DE1121215B - Electromagnetic miniature switch in protective tube contact design - Google Patents

Description

GERMAN

PATENT OFFICE

115699 VIU c / 21g

NOTICE DAY:

NOTICE THE REGISTRATION AND ISSUE OF EDITORIAL:

DECEMBER 3, 1958

JANUARY 4, 1962

The invention relates to an electromagnetically actuated switching device, which is in a vacuum or is installed with a protective tube filled with inert gas.

The object of the invention is to create a relay or a contact device that is economical, reliable, is easily manufactured by automatic machines and is designed so that a plurality of these Contact units can be accommodated in a small space and is easily exchangeable.

Similar vessels have already been enclosed in evacuated vessels or vessels filled with an inert gas Contact devices have been used to control electrical circuits, the ferromagnetic Material existing contacts by means of current-carrying coils or along the envelope vessel magnetic field generated by moving permanent magnets.

These known contact designs usually consist of contact tongues made of ferromagnetic material, melted on one side or both sides in a glass vessel, which overlap at the contact point and are actuated from the outside by a magnetic field. However, these contact designs have the disadvantage that, on the one hand, the spring properties of the contact tongues and, on the other hand, the magnetic properties, which depend not only on the material used but also on the cross-section of the contact tongues, must be taken into account. As a result, the contacts can only be made in a certain overall length within a production process and it is not possible to make contacts in a smaller overall length without changing the technical data of the contacts. A contact design is also known which is used in relays which are insensitive to acceleration forces. In this type of contact, the contact-making parts are designed in such a way that they do not cause incorrect contact under the action of the acceleration forces mentioned above. For this purpose, a contact part composed of two capsules and held together by a spring under constant tension is arranged between the opposing contact pieces, which can move in the tube and without the action of magnetization either on one or the other contact piece depending on the installation position of the Relay or the direction of acceleration to which the built-in relay is exposed can come into play. The sizes of the tube, the contact parts and the spring and the distance between the two opposing contact pieces are electromagnetic miniature switches
in protective tube contact design

Applicant:

International Standard Electric Corporation, New York, RY. (V. St. A.)

Representative: Dipl.-Ing. H. Ciaessen, patent attorney,
Stuttgart-Zuffenhausen, Helhnuth-Hirth-Str. 42

Claimed priority:
Italy of December 3, 1957 (No.A. 6775)

Mario Scatä, Monza (Italy),
has been named as the inventor

dimensioned so that a bridging of the two contact pieces by the contact part, so one Contact between the two contact pieces, inadvertently, cannot take place. The pen has it the task of keeping the two capsules of the contact part under constant tension in the unactuated state to hold together so that the contact part, seen in the direction of tension of the spring, is smaller in length is than the distance provided in the tube between the two contact pieces. Just in case one The two capsules of the contact part, which are made of magnetizable material, are desired to make contact exist, each tightened in the direction of the two contact pieces, so that a bridging of the contact pieces is created by the now pulled apart contact part. The two capsules of the Contact part is under constant bias cohesive spring, except for the above mechanical task, only the electrical connection between the two capsules of the contact part and the contact pieces touched by them. Although this design has advantages for a independent installation position of the relay and independence of the contact with respect to an acceleration force or direction of acceleration, but has the major disadvantage that with a Making contact creates a double transition resistance, which experience has shown can be so great that

109 758/435

3 4

a flow of a current when making contact over- In contrast to the known, overlapping-

is prevented at all. dispense contact tongues of equipped design

There is also one enclosed in a protective tube, the two magnetic parts are in the longitudinal lock Contact design known, which is arranged movably in the essential axis of the container, so that at borrowed from a fixed and a movable con-5 mutual attraction between the same as a result of the there is a clock part and for control purposes in a driving magnetic field penetrating the contact pieces testify finds application. The moving contact - stronger tightening force is achieved than with the advantage is in turn connected to a fixed part. In the case of the anchor contacts mentioned, which is why the contact of these Contact design is a piece in the present case due to their screw break contact, in which a spring has the task of actuating io form at considerable speed on the one hand with a certain contact pressure.

movable contact part under constant pretensioning Furthermore, a reduction in the elasticity of pressing on the fixed contact part and other properties of the magnetic parts due to the high level of an electrical connection between the contact part, which can be moved into the glass vessel when it is melted, and the associated 15 are avoided, since now each magnetic element to produce a fixed part. This normally closed contact has a length permitting the release of heat and is only separated when the volume of the parts is required due to the helical shape of the control for reasons of control, that is, when in the associated two moving parts to a very small amount, the circuits are coordinated with each other is reduced.

, a current flows in the contact assembly 20. A specific description follows with reference to FIG

a magnetic field builds up and the moving contact drawings. It shows

partly against the constant bias of the spring in Fig. 1 is a side view of the airtight container

the coil arrangement in the direction of the other with the excitation coil surrounding it and the two

the fixed part. Due to the rule pre-enclosed magnetic elements in screw

gear within the circuit, there is 35 benform, which form an electrical contact,

the movable contact part in a permanent movement Fig. 2 on a larger scale one of the contact

between opening and closing with the counterparts and

overlying fixed contact parts. This contact Fig. 3 is a pair of contacts in greatly enlarged dimensions but has the disadvantage that the even stab in the case of use as a changeover contact. not made of ferromagnetic material 30 In Fig. 1, a cylindrical container 1 is shown, the movable contact part under constant spring, which is generally made of glass, evacuated or with bias and under a certain amount an inert gas is filled to the magnetic pressure presses on the fixed contact part, so that a very large magnetic field zen to the contact parts from corrosion and oxidation to pour opening of the contact. The terminals 2 and 3 are used to create an inside of the coils so that the electrical circuits to be controlled, the movable contact part, against the spring preload, form the outermost ends of the coil springs 4 made of ferromagnetic material that are drawn into the coil arrangement , 5th can. A coil 6 surrounds the container 1 around the contacts

The invention aims to address the disadvantages of the.

to avoid known contact arrangements and a 40 As FIG in one end of the guide compared to the known shapes represents a glass vessel is melted and the one and has round cross-sections due to the smallest possible magnetic field. The coil spring can be tightened. This is achieved in that 45 has a predetermined slope and number of Winer, that in an electromagnetically actuated fertilizer and has little clearance between the armature contact, which is in a vacuum or with one turns. At one end of the helical spring inert gas-filled protective tube made of insulating a small cylinder 9 made of ferromagnetic work material is included, and in which a spring material is welded with a flat end face. Which is arranged in the protective tube so that its axis 50 facing away from the helical spring end face or both coincide with the axis of the spring, invention end faces 10, 11 can wire coated with a thin metal according to at least one of the contact parts as a layer of good electrical conductivity be wound from ferromagnetic material.

Coil spring is formed, and in that the screw In the embodiment of Fig. 3 (Umschaltebenfeder, the contact in the rest state of the contact assembly 55) is the one contact piece is stressed by the Schrau neither pressure nor on train, only benfeder 8 of magnetic wire 7 formed, which contacts a small cylinder 9 is subject to the FaUe closers of a mechanical their free end of magne rule stress. table material is welded, both of which are plane

An embodiment of the invention shows the two end faces with a thin metal layer of good quality the ferromagnetic parts are coated in the form of 60 electrical conductivity screws. The other springs, which carry contacts, the electrical end of the coil spring formed by the wire Control circuits and the two ferromagnetic is eccentric to the coil spring axis in the glass table Parts come into mutual contact when pipe is melted down. In the coil spring axis is they are exposed to an external magnetic field. A rigid conductor 12 inside the helical spring at causes the magnetic interaction between 65, which at one end makes the second contact Windings of the coil springs are carried by a reduction piece 13 made of a material that is a good electrical conductor, tion of the harmful contact bruises after an insulator 14 can be attached to the conductor 12 in such a Men's suit. Be fastened in a position that a contact between

see the conductor 12 and the coil spring 8 is safely avoided.

The third contact piece is made of a small, also made of ferromagnetic material Cylinder 15 similar to that designated in Fig. 2 with 9, formed. That little cylinder is on the other Attached to the end of the container. Both cylinders 9 and 15 are provided with lead wires for their connection with the external circuit and for their holding in the container.

In order to facilitate the melting of the movable contact piece into the container wall, this is from the helical spring leading out wire end 7 dimensioned longer than necessary and against the helical spring axis bent at an angle of 90 °, as shown at 16 in Fig. 3, with which the contact piece 13 bearing wire 12 come together. The bottom part of the Contact cylinder 9 with a certain initial pressure against the contact piece 13. That pressure is through Welding of the two crossing wires 7 and 12 at the point marked 17 permanently ensured.

After introducing the ferromagnetic parts into the protective container and after melting the connecting wires in the container ends, as shown in Fig. 3 at 18, 19, the connecting wires 12 and 7 are separated from one another by a cut along the line a ... α, whereby the connection of the control circuits to be connected to the contact is possible.

Claims (5)

PATENT CLAIMS: 1. Electromagnetically actuable armature contact in a vacuum or an inert gas-filled protective tube made of insulating material, in which a spring is arranged in the protective tube such that its axis coincides with the axis of the spring, characterized gekennzeich- net that at least one of the contact parts (4, 5, 8) is designed as a helical spring wound from a wire made of ferromagnetic material, and that the helical spring (4, 5 or 8), which is not subjected to compression or tension when the contact arrangement is at rest, only when it closes the contacts are subject to mechanical stress. 2. An anchor contact according to claim 1, characterized in that two as helical springs (4, 5) designed movable contact parts made of ferromagnetic material in a protective tube (1) are arranged coaxially to this so that an air gap provided between the ends of the helical springs present in the protective tube can be bridged with mutual attraction under the influence of a magnetic field with contact closure. 3. An anchor contact according to claim 1, characterized in that the in the protective tube (1) Coaxial to this arranged helical spring (8) at the free end in the protective tube one out ferromagnetic material existing cylindrical part (9) carries, the end faces with are provided with a coating of highly conductive metal, one end face (11) with one of a contact part (13) carried coaxially to the helical spring (8) is in conductive connection under spring pressure by the helical spring (8) and its other End face (10) faces a cylindrical contact part (15) with which it is stretched longitudinally the helical spring (8) under the influence of a magnetic field in contact-making Touch occurs. 4. An anchor contact according to claim 3, characterized in that the conductor (12) has a to Helical spring (8) carries a coaxial insulating body (14) which makes conductive contact between the spring (8) and conductor (12) prevented. 5. An anchor contact according to claim 3 or 4, characterized in that the outer end (16) of the helical spring (8) and the outer end of the conductor (12) prior to melting into the protective tube (1) with one another outside the melting points (18, 19 ) welded (17) and separated from one another by cutting (α ... α) after melting. Considered publications:
German Auslegeschrift No. 1 020 116;
U.S. Patent No. 2,001,579. 1 sheet of drawings 109 758/435 12.