MERCURY WETTED SWITCH

MERCURY WETTED SWITCH

Field of the invention

The present invention relates to a mercury wetted switch assembly which is capable of operation in any position.

Background of the invention

A typical mercury wetted switch comprises a sealed glass capsule in which there is mounted a movable armature having a pair of pole ends for alternately contacting a respective electric contact when the armature is pivoting and the surface of the armature is wetted with a film of mercury. An energizing coil is provided to generate magnetic field in the magnetic conducting parts in order to generate a magnetic force which tends to operate the switch. The mode of opera¬ tion, either monostable or bistable, is creating by externally positioning one or two permanent magnets to the capsule.

The reeds used in the capsule for making the switching contacts are to be made of a material that must be carefully chosen in order to meet three requirements :

1) it must be optimally magnetic conducting,

2) it must be optimally electric conducting,

3) it must have an expansion coefficient that is co - patible with that of glass. In practice, the choice of the material for the reeds is a compromise between the said three requirements and can never optimally meet all and each of them.

Summary of the invention

The object of this invention is to provide a mercury wetted switch construction in which the magnetic and electric paths are as much as possible separate from each other thereby allowing the magnetic and electric materials to be optimally chosen independently from one another.

it is another object of this invention to provide a mercury wetted switch construction in which the magnetic and electric paths are as much as possible separate from each other thereby making it possible to achieve better magnetic and electrical characteris- tics.

These objects are attained in accordance with the invention with a mercury wetted switch assembly as defined in the claims.

In particular, there is provided a switch assembly comprising a housing including a baseplate. On the baseplate are mounted a magnetic core having a pair of flanges and a winding wound around it, and two switch capsules positioned on either sides of the magnetic core with each capsule being insulated from each flange of the magnetic core by insulating means. Magnets are also positioned to provide either a mono¬ stable or a bistable mode of operation as desired. With this construction, the magnetic and electric paths in the assembly are physically separated from one another, thereby allowing the magnetic and elec¬ tric materials to be chosen independently from each other.

Brief description of the drawings

Fig. 1 is a front view of an exemplary embodiment of the switch assembly in accordance with the invention.

Fig. 2 is a cross-sectional view along line II-II in

Fig. 1.

Fig. 3 is a side view of the switch assembly of Fig.

1. Fig. 4 is a bottom view of one of the capsules shown in Fig. 1.

Fig. 5 is a cross-sectional view along line V-V in

Fig. 4.

Fig. 6 is a partially stripped view of a capsule shown in Fig. 1.

Description of an exemplary embodiment

Referring to Figs. 1 and 2 it is shown that the switch assembly according to the invention essentially com¬ prises a magnetic unit 10 and two switch capsules 20 which are mounted on either sides of the magnetic unit 10. The whole assembly is housed in an envelope or housing 16 with terminals 15 projecting therefrom.

The magnetic unit 10 includes a I-shaped magnetic core

11 having a winding 16 directly wound around it and end flanges 12 made of the same magnetic material. Each switch capsule 20 is insulated from the flanges 12 of the magnetic core by means of insulating tapes

13 (Fig. 2) whereby the magnetic and electric paths are physically separated from each other. This con¬ struction allows the magnetic and electric conducting materials to be optimally chosen independently from one another.

Each switch capsule 20 is arranged as shown in Figs. 4, 5 and 6. The capsule comprises a ceramic plate 21 having a recess 22 formed therein for accomodation of a cantilever beam 23 in such a manner that it is capa¬ ble of pivoting movement with a minimum clearance be¬ tween the beam and the ceramic plate. The beam 23 has a pair of pole ends for alternately contacting a respective electric contact when the beam is pivoting. A spring 28 is positioned on the cantilever beam 23 in order to centring the beam 23 within the ceramic housing and also to apply a high acceptable return force when a contact is caused to break. The surface of the cantilever beam 2 is wetted with a film of mercury. This construction is effective to prevent an excess of mercury to be splashed onto the ceramic surfaces thereabout whereby greater switching relia¬ bility is secured.

The ceramic plate 21 is surrounded with metal foils : an upper metal foil 25 on the top surface and three spaced apart contacting foils 26 on the opposite sur¬ face. The inner side of the two outer contacting foils are provided with at least three mercury-wetted elon¬ gated contact spots 27. Simultaneous make contacts can thereby be arranged thereby making it possible to switch very high load currents.

The cantilever beam 23 has a lengthwise extending ca- pillary groove 24 formed therein for allowing mercury to be distributed to the switching areas. The termi¬ nals 15 are directly connected to the capsules 20 whereby these terminals are physically independent from the winding construction.

A magnet 14 is externally positioned to each capsule 20 thereby to provide a normal magnetic make position of the switch. Providing two magnets on the capsules makes it possible to secure a bistable mode of opera¬ tion which requires a magnetic balance in the system.