DE1590745C3 - Magnetically operated electrical switch - Google Patents

Description

The invention relates to a magnetically operated switch in which a driving permanent magnet on the one side of a non-magnetizable wall driven, for example by a float in a liquid container, a driven permanent magnet on the other side of the non-magnetizable Wall, moved by magnetic attraction and / or repulsion, the movement of the driven Magnet controls electrical switch contacts. The invention consists in that the driving Permanent magnet of such a switch magnetized radially and vertically according to the altitude of a the body controlling the switch is movable, while the driven one is used to control switching contacts Serving permanent magnet as axially magnetized bar magnet displaceable in a horizontal guide whose ends are at least approximately the same distance from the path of the driving magnet.

With such an arrangement, the north pole of the driving magnet pulls when it is the driven one Magnet containing the horizontal plane is closer, its south pole and at the same time abuts its north pole from so that the driven magnet moves to one end of the guide and thereby z. B. a sentence Contacts opens and another set closes. If on this the driving magnet, for example under the effect of a swimmer connected to him as a result of a change in the liquid level, moves so that its south pole of the said, the driving magnet containing the horizontal plane closer, the driven magnet experiences a force which tends to move it in the opposite direction Direction to move in its leadership. The driven magnet finally reaches the other End of the guide, with a snap action, the positions that the switching contacts previously have ingested, reverse.

So far it has been customary to arrange the driving or the driven permanent magnet rotatably and between to pivot two end positions. The switch according to the invention has the advantage that no pivot is required for the magnet. This eliminates the need to use the hard sintered material, from which the magnets are made to drill. Another advantage is that the poles of the magnet to. move in a straight instead of a curved path. This creates optimal conditions created for the actuation of contacts which are attached to the ends of leaf springs, for example Contacts with air interruption or leaf spring contacts in a vacuum, provided the contact springs are so are arranged to extend perpendicular to the path along which the driven magnet moves.

In the preferred embodiment of the invention, the driven permanent magnet is cylindrical and made of polytetrafluoroethylene coated and slides in a glass tube that forms its pipe guide. The glass tube can be closed at its ends so that no foreign objects get into the guide and the movement of the driven magnet. Holding pieces made of ferromagnetic material, for example soft iron, can be attached to either end of the guide to hold the driven magnet held by attraction in its respective end position until the driving magnet reaches a position has where the both attractive and repulsive effect of its two poles on the poles of the driven one Magnet is big enough to attract one or the other magnetic holding piece overcome and suddenly move the driven magnet to the other end of the guide.

because. This avoids the risk that the driven magnet will start moving prematurely. In addition, the aforementioned snap action is increased, which is desirable in order to prevent arcing to prevent. The magnetic retaining pieces can either be in a fixed position at the ends of the Guide attached or connected to the leaf springs or other supports for the switch contacts will.

A switch designed according to the invention can be made extremely compact. For example, can The driving magnet is formed by a cylindrical bar magnet, which is in a tubular shape Guide is movable, which forms the non-magnetic wall. Furthermore, the driven magnet be housed with its leadership and the switching contacts in a housing that is on the side of the Pipe guide is attached for the driving contact. The housing can be made of a pair of horizontal There are porcelain plates that are firmly connected to one another and have cavities between them for receiving the guide for the driven magnet and the switching contacts. The housing can be relative to the Pipe guide of the driving magnet can be mounted so that a number of the same housing in one Stack can be arranged one above the other along the pipe guide, all of which are driven magnets operated by one and the same driving magnet in the guide. For example, any Housing arranged on a vertical support rod upwards or downwards and in a Position, which corresponds to the selected height on the pole, can be determined. That is how it is possible to initiate a number of different switching operations that precisely determine changes in the Correspond to the height of the driving magnet. This is particularly useful when the tubular Guide for the driving magnet extends upward out of a liquid container and the driving magnet is connected to a float located in the container, so that it is with the liquid level moves up and down. The various switching operations are used for control purposes, for example of pumps, valves or heating elements in connection with the container.

The drawing illustrates two exemplary embodiments. It shows

F i g. 1 shows a section through a switch designed according to the invention along line I-I in FIG. 3,

F i g. 2 shows a section through the same switch along line Π-ΙΙ in F i g. 3,

F i g. 3 is a side view of the switch;

F i g. 4 the mode of operation when looking at the switch from above,

F i g. 5 likewise when viewed from the front and

F i g. 6 one of the F i g. 1 corresponding representation with a modification.

The switch according to FIG. 1 to 3 consists of a pipe guide 7 made of non-magnetizable, rustproof Steel and a housing, which is composed of two porcelain plates 8 and 9 and on a fixed one vertical support rod 10 is attached. The guide 7 extends upward from a not shown Kettle and communicates with its interior. There is a swimmer in the cauldron, fleeing with her provided, which carries a polarized in the radial direction driving permanent magnet 11, which in the Guide 7 is movable and is connected by a rod 12 to the float. When the swimmer moves up and down in the boiler as a result of changes in the height of the liquid level, this follows the driving magnet 11 and also moves up and down in the guide 7 in the area of the housing.

The two plates 8 and 9 are clamped together by means of a sleeve 13, which through openings in both Plates is plugged. A head 14 at one end of the sleeve is supported by a recess 15 at the top the plate 9 added. At the lower end of the sleeve 13 receives a flange 16, which is of a corresponding Recess 17 is received on the base of the plate 8. The sleeve 13 is with relative A close fit on the rod 10, and the housing can be slid at the desired height of the rod 10 can be fixed by means of a clamping screw 18, which passes through an opening 19 on the side of the Housing accessible and screwed through a threaded hole in the wall of the sleeve 13 to against the Rod 10 can be pressed. Lugs 20 are formed on the plates 8 and 9, which guide the pipe 7 reach around and prevent the housing from rotating on the holding rod 10 relative to the pipe guide 7.

The mutually facing sides of the plates 8 and 9 are provided with recesses. These recesses form three cavities, two of which are used to accommodate leaf spring switches 21, during the third contains an evacuated glass tube guide 22 in which there is a driven magnet 23, which is with Polytetrafluoroethylene is coated. The guide 22 lies with its axis parallel to one on the pipe guide 7 laid horizontal tangent. Their ends are equidistant from the pipe guide. For power supply serve wires 24, which are passed through an end plate 25 made of insulating material and attached to the Leaf spring switch 21 are connected. Each switch unit consists of an evacuated glass envelope with Leaf springs 26 which extend at right angles to the longitudinal axis of the guide 22. On the free ends of these Contacts 27 are attached to leaf springs. In the example shown, the case is selected that the contacts are normally closed. However, the spring leaf 26 carries that of the guide 22 of each unit 21 closer is an anchor 28 made of soft iron. When the driving magnet 11 moves up and down, so it causes, as will be shown below, that the driven magnet 23 moves to one or the other end of the guide 22. The anchor 28 in the leaf spring switch 21 at that end of the guide 22 at which the driven magnet is currently is located, is magnetically attracted and thus forms a magnetic holding piece for the one facing it Pole of the magnet 23, the contacts 27 of the associated switch being opened at the same time. Meanwhile the contacts 27 of the other switch remain closed. The magnet 23 then becomes the other Moved towards the end of the guide 22, the previously open contacts 27 are closed and those previously closed contacts 27 open. Holes 29 in the top plate 9 allow the contacts to operate 27 to observe and monitor.

The interaction between the driving magnet 11, the driven magnet 23 and the contacts 27 is shown in FIG. 4 illustrates. Since the arrangement does not behave differently in the alternative case, in F i g. 4 and 5 only show the case that the north pole of the magnet 11 is above and the south pole is below. Located the south pole of the magnet 11 is closer to the

Axis of the magnet 23, as in F i g. 4 and 5 are drawn with full lines, so the resulting reaction forces between the two magnets the magnet 23 to move to the right in the drawing, doing the Armature 28 to tighten on the leaf spring switch located on the right and the associated contacts 27 to to open. In this position, the north pole of the magnet 23 from the armature 28 of the left leaf spring switch is too far removed to overcome the elastic force of the leaf springs in the left switch unit, so that the contacts 27 of the left unit remain closed. If the driving contact 1 moves in the direction of the dash-dotted line drawn position and he reaches a position in which the difference in the reaction between the north and south poles of the magnet on the one hand and the poles of the magnet 23 on the other hand is sufficient to both the friction and the attraction between the south pole of the magnet 23 and the armature 28 in the To overcome the right switch unit 21, the magnet 23 moves suddenly and with a snap action in the left position in FIG. 4 and 5. When this happens, the anchor becomes the one on the right Switch unit released and the armature 28 of the left switch unit attracted, so that the switching contacts 27 reverse their positions in the two units.

Several switch housings can be attached to the holding rod 10 in a stack, one above the other.

When the driving magnet 11 then passes all of these housings one after the other, the switches in the housings react to it in the same sequence. In this way it is possible to control valves, pumps or heating elements that interact with the kettle. The control takes place with great accuracy depending on small changes in the height of the liquid level.
The modified switch according to FIG. 6 is almost exactly the same in structure and mode of operation as the switch described. The only significant difference is that the leaf spring switches 21 operating in a vacuum have been replaced by units that switch in air. Each such unit consists of spring leaves 26a, which are occupied with contacts 27a. As a holder for the spring leaves 26a, blocks 25a provided with connections are inserted into the housing. They establish electrical connections between connecting wires 24a and spring leaves 26a.

F i g. Finally, FIG. 6 shows, as an example, two alternatively usable types of switches operating in air. The upper switching unit in FIG. 6 is provided with a soft iron anchor 28a on that spring leaf 26a, which is further away from the guide 22 than the other sheet, so that the contacts 27a in the position shown in FIG. 6th drawn normal position are open, but close when the magnet 23 is this Switch towards the end of the guide 22 is located.

For this purpose 3 sheets of drawings

Claims (8)

Patent claims: 1. Magnetically operated electrical switch with one driving and one driven permanent magnet, which are separated from one another by a wall made of non-magnetizable material, characterized in that the driving Permanent magnet (11) magnetized radially and vertically according to the height of the switch controlling body is movable, while the driven one to control switching contacts (27, 27a) serving permanent magnet (23) as an axially magnetized bar magnet in a horizontal guide (22) is displaceable, the ends of which are at least approximately from the path of the driving magnet (11) are equidistant. 2. Switch according to claim 1, characterized in that a set of switching contacts (27, 27a) arranged at each end of the guide (22) of the driven magnet (23) and on leaf springs (26, 26a) with a ferromagnetic armature (28) are attached, which are at least approximately perpendicular to the length of the guide (22) extend. 3. Switch according to claim 2, characterized in that each switch contact set has a separate one Represents leaf spring switch unit. 4. Switch according to one of claims 1 to 3, characterized in that the driven magnet (23) is cylindrical and provided with a coating of polytetrafluoroethylene and its guide (22) is formed by a glass tube. 5. Switch according to one of claims 1 to 4, characterized in that the cylindrically shaped driving magnet (11) is movable in a tubular guide (7), which the wall does not forms magnetizable material, and that the driven magnet (23) with its guide (22) as well the switching contacts (27, 27a) are housed in a housing that runs alongside the tubular Guide (7) of the driving magnet (11) is arranged. 6. Switch according to claim 5, characterized in that the housing of two firmly together connected horizontal porcelain plates (8, 9), the cavities between them for receiving the guide (22) of the driven magnet (23) and the switching contacts (27,27a). 7. Switch according to claim 5 or 6, characterized in that that the housing (8, 9) can be moved up and down along a vertical support rod (10) and can be fixed on the rod in any selected position. 8. Switch according to one of claims 1 to 7, characterized in that the driving magnet (11) is connected to a float, which is located in a liquid container, and the magnet (11) moves according to the changing height of the liquid level.