DE823620C - Electromagnetic latching switch - Google Patents

Description

Electromagnetic Latching Switch The invention relates to a Switch with electromagnetic detent and automatic return the starting position after power interruption.

Electrical switches with different switch positions are so far generally provided in the "technology with a grid that the switches in hold certain positions. You -, under L; TI> what% -iiiduiig the rest, z. B. by band, switched forward or backward from one stage to another. 7; s are other switch constructions known that do not have 1Zasterung and by a the known spring constructions after releasing the switch toggle in the starting position be withdrawn. If you turn such a switch up to a certain level and if you want to leave him there, you have to hold him in this position. One lets release the switch, then a spring pulls the switch knob in a known manner back to the starting position.

There are switches (step switches e.g. for switching on electric motors), in which the toggle is held in one position by electromagnets. There are also known switches that are based on the type of zero voltage switch Switch off the absence of electricity. The switches mentioned meet their technical requirements "Purpose perfect, but there are disadvantages to them that make it useful let to create a universally usable switch type. The invention lies hence the task of developing switches for a range of devices that Latch during operation and thus hold every switch position when switching off of the current automatically return to the starting position, with this In addition, however, switches at any desired level like the others multi-stage Latching switch can be switched forwards or backwards at will and only after to switch off an intentional or unintentional interruption of a current path.

The solution to the problem is achieved in that the two or multi-stage switch with a stopping and only after an electromagnet has been tightened in the event of a power interruption, the grid is provided which is active in the Holding the switch in any number of switch positions in the same way as the usual latching switches are allowed, but except in the event of a power failure Function occurs so that springs or corresponding mechanical return devices, z. 1i. Train of weights, compressed air, electric motors, in a known manner Then automatically pull the switch back to the starting position.

A further embodiment of the invention is to be seen in the fact that a Device, preferably a relay, is provided, which switches on the electromagnet makes possible only in the starting position, so that a) switching on the grid and b) optionally also the power supply to the switch contacts in another than the starting position can not take place or that a current through one only at a certain switch position existing contact bridge to the electromagnet Brings suit, which, in addition to the grid, also provides the continuous current via a working contact on the one hand for its coil and on the other hand via the same or a second Normally open contact for the switch turns on itself.

A further embodiment of the invention can be seen in the fact that the Electromagnet presses the switching contacts, while either only when switching off the Current or with every change of the switch position the one or the other Electromagnet counteracting spring pulls off the armature of the electromagnet and this also opens the contact. Another embodiment of the invention is through given the fact that different circuits, especially low or high current or direct or alternating current, excite the electromagnet and the switching contacts flow through.

The electromagnetically functioning switch according to the invention has the advantage that the rasterization takes place via an electromagnet that is switched on as long as the switch is in operation. If the power is switched off, then the raster stops because the electromagnet no longer attracts and it already does mentioned spring arrangement or other corresponding device, the train of which Not able to overcome the grid, now the switch in the starting position can withdraw.

It does not matter whether the electromagnet is a device when it is tightened can intervene in the grid, or whether the grid from the electromagnet against a correspondingly engaging part of the switch is pressed. It is also indifferent in which plane the grid is arranged, whether perpendicular or parallel to the axis of the switch or at any angle to it. The electromagnet for Latching of the switch according to the invention can advantageously also be used on the movable how to be arranged on the fixed part of the switch. Another advantage of the Switch according to the invention is that the construction can also be designed can that not only the raster is done by the electromagnet, but also the contacts are pressed on and accordingly a very firm contact is required is guaranteed without fatigue as well as when switching off the power a quick Separation of the contacts takes place through the springing back of the electromagnet. The river Oder the electromagnets for making contact can also be in the fixed as well as in the rotatable Be part of the switch. One or more electromagnets can also be used separately for making the contacts and also one or more for making the grid can be used, but one or more electromagnets can also be used and make contact together. The contact buttons themselves can still be used can also be used for resting thanks to the appropriate shape. A major advantage of the switch according to the invention is its use on devices in which during the switch must be held in different switch positions during operation, but the accidental failure to reset the switch after Power interruption and recovery can lead to damage. As an example of this let me only referred to the X-ray tube, although numerous other cases are still conceivable are.

It is advantageous to arrange the power supply to the electromagnet in this way to that the switching on of the grid and the power supply to the switch only with the initial position of the switch can be done, in this way you are against Disturbances due to inattention are largely secured.

The switch shown in Fig. I has z. B. the contact buttons 1, 2, 3, 4, 5, 6, 7, B. The rotatable about the axis i i and interconnected Tongues 9 and io can each have two opposite contact buttons, so i and or 2 and 6, or 3 and 7, or connect d and 8. The switch snaps through a together with the contact tongues 9 and io rotatable disc 12, in their notches the roller 13 can engage and thereby bring the switch to lock. The role 13 is released from the notches by the spring 16, which is fastened in the holder 17 the disc 12 pushed out. However, the coil 15 of the electromagnet 14 gets Flow, it presses on the spring 16 and thus brings the roller 13 under overcoming the force of the spring 16 for locking in the notches of the disc 12. Furthermore a spring 18 is attached to the switch, the ends of which on the one hand on the fixed with the not shown bottom plate of the switch connected bolt i9 and on the other hand on the one connected to the tongue 9, but isolated against this Act on bolt 2o. The operation of such a spring is known and is from can be seen in the drawing.

In Fig.2 the same switch is in the rest position and connects in this the contacts i and 5. If you now turn z. B. by a not shown If you hold the contact blades, the switch will not snap into place. If you have the contact tongues z. B. brings it by hand into the 4/8 position, the tongue is always in the starting position Go back 1/5 as soon as you let go. However, if the contacts of the coil 15 are guided Current to, then via the electromagnet 14 by pressure on the spring 16, the roller 13 pressed into the grooves of the ratchet disk 12, and the switch now engages in any of the positions indicated above, e.g. B. in position 4/8, as shown in Fig. i is drawn. If the coil 15 is de-energized, the spring 16 presses the Roll 13 from, and the spring 18 pulls the contact tongue back in position 1/5, the it occupies in Fig. 2. As an embodiment of a switch in which an electromagnetic There is a grid, which can only be switched on in the initial position, and in the event of a power interruption, it only locks after a special contact has been activated; is shown in Fig. 3: The switch has the contact buttons 1, 2, 3, 4, 5, 6, 7, B. The tongue 9 with the slip ring io can be rotated about the axis i i. Together with the tongue, attached in an isolated manner, the slip ring continues to rotate 12, the contact tongue 13 and the ratchet disk 14. In the notches of the disk 14 engages the continuation of the electromagnet 15, which after the supply of the Coil 16 comes with current to engage in the notches of the raster disk. Is the If coil 16 is de-energized, a spring (not shown here) pulls the electromagnet 15 and it will not be rasterized. Is moved with the same electromagnet a contact bridge 17 which, when the electromagnet 15 is attracted, contacts 18 and i9 connects. The spring 2o is used to push back briefly even for a short time of the electromagnet through the tips of the raster disk 14 when turning the Switch to keep the contact bridge 18, i9 closed. The arrows 22 and 23 give the direction of the spring action, which the switch tongue 9 always on the contact point I am trying to bring it back, but it is not strong enough to hold the Overcoming gridlock.

If the switch is to be put into operation, then by pressing the contact 21, the z. 13. be installed just as well in another switch or z. B. only in a certain position of other instruments, which are not shown here, can come about, the current coming from line 24 via sliding contact 25, slip ring 12, contact tongue 13, sliding contact 27, line 26 to contact 21 at the end of this contact sent to one end of the magnet winding. This firstly brings the grid into place, secondly closes the contact bridge 18, 19 with 17 and thus also establishes a direct connection between the lines 24 and 28 and thus to the slip ring 12. This is connected to the contact tongue. Via 24, 19, 17, 18, 28, io and the tongue 9, after the electromagnet 15 is pulled, current comes to the contact tongue 9 and thus when the switch is actuated, depending on its position, to the contacts i to B. If the coil 16 has become de-energized, the electromagnet 15 will snap back. This stops the ratcheting and the spring balancer 22, 23 leads the tongue 9 back to the contact i. At the same time, the opening of the contact bridge 19, 17, 18 caused by the retraction of the electromagnet 15 renders the tongue 9 currentless. If the switch is to be switched again, this can only happen if the contact 21 is actuated while the tongue 9 is on contact i.

An embodiment of an electromagnetically latching switch, In which the contact closure is also carried out electromagnetically, Fig.4 shows. This Switch is shown schematically in section. There are only two in the picture drawn by any number of contacts, namely the contact buttons i and 2. Um the axis is rotatable a disc 4 on which an electromagnet 5 sits, which, as soon as the coil 6 receives power, the contact spring 7, which tries to move in the direction of the arrow to lift off the contact i, presses on the contact i. This spring receives electricity via the sliding contact 8, which slides on the ring 9 connected to 7. The grid is reached with this switch via a plate io, which has a series of notches i i has into which the electromagnet that is mounted on the bottom plate of the switch Coil 13 engages when the coil 13 is energized, as shown here, whereby the rasterization comes about. The circuit of the electromagnets 5 and 12 can, for. B. be done so that this, as shown in the figure, only then in operation can be set when the switch is in the initial position. The circuit the electromagnet can also be made dependent on any other prerequisites will. A spring of a well-known type that, if the detent does not engage, the switch turns back to a predetermined position, is just like in the switches 1, 2 and 3 can also be attached to these in the same way. She is in the drawing omitted to avoid confusion.

Illustrate the circuit diagrams of these switches according to the invention just a few of the numerous possibilities of application and switching Design, but without making any claim to completeness want.

Claims (2)

PATENT CLAIMS: i. Electromagnetic latching switch, thereby marked that the two-stage or multi-stage switch with one only after tightening one 1? Electromagnet holding and bci Stroininterruption jumping off Latching is provided that holds the switch in any activity Switch position permitted, but does not function in the event of a power failure, and that Springs or similar restoring devices in a manner known per se disengaged Automatically pull the switch back to the starting position. 2. Electromagnetically latching switch according to claim t, characterized in that there is a 1? Device, preferably a relay, which makes it possible to switch on the electromagnet only in the initial position, so that a) switching on the latching and l1) optionally also the power supply to the switching contacts can only take place when the switch is in the initial position or when a current through a contact bridge that is only present in a certain switch position attracts the electromagnet, which, in addition to the grid, also has a Working contact the Ii, m @ r @ trc, m on the one hand for his coil and andci-ci-hand over doll dyke or a second job for the Switch turns on itself. 3. Electromagnetic latching switch Claim i, characterized gckeiuizeiclinet that still a 1, _lel: ti-oniagnet (or several Electromagnets) also the switching contacts presses (alidriicken), wiilii-and either only when switching off the @troilics or already Heini Weitererschaltungii fully restricted to the next Kolitakt button, the diesels laektroniagnet- counter-working spring (springs) the armature of the Flektroniagliets abzicht u11 (1 thus also the Krnltakt öfftlet. d. IElektroinagnetiscli i-asteurlei- switch after Claim t, characterized by: @ckeiilizciclniet that ver different Stroml; rcise, ilishescmdere - :, cli @ vacii- current or heavy current or (; leichstroln or Alternating current, deli Iacktro lliaglict (the electric niagnete) excite wild slic switching contacts through- stream.