. The first inner diameter 40 and the second in ^¬ nendurchmesser 40 may be the same, but need not be equal. Since in each case only one flange 3 per figure is shown, no distinction is made in the reference numerals between these and the first inner diameter 40 or second inner diameter 40. In the figures, only one flange 3 for selectively a moving contact 1 or a fixed contact 1 is shown.

The moving contact and / or the fixed contact 1, in the region of the respective flange 3, through which it is guided, and au ^¬ ßerhalb the recess or groove 2, a first diameter 31.

Figure 2 shows an embodiment in which the Bewegkon ^¬ tact and / or fixed contact 1 of the vacuum side 7 of the Flan ^¬ cal 3, ie from the inside, is guided through the flange 3 or is.

The moving contact and / or fixed contact 1 is from a two ^¬ divided disc-shaped holding member 5 ^λ in a desired th position held on a flange 3. Thereby, which consists of two half-discs holding member is preferably 5 ^λ positio ned in ^¬ a contour ^λ 4 on the gas side of the flange. 3

3 shows a plan view of a moving contact and fixed contact 1 in a flange 3 with a group consisting of two half-discs ^¬ retaining element 5 ^λ. Alternatively, the retaining element can also consist of more than two elements / discs. In particular, the two or more elements need not be the same size.

The line S ^x shows the position of the section, which is formed in Figure 2 from ^¬ . In Figure 4 is a sectional view of an embodiment of a holding member 5 ^{λ λ} shown, which is axially fixed to the Bewegkon ^¬ clock or the fixed contacts 1.

In this embodiment, the moving contact or fixed contacts 1 is guided by the vacuum side 7 of the flange 3, ie from the inside, through the flange 3. The moving contact or fixed contacts 1 has the front side a bore with Innengewin ^¬ de 12. The holding member 5 ^{λ λ} has a pin with outer ^¬ thread 14, which can be screwed to the bore with internal thread 12. After screwing prevents the larger diameter of the holding element 5 ^{λ λ} that the Bewegkon ^¬ clock or fixed contact 1 can slip out of the flange 3.

In a preferred variant, the moving contact or fixed contacts 1 with the holding element 5 ^{λ λ} th at Verschlusslö- is soldered.

Figure 5 shows a sectional view of an embodiment in which the holding member 5 ^{λ λ λ} from several radially around the circumference of the moving contact or the fixed contact 1 arranged holding te elements is formed. The holding elements can be made in one piece with a part of the moving contact or with the whole moving contact 1 and / or with a part of the fixed contact or the whole fixed contact 1. Alternatively, NEN the holding elements also be attached to the moving contact and / or fixed ^¬ contact 1.

The flange 3 has recesses 20 which are formed such that the holding elements of the holding element 5 ^{λ λ λ} can be guided in a first orientation through the recesses 20, in a second orientation, by the rotation of the moving contact and / or Fixed contact 1 is reached about its axis A, can not slip back through the recesses 20.

In addition, the moving contact and / or fixed contact 1 has a projection as a closure element 18 which is sufficiently large to cover the recesses 20 on the vacuum side 7 of the flange 3.

FIG. 6 shows a top view of a moving contact or fixed contact 1 with a flange 3 and holding elements radially fastened to the moving contact or the fixed contact 1, which form the holding element 5 ^{λ λ λ} . The holding elements of the Halteele ^¬ Mentes 5 ^{λ λ λ} are in the figure with respect to the recesses 20 of the flange 3 so ver ^¬ rotates about the axis A of the flange 3 that prevents slipping back of the moving contact or the fixed contact 1 through the recesses 20 of the flange 3 becomes.

The line S ^xxx shows the position of the section, which is shown in FIG.

Reference sign list

1 moving contact or fixed contact

 2 deepening, groove

3 flange

4, 4 ^λ contour

 5 annular retaining element

5 ^λ disk-shaped retaining element consisting of 2 half ^¬ slices

5 ^{λ λ} axially on the moving contact or fixed contact ^¬ set retaining element

5 ^{λ λ λ} peg-like, radially attached to the moving contact or fixed ^¬ contact holding elements

 6 gas side

7 vacuum side

 12 bore with internal thread

 14 pins with external thread

 18 attachment, closure element

 20 recesses

30 third diameter

 31 first diameter

 32 second diameter

 33 fourth diameter

 40 first inner diameter or second inner diameter

 41 third inner diameter

A axis

 cutting plane

Claims

claims

1. Vacuum interrupter for use in low, medium and / or high voltage equipment and / or low, medium and / or high voltage systems, with

 a first flange (3), wherein the first

Flange (3) has a gas side (6) and a vacuum ^¬ side (7) and a first opening having a first inner diameter which extends from the gas side (6) to the vacuum side (7), a second flange (3), wherein the second flange (3) having a gas side (6) and a vacuum ^¬ side (7) and a second opening having a second inner diameter extending from the gas side (6) to the vacuum side (7), an to the first Flange (3) soldered moving contact (1), which extends through the first opening of the first flange (3), one with the second flange (3) soldered fixed contact (1) extending through the second Öff ^¬ tion of the second flange ( 3), characterized in that

the moving contact (1) has a holding element (5) on ^¬ and / or the fixed contact (1) a retaining element (5), and / or

 the moving contact (1) on the gas side (6) of the first flange (3) has a recess (2) for engaging a holding element (5) and / or the fixed contact (1) on the gas side (6) of the second flange (3) a depression

(2) for engaging a retaining element (5) has on ^¬ .

2. vacuum interrupter according to claim 1,

characterized in that - The retaining element (5) with the gas side (6) of the first flange (3) and / or the gas side (6) second Flan ^¬ cal (3) is soldered, or

 - The retaining element (5) with the first flange (3) and / or the second flange (3) is soldered.

Vacuum interrupter according to claim 1,

characterized in that the holding element (5) in a recess (2) on the gas side (6) of the first flange (3) and / or the two ^¬ th flange (3) with the moving contact and / or the fixed contact (1) is soldered ,

Vacuum interrupter according to one of the preceding claims, characterized in that a

 - The moving contact (1) in the region of the first flange (3) and / or the fixed contact (1) in the region of the second flange (3) has a circular cross section,

- The moving contact (1) in the region of the first flange (3) and / or the fixed contact (1) in the region of the second flange (3) has a first diameter,

- The moving contact and / or the fixed contact (1) in Be ^¬ rich of the respective holding element (5) has a second diameter,

- The moving contact and / or the fixed contact (1) in an area outside of the holding element (5) and outside the first flange (3) and / or outside of the second flange (3) and on the gas side (6) of the first Flan ^¬ cal (3) and / or the gas side (6) of the second flange (3) has a third diameter,

- the holding element (5) the moving contact and / or solid ^¬ contact (1) closes completely or to a greater part to ^¬,

 - The holding element (5) has a third opening with a third inner diameter through which the respective moving contact and / or fixed contact (1) extends,

the first diameter and the third diameter are each larger than the second diameter, the third inner diameter is smaller than the first and third diameters and the third inner diameter is greater than or equal to the second diameter, and

 - The holding element (5) has an extension which extends over the first diameter.

5. vacuum interrupter according to claim 4,

characterized in that the holding element (5 ^λ ) consists of two or more parts which individually surround one part of the moving contact and / or fixed contact (1) and together the whole or a larger part of the moving contact or the whole or a larger part of the fixed contact (1) enclose.

6. vacuum interrupter according to claim 4 or 5,

characterized in that the holding element (5, 5 ^λ ) is formed by an annular disc or egg ^¬ nen ring or a spring ring.

7. Vacuum interrupter according to one of claims 1 to 3,

 d a d u r c h e c e n c i n e s that

- The holding element (5 ^λ ) consists of two or more Halteelemen ^¬ th,

 - The moving contact (1) in the region of the first flange (3) and / or fixed contact (1) in the region of the second flange (3) has a circular cross section,

the first flange (3) and / or the second flange (3) has recesses (20) in the shape and size such that the retaining elements fit through these recesses (20),

- The holding elements relative to the position of the recesses (20) are twisted, and

 - That a closure element (18) on the vacuum side (7) of the first flange (3) and / or second flange (3) provided on the moving contact and / or fixed contact (1) and with the first and / or second flange (3 ) that it is the recesses (20) in the

Flange closes. Vacuum interrupter according to one of claims 1 to 3, characterized in that the holding element (5 ^{λ λ} ) by a rod, preferably a cylinder, is formed, which is connected to the respective moving contact and / or fixed contact (1) such that it contacts the respective moving contact and / or fixed contact (1) on the gas side (6) connects and where ^¬ in the rod, preferably cylinder, has a diameter which is greater than the first inner diameter and / or second inner diameter.

Vacuum interrupter according to claim 8,

characterized in that the holding element ^¬ (5 ^{λ λ)} formed by the rod, preferably cylinder, is screwed to the respective moving contact and / or fixed contact (1).

Vacuum interrupter according to claim 9,

characterized in that the holding element (5 ^{λ λ} ) has a pin with external thread (14) and the respective moving contact and / or fixed contact (1) has a front-side bore with internal thread (12) ^¬ .

Method for producing a vacuum interrupter for use in high-voltage installations and / or medium-voltage installations and / or low-voltage installations by means of one-shot-brazing,

d a d u r c h e c e n c i n e s that

- The components of the Vakkumröhre are provided with solder and ^¬ sammengesteckt, wherein an overhead moving contact or fixed contact (1) from below, so the Vakuumsei ^¬ te (7) by an overhead flange (3) is guided, and

- The sliding back of the overhead moving contact or fixed contact (1) through the overhead flange (3) is prevented by means of a holding element (5), where ^¬ at

the flange (3) with the respective moving contact or the respective fixed contact (1) is soldered.

Method according to claim 11,

In the case of closure soldering, the retaining element (5) is brazed at least to the flange.

Method according to claim 11 or 12,

characterized in that the holding element (5, 5 ^λ ) on the gas side (6) of the above ^¬ lying flange (3) is positioned.

Method according to one of claims 11 to 13,

characterized in that the holding element (5, 5 ^λ ) in a recess or groove (2) of the respective overhead moving contact or fixed contact (1) is inserted such that the holding element (5, 5 ^λ ) encloses the respective moving contact or fixed contact (1) or for the most part encloses.

Method according to claim 11 or 12,

characterized in that the holding element (5 ^{λ λ λ} ) consists of holding elements which are arranged in a plane on the respective moving contact or fixed contact (1) such that they fit through corresponding recesses (20) in the respective upper flange (3), and

that the respective overhead moving contact or fixed ^¬ contact (1) by rotation relative to the recesses (20) in the respective overhead flange (3) is secured against slipping out, and

a closure element (18) is provided on the vacuum side (7) of the first flange (3) and / or second flange (3) on the moving contact or fixed contact (1). can be seen that it closes the recesses (20) ver in the flange.

Method according to claim 11 or 12,

characterized in that the holding element (5 ^{λ λ} ) by a rod, preferably Zy ^¬ linder, is formed, which is connected to the respective moving contact and / or fixed contact (1) such that it is connected to the respective moving contact and / or fixed contact ( 1) on the gas side (6) and where ^¬ in the rod, preferably cylinder, has a diameter which is greater than the diameter of the moving contact and / or fixed contact (1) through the flange (3) is guided.