DE6909241U - FLOAT SWITCH - Google Patents

Description

Besta AG , Uster (Switzerland)

Float switch

The innovation relates to a float switch with a swiveling float body with a permanent magnet is equipped, a housing with arranged in giant electrical switching means, one between the permanent magnet and the interior of the housing is made of non-magnetic material existing wall, the influence of the switching means depending on the position of the float body by the enclosure wall takes place through it magnetically.

6909 ^ 41

B23-P2-Dgm / B-mm 22.1.69

Such float switches cannot be used in potentially explosive areas, as a electrical sparks occur, which can lead to explosions.

The task to be solved by the innovation is therefore to create a system that is also suitable for those at risk of explosion Rooms have their own electric float switch. The innovation is characterized in that the switching means are magnetic Have controllable field plates.

This makes it possible to avoid electrical switching sparks with such float switches with certainty, so that they Can also be used in rooms where there is a risk of explosion consists.

Furthermore, this: acnvini-switch is also suitable for use in corrosive ξ r A t rr α ε τ h ö re, since no mechanical K α η; ikiä exist-ir.ü-jn sine, a ^ ren electrical transition resistance si'_n irr ·, Lvufs c '-. r lsi * under the influence of the surrounding atmosphere = .TÜni. J- zuden, no contact erosion has occurred, the security value is very high «.

In as: Zeicrnun: is a <K, etc. EADERSHIP example of the object jsr ', -. suerun ,; aargestellx. Show it:

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1 shows a longitudinal section through the float switch, FIG. 2 shows an electrical circuit diagram,

The float switch shown in the drawing for monitoring a liquid level is suitable for horizontal installation, with the float 1 in the interior of a container protrudes and is attached to the container wall with the aid of a flange 2. The float 1 is by one Pin 2 is pivotably mounted in a fork 3. The float 1 is provided with a sleeve 4 in which a pearl magnet 5 is used. The fork 3 forms a single piece of non-magnetizable material with a housing part 6, for example aluminum, this housing part 6 is secured with the help of a coupling flange 7 by screws, not shown pressed against the container wall. A sleeve 8 is with the interposition of a sealing ring on a collar of the housing part 6 and is fastened by several screws 9. In the axial continuation of the sleeve θ is a hood ID with cover 11 available. On a flange 13 is a Insert 14 mounted on which a switch 15 is rigidly attached. Furthermore, this insert piece 14 is a Wipp "3 16 pivotably supported by a bolt 17. This Rocker 16 contains a rod-shaped permanent magnet 18 as well

a laterally protruding cam 19 ″ This cam 19 acts with the actuating plunger 20 of the switch 15 together. The switch 15 has electrical connection lugs 21 the electrical lines, not shown, are connected.

The magnetic influence of the two permanent magnets 18 takes place through the relatively thin wall 23 of the housing part 6. When the opposite Poles of the permanent magnets 5, 18 are homopolar, butt it turns off, and the rocker 16 comes depending on the position of the float 1 in one or the other end position, whereby the switch 15 also comes into one or the other switching position »The opposing poles of the magnets 5, IB could but can also be formed with a different polarity, whereby the rocker 16 as a result of magnetic coupling of the movement of the magnet 5 follows.

The switch 15 is a magnetically controllable field plate switch formed, which does not generate any electrical switching sparks. Field plates are magnetically controllable semiconductor resistors, for example from indium antimonide, the resistance of which increases in the magnetic field. When moving the actuating plunger 20 will be the location of the anchor inside

-A-

of the switch housing located permanent magnet a field plate changed. The thereby deflected field lines cause a change in resistance in the field plate. This change in resistance of the field plate controls a transistor power stage 24 (Fig. 2). The transistor is also built into the inside of the housing. Between the actuating tappet A spring is built into the armature 20 and stores energy when the plunger 2G is actuated and then results in a sudden movement of the armature when the actuating force exceeds the attractive force of the magnet.

The external dimensions of the switchgear housing as well as the Fixing lugs correspond to those of commercially available microswitches, so that they are interchangeable with each other.

As can be seen from the electrical circuit diagram in Fig. 2, in addition to the contactless panel switch 15 and the transistor 2Δ, a resistor 25 and a protective diode? .6 are provided, the latter being parallel to a relay 27 in the circuit, Switching function depending on the switching position of the FeldpJatten switch 15 and the float's relay 27 is located outside the potentially explosive area.

By using such a magnetically controllable field plate switching element, it is possible with a small Actuating force and high switching reliability to achieve, since even in a corrosive atmosphere there is no change in the electrical transfer resistance and no Contact erosion takes place.

Claims (3)

PROTECTION CLAIMS 1. Float switch with a swiveling float body equipped with a permanent magnet, a housing with electrical switching means arranged in this, a & r between your permanent magnet and the inside of the housing
non-magnetic material existing wall, the influence of the switching means depending on the location of the
Magnetic float through the housing wall
takes place, characterized in that the switching means have magnetically controllable field plates. 2. Float switch according to claim 1, with a magnetically influenced rocker inside the housing, characterized in that the magnetically controllable field plate, a permanent magnet, a movable armature influencing the magnetic flux and a transistor (24) as replaceable from the
Rocker (16) actuatable unit (15) inside the housing
(B) is housed. ι 3. Float switch according to claim 2, characterized in that that the unit is housed in a microswitch-like housing (15), the mounting holes of which with those commercially available small snap-action switches. ίΟΑΠΟ Λ Λ