DE19846435A1 - Contact arrangement for vacuum chamber, has second contact point in parallel with coil opening first contact for switch-off, in which current flows in coil and first contact point to generate axial magnetic field - Google Patents

Abstract

The contact arrangement has a first contact point (15,19) with a first fixed contact part, and a first movable contact part attached to a movable contact stem. An electrically conducting current feed is connected to the first movable contact part. There is a current output electrically connected to the first fixed contact part, and a coil (32) for generating an axial magnetic field. A second contact point (20,21), connected in parallel with the coil, is arranged with respect to the first contact point. This is such that the second contact point opens first contact during switching off, after which the current flows through the coil and the first contact point, to generate an axial magnetic field.

Description

The invention relates to a contact arrangement according to the preamble of claims 1 and 10.

Such a contact arrangement is present in practically all vacuum chambers, where the arc between the contact pieces due to an axial magnetic field which is designed as a diffuse arc. In principle, the vacuum has Chamber an insulating body made of ceramic, which is on both sides of a lid Metal is complete; one lid carries a fixed contact stem on which a fixed contact piece is attached to its inner end; the other, moving con Taktstengel is movable with the vacuum-tight interposition of a bellows fixed the other lid; each vacuum chamber also has an interior a shield that prevents contact separation with a Arc phenomenon metal vapor deposited on the inner surface of the ceramic becomes, which leads to a deterioration in the insulating ability of the ceramic.

To achieve an axial magnetic field, it is known to add a coil to the contact point organize; this coil, which is usually assigned to the movable contact piece, is generated an axial magnetic field, which causes the arc to burn as a diffuse arc.  

The coil, which is arranged within the vacuum chamber, often requires space, so that a very small vacuum chamber is often not provided with such a coil that can. In addition, a coil inside the vacuum chamber usually causes an objection increase in the current path.

The object of the invention is therefore also a vacuum chamber with a small outside diameter to be provided with a coil so that between the contact pieces Axial magnetic field is generated.

According to the invention, this task is characterized by a first solution nenden features of claim 1 solved.

According to the invention, the first contact point is assigned a second contact point net, which is controlled opposite the first contact point so that it opens first, the coil is connected in parallel to the first contact point, so that after opening the current flows through the second contact point via the coil; the coil creates an axialma gnetfeld that the arc when opening the first contact point in a diffuse Arc transforms.

The coil is located outside the vacuum chamber; also the second con cycle point.

A further embodiment of the invention can be found in claim 10. Here there is a cylindrical tube inside the vacuum chamber that is spaced too the fixed contact piece of the contact point within the vacuum chamber Chen surrounding contact stem and on its facing towards the fixed contact piece free end has an electrode; the other end of the cylindrical tube is with connected to the lid to which the bellows is connected.

In this version, the current flows from the current when it is switched on Guide to the contact stem for the movable contact piece, from there to the fixed one Contact piece and over the contact stem for the fixed contact piece to the downstream guide.  

When the contact point opens, there is between the moving contact piece and the fixed contact piece an arc that com immediately on the ring electrode mutated. In this case, a partial flow flows through the coil, through the cylindrical tube to the ring electrode and over the arc towards the fixed contact piece, so that after a short time immediately after opening the current through the coil an axialma gnet field generated.

Further advantageous embodiments of the invention are the further subclaims Chen to take.

Using the drawing, in which two embodiments of the invention are shown are, the invention and other advantageous refinements and improvements stations of the invention are explained and described in more detail.

Show it:

Fig. 1 is a sectional view through a first embodiment of a erfindungsge MAESSEN switch,

Fig. 2 shows a special construction of the second contact point, and

Fig. 3 shows a further embodiment of the invention.

A vacuum chamber 10 , which is only shown schematically, has a Keramikzy cylinder 11 , which is closed on both ends by a cover 12 and 13 abge. The cover 12 is penetrated by the contact stem 14 for a movable contact piece 15 , wherein there is a vacuum-tight connection between the cover 12 and the contact stem 14 . The cover 13 has an opening 16 , on the inner edge of which a bellows 17 is fastened at one end and connected in a vacuum-tight manner, the other end of which is connected in a vacuum-tight manner to the movable contact stem 18 of the movable contact piece 19 . The two contact pieces 15 and 19 thus form a first contact point.

Outside the vacuum chamber 10 there is a second contact point with a contact piece 20 and another contact piece 21 ; to the contact piece 20 connects a drive rod 21 , which has a cylindrical portion 22 ; one contact piece 20 is provided with an opening 23 through which a driver pin 24 extends, which is fastened to the other contact piece 21 . The driver pin 24 engages in the interior 25 of the cylindrical section. From the cylindrical section has axially extending, opposite slots 26 and 27 , in which a perpendicular to the driving pin 24 attached to this driving pin 28 is introduced. By means of a helical compression spring 29 , the driving pin 28 is continuously pressed against the end of the two slots 26 and 27 facing the one contact piece 20 .

At one contact piece, a power supply 30 connects, which is connected via a connec tion line 31 with a coil 32 arranged outside the insulating body 11 ; the other end of the coil 32 is electrically conductively connected to the other contact piece 21 .

In the closed state of the vacuum chamber, the second contact point composed of the two contact pieces 21 and 20 is closed; one contact piece 20 bears against the other contact piece 21 . The Mitnehmerbol zen 28 is located at the lower end of the two slots 26 , 27 shown in the drawing in FIG. 1.

In this state, the other contact piece is also pressed against the end face of the movable contact stem protruding from the vacuum chamber 10 .

If a switching operation is now to take place, then the drive rod 21 is actuated downward in the direction of arrow A (switch-off); the other contact piece 20 also moves in the direction of arrow A and separates from the one contact piece 21 ; as a result, the current 1 now flows from the feed 30 via the one contact piece 20 , the line 31 to the coil 32 and from there back to the other contact piece 21 and via the contact stem 18 , the two contact pieces 15 and 19 to the fixed contact piece 14 and from there for power dissipation. The initially tensioned compression spring 29 presses the driver upward, so that the other contact piece 21 still comes to rest on the end face of the contact stem 18 . Only when the one contact piece 20 facing the end of the slots 26 and 27 against the driver pin 28 , the movable con tact piece 19 will move in the direction of arrow A due to a switch-off spring, not shown, so that between the contact pieces 15 and 19 due to the coil 32 and the axial magnetic field generated thereby, an arc of the diffuse type arises. To switch on, the drive rod moves in the opposite direction of the arrow A, one contact piece 20 moves against the other contact piece 21 and thereby the switching stem 18 or the switching stem of the contact stem 18 with the movable contact piece 19 is moved upward against the contact piece 15 via the other contact piece 21 pressed, wherein the driver pin slides again in the slots 26 and 27 towards the one end opposite the contact piece 20 of the slots.

Fig. 2 shows a particular embodiment of the second contact point. Executed on the drive rod 35 to the vacuum chamber 10 is a depression 36 in which there is a circumferential groove 37 in which a multi-contact element 38 is inserted. At the bottom of the recess 36 , there is an opening 39 , in the vicinity of which the recess 36 facing Ver also has a circumferential groove 40 , in which a multi-contact lamella 41 is likewise inserted.

The second contact point is now formed by the drive or the drive rod 35 , which is made of electrically conductive material and to which the power supply 30 (for the sake of comparability, the same reference number as in Fig. 1 has been used ver) is connected.

A bolt 42 engages in the recess as another contact point, which forms an electrically conductive connection with the multicon clock slats 38 after insertion into the recess. As mentioned, this bolt 42 corresponds to the other contact piece 21 in FIG. 1.

A driving rod 43 , which corresponds to the driving rod 24 and to whose inner end the driving bolt 28 is fastened, adjoins the end face of the bolt 42 which engages in the recess. The electrically conductive connection between the driving rod 43 and the drive rod 35 also takes place via the multi-contact lamellae; it should be noted that the bolt 42 and the driving rod 43 are made of less electrically conductive material.

The second contact point is accordingly formed by the bolt 42 and the drive rod 35 ; due to the combination of materials, a partial flow in any case flows over the coil, so that the coil generates an axial magnetic field at the first contact point.

FIG. 3 shows a further embodiment of the invention.

A vacuum chamber 50 is closed on its top in the drawing Fig. 3 (top) by means of a cover 51 , which is penetrated vacuum-tight by the fixed contact carrier rod 52 ; the inner end of the stem carries the fixed contact piece 53 .

The other end of the vacuum chamber 50 and the insulating body 54 is closed by a cover 55 , which has walls 56 longer than the cover 51 compared to the cover. The bowl bottom 57 of the cover 55 has an opening 58 , on the inner edge of which a bellows 59 is soldered; the other end of the bellows is also attached to a movable contact stem 60 in a vacuum-tight manner. The contact stem 60 has on its inside the vacuum chamber 50 an associated contact piece 61st

A carrier 62 adjoins the inner surface of the cylinder wall 56 , on which a tube piece 64 projecting toward the fixed contact piece 53 is attached, the free end of which forms an annular electrode 65 which is at a certain distance d from the fixed contact piece. The ring electrode 65 has a circular opening 66 through which the contact stem 60 extends when switched on. The protruding from the switching chamber 50 end 67 of the movable contact stem 60 is firmly connected to an annular element 68 , on the outer surface of which an annular groove 69 is introduced, in which there is a multi-contact lamella 70 or a similar multiple contact element. The contact element 68 is performed within a current supply carrier 71 wherein an electrically conductive connection between the element 68 and the support 71 is prepared from the multi-contact blades 70th

On the carrier 71 , a line end 72 connects to a coil 73 attached to the outside of the vacuum chamber, the other line end 74 of which is connected to the cover 56 .

Accordingly, in the switched-on state, a first partial current flows from the current supply 75 via the carrier 71 , the contact element 68 to the movable contact stem 60 and via the movable contact piece 61 to the fixed contact piece 53 , from there via the contact stem 52 to a current drain.

When a switch-off operation takes place, the movable contact stem 60 is shifted downward in the direction of arrow A, as a result of which the movable contact piece 61 is released from the fixed contact piece 53 . The resulting arc quickly commutes onto the ring electrode 65 and burns there as a diffuse arc. This is because a partial flow 12 flows through the coil and through the cylindrical tubular body into the ring electrode 65 and via the arc burning there to the fixed contact piece 53 .

A possible between the fixed contact piece 53 and the movable contact piece causes 65 burning part arc still a current flow I ₁ tion of the check power supply 75 via the movable contact stem 60 to the arc between the con tact pieces 53 and 65 towards the fixed contact stem 52nd

Claims (14)

1. Contact arrangement for a vacuum chamber having a first contact point with a fixed first and a movable first contact piece fastened to a movable contact stem, with a power supply piece that is electrically conductively connected to the movable first contact piece, and a power outlet that is electrically conductively connected to the fixed first contact piece, and with a coil associated with the contact pieces for generating an axial magnetic field, characterized in that a second contact point ( 21 , 20 ) is provided, to which the coil ( 32 ) is connected in parallel, that the contact points are assigned to one another so that when Switching off opens the second contact point ( 21 , 20 ) first and after opening the second contact point ( 20 , 21 ) the current flows through the coil ( 32 ) and through the first contact point ( 15 , 19 ), whereby an axial magnetic field is generated. 2. Contact arrangement according to claim 1, characterized in that the coil ( 32 ) is arranged outside the vacuum chamber ( 10 ). 3. Contact arrangement according to claim 1 or 2, characterized in that a contact piece ( 20 ) of the second contact point ( 20 , 21 ) with a drive rod ( 21 a) for actuating the vacuum chamber ( 10 ) is connected. 4., characterized Contact arrangement according to one of the preceding claims, in that the other contact piece (21) is resiliently pressed against the movable first contact piece bearing contact stem (18) and that between the on drive rod (21 a) and the other contact piece (21 is provided) a freewheel such that only after overcoming a switching-off the other contact piece (21) of the drive rod (21 is operable a). 5. Contact arrangement according to claim 4, characterized in that the other contact piece is connected to a driving rod ( 24 ) which extends through the one contact piece ( 21 ) and that the engaging in the drive rod ( 21 a) end of the driving rod ( 24 ) by means of a drive pin ( 28 ) with the drive rod ( 21 a) can be coupled. 6. Contact arrangement according to claim 5, characterized in that the slave bolt ( 28 ) in opposite slots ( 26 , 27 ) is axially guided and by means of a spring ( 29 ) against the one contact piece ( 20 ) located the end of the slots ( 26 , 27 ) is pressed. 7. Contact arrangement according to claim 6, characterized in that the slave bolt ( 28 ) consists of a material with low electrical conductivity. 8. Contact arrangement according to one of the preceding claims, characterized in that the one contact piece (35) has the second contact point has a recess (36) in which engages the other contact piece (42) and the latter via Vielfachkon clocking elements (37/38) is electrically connected. 9. Contact arrangement according to claim 8, characterized in that the one Contact piece is integrally connected to the drive rod. 10. Contact arrangement according to the preamble of claim 1, characterized in that the movable contact piece ( 61 ) from a within the vacuum umkammer ( 50 ) fixed cylindrical tube ( 64 ) is surrounded by electrically conductive material, the fixed first contact piece facing End carries a ring electrode ( 65 ) which is arranged at a distance from the fixed contact piece ( 53 ), the one end of the coil with the movable contact stem and the other end of the coil is electrically conductively connected to the cylindrical tube, and that the movable Contact piece is also surrounded by the ring electrode ( 65 ). 11. Contact arrangement according to claim 10, characterized in that the movable contact stem ( 60 ) in a current-carrying part ( 71 , 68 ) is passed through it, and is connected to it in an electrically conductive manner, and in that one end of the coil ( 73 ) on the current-carrying part ( 71 ) is electrically connected. 12. Contact arrangement according to claim 11, characterized in that the electrical connection between the movable contact stem ( 60 ) and the current carrying part ( 71 ) is made by means of multiple lamellae ( 70 ). 13. Contact arrangement according to one of claims 10 to 12, characterized in that the vacuum chamber ( 50 ) by means of a cup-shaped lid ( 55 ) is closed abge, on the lid base ( 57 ) a bellows ( 59 ) is attached, and that the cylindrical Tube ( 64 ) on the cover ( 62 ) is fixed. 14. Contact arrangement according to claim 13, characterized in that the cylindrical tube ( 64 ) has an axially extending slot over at least part of its length to avoid eddy currents.