DE727878C - Drop flap - Google Patents

Description

Drop flap The invention relates to a drop flap with a through a permanent magnet and an electromagnet influenced, on the drop flap acting anchor. The drop flap is for field telephones or portable stations particularly suitable because it is characterized by great electrical sensitivity, but against mechanical vibrations, as they are particularly common in field control centers occur, is insensitive.

There are already known flaps in which, in addition to the electromagnet a permanent magnet is also provided, which magnetically holds the flap in its rest position holds on. The permanent magnet is rotatably arranged there and carries itself the flap.

Another well-known indicator is the arrangement of a movable arranged permanent magnet, which is adjusted to the armature, that this comes out of its rest position through currents of low intensity, in its working position, on the other hand, is under the influence of the rigid forces of the permanent magnet is held. The anchor is also there under the influence of a spring force, that of the magnetic flux generated by the excitation coil for adjusting the armature must overcome from its rest position. To return the anchor from its working position in the rest position is an adjustment of the permanent magnet every time with this proposal necessary.

The subject matter of the invention differs from these known proposals in particular in that the anchor consists of a two-armed, statically balanced There is a lever, which is so under the influence of the fixed permanent Magnet stands that the exerted by this magnet Force ahead The electromagnet excites the armature via one of its arms with low forces holds in the rest position, while the: '"iiker in his after excitation of the electromagnet reached working position with his other arm so approached the permanent magnet is that this acts on him with much greater forces than in the rest position of the anchor. The anchor and thus also the flap influenced by it are thereby extremely insensitive to shocks, with only a small magnetic force sufficient to hold the anchor in both of its end positions; on the other hand can the felling flap made extremely sensitive to tripping current as a result of this arrangement "-earth.

According to a further feature of the invention, the flap is also shown in FIG their rest position by a separately arranged from this and the anchor, resilient trained member locked, which lies in front of a projection of the flap and is brought out of its blocking position by the anchor. As a result of this arrangement it is achieved that vibrations of the flap do not act directly on the armature, (1a each of these two parts is kept for itself. There are also adjustment options provided for the permanent magnet and the armature to increase the sensitivity of the Adapt the flap to the given circumstances.

In the following, the subject matter of the present invention is in principle and an exemplary embodiment is described in more detail with reference to the drawing.

The idea of the invention is clear from FIGS. I and z, which only the basic structure of the magnet system to describe the mode of operation represent the drop flap.

i is the core of the electromagnet, which is expediently made up of individual core sheets is layered together, which are cut here in a U-shape. About the core i are two coils 2 pushed, which carry the magnet winding. Over the free ends of the Magnet core i is an armature 3, which by means of an axis: I in two bearing plates 5 is rotatably mounted. The release lever is on one side of the armature 3 i i attached, which is in the rest position of the armature 3 in front of the flap 13 locking spring 12 is located and in the working position of the armature by low Pressure on this spring releases the flap and thereby triggers a signal caused.

On the other side of the armature 3, a counterweight 7 is attached, which ensures a static balancing of the armature. The counterweight does not need a special S, Tück off leads to Seini but the static * ele-specific balancing of the armature can also by asymmetrical arrangement of the two anchor halves with respect to its axis of rotation .I take place, so that the armature with your Auslöseliebel ii together is in balance. The rotating system has very little inertia and is also statically balanced with respect to its axis of rotation.

A permanent magnet 8 comprises the armature and core system. An adjustment screw 9 made of non-magnetic material allows the armature to be adjusted.

The magnet 8 can, as indicated in FIG. I, as a horseshoe magnet be executed or in any other form by z. B. the dashed part Fig. i is designed as a bar magnet and the extended part made of soft iron.

The permanent magnet or the legs designed as pole shoes The magnets can easily be made longer than in Fig. i is indicated so that they can be used to attach the remaining parts of the flap (Fis. 3).

By using suitable material for the permanent magnet 8 and by suitable shaping of the same, maximum electrical responsiveness can be achieved reach the drop flap, at the same time in their external dimensions as well can be kept small in their weight.

Above the armature 3 is your permanent magnet 8 or a special pole piece io on the legs designed as pole thrust. Of the The shape and location of this pole piece depends to a large extent on the performance of the drop flap away. The pole piece io can, as indicated in FIG. I, in the middle above the armature 3 be attached, but it can also be against one or the other end of the anchor be shifted, whereby special effects can be achieved. The mode of action of the -i% Tagnetsystem is as follows: The flow of the permanent magnet 8 goes out the Pdlschuh io in the anchor 3. Here it divides depending on the position of the anchor into two parts that go over the two legs of the magnetic core i, whereupon reunite the partial flows in the permanent magnet 8. For the way of working of the magnet system is the type of entry of the magnetic flux into the armature and the division into the partial flows that go through the magnet legs i 'and i ", authoritative.

With the arrangement of the pole piece io over the axis .I of the armature 3 occurs the total magnetic flux symmetrical to the axis of rotation q. of the moving system one, so he's on the armature cannot exert any torque. The anchor 3 and the associated release lever i i can therefore not perform any movement.

All of the magnetic flux that has entered armature 3 divides into two partial flows, the size of which depends on the magnetic resistance of their Orbits depends. Since the magnetic resistance of the two armature halves and the two core legs i 'and i "in a certain ratio to one another, in general be chosen to be the same, the resistance of the partial flows can only be determined by the ratio of the airways over the magnet legs i 'and i "depend. Assuming that the magnetic resistance of the two iron ways is the same, the anchor is the same Air gap on both sides in equilibrium, since both partial flows are equal and thus the two torques exerted on the armature by the partial flows be, are the same. If the anchor is moved in one direction by an additional force, z. B. against the leg i ", moves, so is .the partial magnetic flux on this Page bigger. The torque in this direction predominates and the armature rotates, until it touches the magnetic core i "or is stopped by a stop.

In operational terms, the armature 3 is adjusted by means of the screw 9 in such a way that that the flux of the permanent magnet in the leg i 'is greater than in the leg i ". The armature is then in the position shown in FIG stable rest position. The difference between the two magnetic fluxes is a measure of the electrical sensitivity of the valve; the difference is close to or equal Zero, the electrical sensitivity is a maximum. The bigger the difference is, the lower the electrical response sensitivity, the less sensitive it is the system is resistant to mechanical shocks. A continuous change The electrical responsiveness is thus in the simplest possible way by turning one screw possible.

The tripping current flowing through the coils 2 becomes a magnetic one Flux is generated by the core i, the air gap between the magnetic core and the armature 3 and flows through the armature 3. When this electromagnetic flow in the thigh i "has the direction of the flow of the permanent magnet 8 and in the leg i ' consequently the opposite direction, the resulting partial flow is at i "is greater than at i ', and the armature 3 rotates as a result of that occurring in the direction of i" Torque up to its mechanical limit. About the release lever i i is triggers the optical and acoustic signal in a known manner.

A precondition for the movement of the armature is that the magnet coils : 2 generated magnetic flux is of a very specific direction, d. H. the current flow in the magnetic sinks must also be of a certain direction. Still it is Drop flap suitable for both direct current and alternating current operation. There the moving parts are extremely small and have very little inertia are, the flap can respond to a current pulse of very short duration.

Has the first one to arrive when the flap is operated with alternating current Half-wave has the correct polarity, so it makes the drop flap respond brought. The following half-wave of opposite polarity cannot influence exercise; because either the anchor is still in the rest position and that through this AC half-wave of the opposite direction is generated by torque the adjusting screw: added, or the armature 3 is already in its working position rotated and the torque of the alternating current half-wave tends to the armature to return to its rest position. However, this provision is no longer possible, because of the magnetic asymmetry between the working and resting positions of the armature 3 used a much greater force to return the same to the rest position must be than to release it from the rest position. The trap door speaks already on the first, at the latest on the second half-wave of an alternating current at. The drop flap according to the invention is therefore also for direct operation with short Suitable for impulses. In particular, the drop flap also speaks to switch-on and Breaking current surges, such as when switching on or switching off, among other things from alternators, because the short switch-on and switch-off pulses have a much higher amplitude than the rest of the alternating current.

To increase the electrical sensitivity of the drop flap as much as possible, must be the magnetic resistance of the circuit for the magnetic flux of the exciting Coils 2 are kept as small as possible, which in addition to using suitable material for core i and armature 3 by reducing the air gap between core and Anchor. However, reducing the air gap reduces this Possibility of moving the armature if the armature axis is used to reduce the air gap is brought closer to the coil cores. Same sensitivity the drop flap can be achieved without this disadvantage in that the pole piece io is shifted from its symmetrical position to the anchor axis 4. If he z. B. shifted in the direction of the core leg i ', so that the entry point of the Lines of force of the permanent magnet 8 changed in the armature. In the anchor half More lines of force then enter via i 'than in the armature half via i ". The flux distribution is asymmetrical; it is therefore already through the entering via the pole piece io Lines of force of the permanent magnet exerted a torque on the armature.

To rebalance the anchor, i. H. in a stable To keep the rest position, the air gap at i 'must be smaller by adjusting the screw 9 and at i "can be made larger. The shifting of the pole piece brings io the advantage that without having to change the total sum of the air gaps at i 'and i " is, a maximum for the angle of rotation of the armature 3 and thus of the release lever i i is available.

By suitable choice and arrangement of pole piece io and armature 3 as well as Core i, the equilibrium position of the anchor can be placed so that, for. B. the air gap becomes equal to zero via i ', whereby the available angle of rotation of the armature is used to the maximum.

The anchor, which is brought into the working position with little energy held in this position with great force, so that, for example, one or more Contacts closed with a sufficiently high contact pressure or the flap directly or can be triggered indirectly.

The indirect triggering of the flap which is part of the present The invention brings further advantages by not directing the movable anchor system needs to shut up. The armature 3 then has in place of the release lever i i only a short extension ii. After the anchor has moved a little, touch the extension i i first a spring 12, which in turn triggers the flap 13 concerned. The force for depressing the spring 12 does not need from the ringing current generator to be delivered, but is made by the permanent magnet described in the above Way applied. By doing this, there can be no shocks from the easily movable flap can be transferred to the armature, since both parts are in the rest position of the anchor are no longer directly connected and do not touch anywhere. So lets is largely insensitive to mechanical vibrations. reach, even if the anchor is in a very stable equilibrium position.

After the desired signal has been triggered, the drop flap must again be brought into their rest position. Both the drop flap and the anchor must be reset "-earth. The reset can be done manually using a lever or specially for the anchor can also be done electrically. The armature is electrically reset via a Local circuit in such a way that through the armature winding a current opposite to the tripping current Electricity is conducted. An example of an embodiment for a mechanical Resetting of both parts, which is particularly easy to operate by hand a push button or by inserting a plug into one of the drop flaps Switching pawl enables is indicated in Fig.3.

This figure is a practical embodiment of the invention in the side view, while Fig. 4 shows a section through the magnet according to the Line IV-IV of Fig. 3 shows, whereby the important parts are visible from above. Fig. 5 shows the `front view of the embodiment, wherein the apparatus wall 23 is omitted so that the parts of the drop flap are more visible. The different The cases described can be applied in the same way to this application example will.

Over a core of U-shaped bent sheet metal with the legs i ' and 1 ″ are the: Magnetic coils 2 inserted, the ends of which are attached to a terminal or solder lug board 14 are performed. The core forms a unit with the bearing plates 5. In these The armature 3 is rotatably mounted by means of the axis 4. The anchor 3 has an extension i i, via which the: # luslösung of the flap 13 happens indirectly. In addition, the approach 15 is visible, via which the anchor can be reset.

The whole core system is attached to a permanent magnet 8, which also carries the pole piece io and the adjusting screw 9. The magnet 8 is attached to the support plate 16 which carries the remaining parts of the drop flap.

A bolt 1; on which the flap 13 is rotatably mounted connects it to the support plate 16. In the rest position, the spring 12 blocks the bolt 25 so that the flap 13 does not fall: If the spring 12 is actuated by the armature 3, the flap is released and, under the influence of its weight, rotates around the bolt 17 in the position shown in broken lines in FIG. The flap 13 becomes visible behind a window 24 in the apparatus wall 23 to which the entire drop flap is attached.

The flap 13 can via a spring, not shown, with the Support plate 16 are connected so that the flap is no longer due to its own weight, but by the spring force in the visible position and against the stop 18 is pressed. Because the anchor, which only through the magnetic lines of force and not is held in its rest position by gravity, already insensitive to position is, this results in a drop flap that is completely independent of its spatial Position and has the same electrical sensitivity in every position and just as sure to respond.

The armature 3 is triggered electrically in the manner described above Way through the incoming call stream. They are reset by means of a plug or a pushbutton.

A spring 26 of a corresponding shape is rotatable about a screw 27 stored. The lower end of the spring 26 rests on a leaf spring i9. Will the leaf spring i9 lifted when pressing button 2o or when inserting a plug into pawl 22, so the spring 26 rotates about its axis 27 and presses with its free end Flip into its rest position. After the leaf spring 19 is released, the spring 26 also goes back to its rest position, but the flap is blocked by the spring 12.

The armature 3 is also reset with the leaf spring i9. If the leaf spring i9 moves upwards, it also presses the armature 3 over the Reset pin 28, which is guided in the socket 29, back into its rest position. PATENT CLAIMS: i. Drop flap with a permanent magnet and an electromagnet influenced armature acting on the flap, especially for field switching centers or portable stations, characterized in that the armature (3) consists of a two-armed, statically balanced lever, which is so under the influence of the fixed arranged permanent magnet (8) stands that the exerted by this magnet Force before energizing the electromagnet (2) the armature over its one arm with less Force holds in the rest position, while the armature in its after excitation of the electromagnet (2) reached working position with his other arm the permanent magnet (8) like this it is approximated that this acts on him with much greater forces than in the rest position of the armature (3).

2. Fall flap according to claim i, characterized in that the flap (13) in their rest position by a. arranged separately from this and the anchor (3), resilient member (12) is locked, which is in front of a projection (25) of the flap (13) and brought out of its blocking position by the armature (3) will.

3. Fall flap according to claim i or 2, characterized in that one pole (io) of the permanent magnet (8) in the longitudinal direction of the armature (3) is designed to be adjustable.

4. Drop flap after. Claim 3, characterized in that the anchor (3) rests in its rest position on a stop (9) which determines the position of the armature to the pole (io) of the permanent magnet (8) acting on it.