DE1965572A1 - Float switch for regulation and control purposes of all kinds - Google Patents

Description

The invention relates to a float switch for regulation and control purposes all kinds.

Float switches have already become known, but they have the disadvantage that they are too expensive and complicated and, above all, too high an actuation force require. This is especially true when magnetless floats are used come.

The present invention shows a float switch by means of Jle these disadvantages are remedied.

The invention is characterized in that, for example, two diametrically polarized Magnets are rotatably arranged in relation to a contact system in the rest position have a compensating effect on the contacts, and that only with the slightest rotary movement of the Magnets where the magnetic force acts on the contacts.

In the drawing, the invention is for example in Fig.l, 2 and 3 and 4 shown schematically, (exemplary embodiment) 1 single It is 1 / made of metal or Insulating frame, which is rotatably mounted between the angles 2/3 is. A diametrically polarized magnet 6/7 is attached to each shaft 4/5, the <len in the glass tube 8 provided contact members 9, 10, 11 at a certain distance face. The tube 8 with contact elements is fastened between the frame 1.

The contact organs are made of ferromagnetic material, its Points of contact are refined. A holder 12 is also provided on the frame 1 a steel disc 13 which carries a magnet 14. The steel disk 13 is standing two thin steel wires 15,16 opposite at a certain distance.

the purpose of the steel wires is to make the frame 1 with magnet 14 in <1s' to tie up the respective position magnetically and at the same time to absorb vibrations To the For example, two weights 17, 18 are provided to compensate for the magnet 14 on both sides of the tube 8 provided magnets 6,7 have the purpose of the switching elements 9, 10, 11 to be operated with the slightest turning movement. The magnets 6,7 are with their Poles opposite the switching elements in the tube 8 so arranged that at the slightest Rotational movement of the same of the N and S poles on the one hand out of the area of attraction of the ferromagnetic switching elements out and on the other hand the S and N poles in the area the switching elements is moved into it. The switch is triggered at the moment when the N- as well as the S-pole of the magnets on the one hand a little stronger on the Switching elements 9,10 or 9,11 acts, which ird achieved that on the one Side the poles are slightly offset. Another embodiment Figure 4 shows. It is 19 a permanent magnet, which is rotatable with a pivotable arranged lever 20 is in connection. On the lever 20 is a magnet 21 and a 20 pound counterweight is provided. The magnet 21 is made magnetless, for example Float 23 controlled. Opposite the magnet 19 are switching elements, e.g. so-called Reed contacts are provided in a glass tube 24. The magnet 19 is arranged so that E.g. the N pole is below and the S pole is above the contact elements 2g, 26,27. In this way it is also achieved that with the slightest rotational movement that on the contact organs compensating magnetic field acts on the Kontiktsystem, so that only one low actuation force when the float 23 moves with respect to the magaeten 21 is required. This is achieved, as in Fig. 1, in that, if E.g. the N and S pole is moved out of the area of attraction of the contact organs, which S and N poles, on the other hand, are moved into the area of attraction of the switching elements will. This compensates for the magnetic forces of attraction. The switch release, i.e.

the contact element 26 is tightened, for example, at the moment as soon as When the magnet 19 rotates, e.g. the N pole, the contact element 26 and the S-Pol face the contact member 25 at a favorable distance. Will hereafter If the magnet 19 is moved in the opposite direction, the N and 5 poles are on the one hand out of the switching area and on the other hand the N and S pole into the switching area the switching elements moved into it. As in Fig. 1, you can also use this on both sides 4, two magnets can be rotatably arranged opposite the tube 24. To that extent the SPol and the N-pole of the magnet 19 are uniform, i.e. equally strong on the Switching elements 25, 26 act, switching element 26, for example, which is arranged in a spring-loaded manner, remains in the position shown, since the magnet acting on the switching elements with its poles has a compensating effect on the switching elements 25, 26. Only with a small one Rotary movement in the sense of clockwise rotation affects the N-pole as well as the S-pole stronger on the switching elements 25, 26, after which the switching element 26 is attracted and Contact with the switching element 25 makes. If the magnet 19 is then returned to moved back the starting position, the .Schaltorg-tne 25,26 are again evenly magnetically influenced, after which the switching element 26 returns to its starting position returns. In order to further increase the sensitivity, nn e.g. opposite a magnet 28 can be provided for the float 23 can be done by both mechanical and electrical force. To the switching system, To make them insensitive to vibrations according to Fig. 4 - as shown in Fig. 1 can be seen - also thin StaJildrraht opposite your magnet 19 are provided.

Claims (4)

Claims 1) Float switch for regulation and control purposes of all kinds, thereby characterized in that the magnets provided opposite the contact system can be rolled are arranged so that the magnetic force compensating in the rest position acts on the contacts and only with the slightest rotation of the magnets does the magnetic one Force on the contacts is effective and a contact change is achieved. 2) float switch according to claim 1, characterized in that the magnets (6, 7) on a rotating or. pivoting frame with a fie movement executing magnets (14) are arranged, 3) float switch according to claim 1 and 2, <Iadurcli marked that to increase the responsiveness a magnet (2S) is provided opposite the float (23). 4) float switch according to claim 1, 2 and 3, characterized in that to lock the respective switch position against the magnet (14) Steel washer (13) steel wires (15,16) are provided.