DE1257971C2 - Electromagnetic relay with encapsulated contact arrangement - Google Patents

Description

The invention relates to an electromagnetic relay whose core carrying the excitation winding cannot be released is inserted in a carrier which is electrically insulated from the core and which penetrates the carrier free end together with an opposing part of a spring-loaded, magnetizable Armature forms a contact of the relay.

Electromagnetic relays of this type are known. For example, US Pat. No. 933 571 shows a relay with a rod-shaped core serving as an electrical conductor, which is permanently inserted in a carrier and cooperates with an armature held by a plate-shaped spring as a relay contact. Despite its simplicity, this arrangement has various disadvantages, since in this relay the contact arrangement is not accommodated in a hermetically sealed space. The plate-shaped spring with its radially formed recesses also provides a relatively large resistance to easy armature mobility.
Furthermore, recently z. B. through the German Auslegeschriften 1191042 and 1209 205 several relay designs have become known, which are almost identical in their structure and mode of operation of the aforementioned US Pat. No. 2,933,571. However, the contact-making parts of these relays are encapsulated in a closed housing. since. Evacuating this closed housing or filling it with a protective gas, however, causes difficulties, since such an operation can no longer be carried out after the housing has been assembled. If the housing is to be filled with a protective gas after assembly, the entire manufacturing process must take place in a protective gas atmosphere. However, this requires a complex manufacturing process.

The invention is based on the object of avoiding the disadvantages of the known arrangements. According to the invention this is achieved in that the magnetically and electrically conductive core from consists of a tube that is used to evacuate the contact chamber or to fill it at the same time is used with a known inert gas and its the contact arrangement facing away The end is hermetically sealed.

According to one embodiment of the invention, one end face of the tube works with one as an anchor and counter-contact acting together membrane that terminates through a contact chamber Cover cap is attached to a soft iron ring forming the carrier.

According to a further embodiment of the invention, the membrane is provided with at least two circular arc-shaped, provided narrow, elongated slots which are arranged so that the central contact surface of the Membrane over at least two narrow metal tongues with the edge zone of the membrane or with the Soft iron ring is connected.

In a further embodiment of the invention, at least the contact surface of the membrane and the Front face of the tube plated with precious metal.

The electromagnetic relay according to the invention has different arrangements from the known arrangements considerable advantages. The core, which is designed as a tube, makes it possible, for example, to evacuating the contact chambers or filling them with protective gas at the very end of the manufacturing process immediately before capping the tube. This results in a significantly simplified production compared to the mentioned known relay designs. Furthermore, due to the special training of the anchor and counter-contact acting membrane only a very small force to deflect the contact surface of the membrane against the face of the tubular core.

The invention is described with reference to drawings. In the drawings shows

F i g. 1 shows a longitudinal section through the central axis of the relay according to the invention,
F i g. 2 shows a cross section through the relay in the plane of the line II-II in FIG. 1.

The relay shown in the drawings is made up of a hermetically assembled housing, which contains a soft iron ring 10, in which-

sen central bore a nickel iron tube 11 by means of an insulating ring 12, the z. B. made of glass can exist, is hermetically sealed. The soft iron ring 10 and the nickel iron tube 11 form part of the magnetic circuit of the relay, and the annular end face 13 of the tube 11 is also one of the two cooperating contacts of the relay. The anchor and at the same time the other contact of the relay is formed by an elastic membrane 14 made of magnetic material, which is held at its edge on the soft iron ring 10 by means of a cap 15, which in turn with the soft iron ring 10 is hermetically sealed. A spacer ring 16 ensures that the membrane 14 during its rest position with its central contact surface 18 has a sufficiently large Maintains the contact distance to the end face 13 of the tube 11, which is to be used as a mating contact. the The exact distance between the membrane 14 can be produced by grinding the end face of the soft iron ring 10 will.

As shown, the two contact-making parts are located, i. H. the membrane 14 and the end face 13 of the tube 11, in a hermetically sealed space. The main operation of the hermetic Assembling during the manufacture of the housing, namely the melting of the nickel iron tube 11 in the soft iron ring 10, but can be carried out as a first manufacturing step so that the relatively high melting temperatures that occur are not detrimental to others Parts of the relay, such as the membrane 14 or the excitation winding 21, will only be used in a later operation can be added. The cover cap 15 can be connected to the soft iron ring 10 be connected by soft soldering at a low temperature.

The membrane 14 is provided with several slots 17, the length of which is much greater than their length Width and which serve to increase the elasticity of the membrane 14 and thereby the expended To reduce the force for deflecting the contact surface 18 against the contact-making end face 13. The slots 17 are formed in the shape of a circular arc and are arranged so that the central contact surface 18 of the membrane 14 is connected to its edge zone 19, so that the contact surface 18 over three narrow, elongated metal tongues 20 with the soft iron ring 10 is in connection. This arrangement allows the central contact surface 18 of the membrane 14 considerable freedom of movement, while at the same time it is ensured that the contact surface 18 is against the tube when tightened 11 by exciting the associated magnetic circuit essentially perpendicular to the contact-making End face 13 of the tube 11 applies.

The membrane 14 is made of magnetic material, preferably a nickel iron alloy, and can be used for Creation of good electrical contact in whole or in part with a common precious metal, such as palladium. The end face 13 of the tube 11 can be made of a similar Äuflagemetall be provided. In addition, the protective coverings applied to the contact surfaces form at the same time the necessary magnetically insulating

ίο Air gap between the contacts.

The nickel iron tube 11 forming the magnetic core of the arrangement is in the axial direction considerably longer than one part of the magnetic Inference forming soft iron ring

10. The protruding part of the tube 11 is enclosed by the excitation winding 21 of the relay, which is wound on an insulating bobbin 22. The outer diameter of the excitation winding 21 and the sink body 22 is no larger than the outer diameter of the soft iron ring 10. One End plate 23 made of magnetic material is on the end of the tube 11 protruding from the bobbin 22 pressed on and holds the bobbin 22 firmly. The magnetic circuit is created by an outer sleeve 23 closed from magnetic material, which is blown open over the soft iron ring 10 and the end phase 23. The sleeve 24 is electrically isolated from the end plate 23 by an insulating ring 25 in order to short-circuit to prevent the relay contacts.

As shown, the nickel iron tube 11 is at its end facing away from the contact arrangement 26 hermetically sealed. This closing of the tube 11 can be at any point of the Manufacturing process take place; for example, the open tube 11 can be used to evacuate the contact chamber or to fill the same with a common protective gas in a final step directly before the tube 11 is closed. -

The connections of the relay consist of contact pins 27, 28, 29 that extend over the circumference of the relay protrude. The spacing of these pins from one another is designed so that it corresponds to the normal conductor spacing of printed circuit boards, because of the small size of the relay is particularly suitable for such applications (a practical embodiment of the in the The construction shown in the drawings had a length of about 15 mm and a diameter of about 10 mm).

The coil connections of the relay are formed by pins 27 which protrude from the coil body 22, while the connections of the contacts consist of the pins 28 and 29, which are connected to the soft iron ring 10 or with the end plate 23 are connected.

1 sheet of drawings

Claims (5)

Patent claims: 1. Electromagnetic relay, whose core carrying the excitation winding is inseparable in one is used against the core electrically insulated carrier and its penetrating the carrier free core end together with an opposing part of a spring-loaded, magnetizable Armature forms a contact of the relay, characterized in that the magnetically und'electrically conductive core consists of a tube (11), which at the same time to Evacuating the contact chamber or filling it with an inert gas known per se and whose end (26) facing away from the contact arrangement is hermetically sealed. 2. Electromagnetic relay according to claim 1, characterized in that an end face (13) of the tube (11) with a membrane (14) acting as an anchor and counter-contact cooperates, through a cover cap (15) closing the contact chamber a soft iron ring (10) forming the carrier is attached. 3. Electromagnetic relay according to claim 1 and 2, characterized in that the Membrane (14) with at least two circular, narrow, elongated slots (17) is provided, which are arranged so that the central contact surface (18) of the membrane (14) over at least two narrow metal tongues (20) with the edge zone (19) of the membrane (14) or with the soft iron ring (10) is connected. 4. Electromagnetic relay according to claim 1 to 3, characterized in that at least the contact surface (18) of the membrane (14) is plated with noble metal. 5. Electromagnetic relay according to claim! to 4, characterized in that the end face (13) of the tube (11) is plated with precious metal. ^: