DE2109327A1 - Electromagnetically operated switch, in particular cryoswitch - Google Patents

Description

8433-71 / Dr.ν.B / Elf February 4, 1971

Max Planck Society for the Advancement of Science e.V., 34 Göttingen, Bunsenstrasse IO

Electromagnetically operated switch, in particular cryoswitch

The present invention relates to an electromagnetically actuated switch, in particular a cryo switch two separately excitable coils, a movable armature that can be actuated by the magnetic field of the coils. and at least a pair of contact pieces controlled by the armature via an actuator.

Switches with these characteristics are in the form of electromagnetic Relays or contactors with two separate drive coils are known. The drive coils are common wound on an iron core and the armature also consists of a ferromagnetic component.

In some applications, such as plasma physics experiments and fusion apparatus, however, they should or can no components with ferromagnetic parts are used, because such parts cause undesirable forces or field distortions that interfere with the examinations will.

209837/0386

The present invention is therefore primarily based on the object of providing an electromagnetically actuatable Specify a switch that does not contain any ferromagnetic parts. This object is achieved by the in claim 1 characterized invention solved.

The present switch also has the advantage that none ferromagnetic parts are required, as well as a number of other benefits. In particular, it can be easily converted into a Cryoswitches, that is to say for connecting or interrupting superconducting lines, can be in its operating state can be switched by a single pulse and it can be achieved with very simple means that an unintentional Change of the operating state is avoided with great certainty.

Refinements and developments of the invention are characterized in the subclaims. The further training according to Claim 2 is very reliable and economical (both in terms of construction and control performance). The developments according to claims 3 and 4 are characterized by a particularly high level of security against unintentional Changes in the operating status with simultaneous simple and a reliable structure.

The development according to claim 5 makes a cryoswitch with particularly reliable contact and lower Resistance created when closed.

In the drawing, a switch according to an embodiment of the invention is shown;

209837/0386

Fig.l shows an axial section of the switch; FIG. 2 shows a section along a line 2-2 in FIG. 1, seen in the direction of the arrow; and

3 shows a plan view of the movable contact piece of the switch, seen from the stationary contact piece.

The main components of the switch shown contain two coaxial coils arranged at a distance from one another 10 and arranged between these coils movable armature 12, which is an annular disk-shaped part from a Electrically good conductive, non-ferromagnetic material, such as copper, and a sleeve-shaped hub for fastening has on an operating rod 14. The armature 12 can be attached to the actuating rod 14 by a split pin 16, for example be. The coils 10 are mounted in a housing 18 which also contains bearings for the actuating rod 14, which in FIG The direction of its axis 20, which coincides with the axis of the coils 10, is displaceable. The housing carries a connector 22 with terminals 24 for each of the two coils 10.

The armature 12 connected to the actuating rod 14 is biased by a toggle spring arrangement so that it respectively is pressed in the direction of the coil 10 closest to it. This toggle spring arrangement consists of one Number of approximately axially extending leaf springs 26 which are fastened to the rear end of the housing by screws 28 are. At the front free end, the leaf springs are each with the outer end of a pivotable rocker arm connected, the inner end in a groove 32 of a connected to the actuating rod 14 or formed on this Federal 34 intervenes.

The left end of the actuating rod in Figure 1 pushes in the closed position of the shown in Figure 1

209837/0386

Switch a movable contact piece 36, which will be explained in more detail with reference to Figure 3, against a fixed one Contact piece 38.

As FIG. 3 shows, the movable contact piece 36 contains a strip-shaped conductor 40 made of superconductor material, which is connected to a leaf spring 42. One end of the leaf spring 40 and the conductor strip 42 are firmly clamped, what is indicated by screw holes 44, while the other, free end to a point or tapered trapezoidally. The course of the conductor forming the stationary contact piece 38 and the actuating rod 14 (which engages on the side facing away from the viewer) are shown in dashed lines.

The switch described works as follows:

When the switch is closed in the position shown in FIG And a current pulse of sufficient strength is passed through the coil 10 on the left in FIG. 1, eddy currents are induced in the armature 12, the magnetic field of which is opposite to the inducing magnetic field, so that the armature is repelled from the coil and moved to the right. He can overcome the force of the spring arrangement 26 and the operating rod 14 jumps to the right and releases the movable contact piece 36, which is under the action the spring force of the leaf spring 42 lifts off the stationary contact piece 38 and then that shown in dashed lines in FIG is in an open position. The switch is held securely in the open position by the spring arrangement.

If the switch is to be closed again, a current pulse is now sufficient for the coil 10 on the right in FIG Amplitude supplied. The anchor is now from the right.

209837 / U38B

The coil is repelled and the actuating rod jumps to the left into the position shown in FIG. 1, in which it passes through the spring assembly 26 is held. The arrangement is such that the armature is not on the left coil and the spring arrangement maintains the contact pressure required for proper contact can.

Since the movable contact piece 36 tapers at the free end on which the actuating rod 14 also engages (see Figure 3), is a very good, safe and extensive contact guaranteed. As can be seen from FIGS. 1 and 3, the actuating rod 14 engages at a certain distance from the tip of the conductor strip 40 and the spring 42 to the latter.

In a practical embodiment of the switch shown, the coils 10 each contained 30 turns made of anodized aluminum tape. To operate the switch, an electrical pulse of approx. 120 Ws is required, which can be generated by discharging a capacitor. The natural frequency of the relatively strongly damped discharge circuit can be a few kHz, for example. The spring 42 was made of 0.5 mm thick sheet brass, its length was 50 mm and its width at the fixed end was 8 mm. The conductor strip soldered to the spring and the contact piece 38 were 5 mm wide and consisted of Nb ₃ Sn. The maximum force exerted by the spring arrangement with the springs 26 via the actuating rod on the movable contact piece 36 was approximately 4 kp. The contact surfaces of the contact pieces can have a very thin layer of (more ductile) normally conductive metal (especially tin and copper). With a contact closing force of 4 kp, a contact resistance of approx. 4.10 Ω was measured for the contact set shown at the temperature of liquid helium.

209837 / Ü38G

The contact pieces showed after 1.3. 10 circuits left no damage whatsoever.

The idea of the invention can of course also be implemented in other ways. For example, the non-ferromagnetic armature can have a different shape than the one described Have exemplary embodiment and be mounted in a different way, e.g. pivotable. Also for coupling the anchor with the or other types of actuating members, e.g. Even the spring arrangement, which determines the two rest positions of the armature, can be designed differently. The actuator can e.g. also be an insulating, knife-like structure that is pressed against each other by spring force between two Contact pieces can be inserted in order to separate them.

The present switch can be used as a vacuum switch at the temperature of liquid helium. For this purpose, the switch is preferably installed in a closed metal housing that can be in liquid helium during operation. The superconducting leads 36 and 38 to the contacts and the leads to the coils io run through vacuum-tight insulating bushings. In the switching chamber formed by the housing, a very good vacuum can be achieved in a simple manner in that the housing is filled at room temperature with a gas, for example CO 2, which has condensed at the ilium temperature. The gas then freezes out during operation at the ilium temperature and a high vacuum is created in the housing.

The operation of the switch in a vacuum and .lon advantage / daO Mo rJntionisieruiujsziiiten rtca Funkon π Iu * Ln open Jos switch ;; under la ;; t nolir are small.

IAD ORlQINAL

209837/0386

Claims (6)

Claims 1.1 / Electromagnetically operated switch, in particular Cryoswitch, with two separately excitable coils, one movable one that can be actuated by the magnetic field of the coils Armature and at least one contact piece pair controlled by the armature via an actuating member, thereby characterized in that the armature (12) consists of a non-magnetic, which conducts electricity well at operating temperature There is material and between the two coreless, preferably designed as cylinder coils, at a distance coaxially arranged coils (10) from one another is mounted so as to be movable essentially in the direction of the coil axis (20). 2.) Switch according to claim 1, characterized e i c h η et that the armature has a disk-shaped part and on one in the direction of the coil axis (20) and sliding contact actuation rod (14) is attached. 3.) Switch according to claim 1 or 2, characterized that the armature by a spring arrangement (26) in the direction of the closer of the two Coils is biased. 4.) Switch according to claim 3, characterized that the spring arrangement has at least one spring (26), preferably at least two with respect to the coil axis (20) contains diametrically opposed springs, in particular leaf springs, each one radially inwardly directed force exerts on a substantially radially extending rocker arm (30), the inner end of which is pivotally mounted and axially immovable on this with respect to the actuating rod. 209837 / Ü38B 5.) Switch according to one of the preceding claims, characterized in that the one contact piece (36) is a strip (40) of superconductor material contains, which is attached at one end, tapers at the other, free end widthwise, and with a leaf spring is connected, the edges of which are substantially coincident with the edges of the tapered part of the strip; that the other contact piece (38) has a contact surface opposite the tapered end of the strip Contains superconductor material and that the actuating member (14) in the region of the tapered part of the strip (40) of the first contact piece engages the leaf spring (42). 6.) Switch according to claim 5, characterized in that the leaf spring (42) at the attached end of the strip (40) is wider than the strip. 209837 / U38U