DE665565C - Electromagnet for temperature-dependent control of valves - Google Patents

Description

Electromagnet for temperature-dependent control of valves It is already known, the valves of gas or liquid lines by electromagnets to bring in the open and in the final position and to hold there. There is also It has already been proposed to oppose the electromagnet with two coils Winding direction, which alternates depending on the position of the valve Effect come. In a known device with a throttle valve this is by means of two such magnetic coils, which take effect alternately in the open and brought to the final position. The flap is thereby activated by the liquid in the closed position hydrostatically held while in the open position the upright flap offers a stable position when the liquid is flowing. However, sufficient securing of the throttle valve position has not been achieved. when external vibrations, e.g. B. those of the machine substructure, occur or with flud vibrations. In such cases, an unstable situation can arise because there are no means of retention are provided for the throttle valve in its end positions. Another well-known one solenoid controlled valve with two coils opposite winding direction this disadvantage is avoided because the valve plate connected to the armature by a snap lock, such as ball, bolt or other locking devices are known to be held in the raised position. Valves with such Mechanical retention devices are, however, inexpedient because they consist of many individual parts, the masses to be moved are part of the electromagnetic force consume, further losses result from increased friction between the individual parts and It is also difficult to protect tiles against corrosion. Such Embodiments are also subject to severe wear and tear and the risk of to become ineffective in the event of contamination. This is especially true unfavorable if, as in the last-mentioned known embodiment, the retaining device at the same time also represents the switching means for the two electromagnetic coils.

The invention relates to an electromagnet for temperature-dependent Control of gas or liquid valves, which with two coils opposite one another Direction of winding is provided, with one in both end positions against centrifugal vibrations or external vibrations blocked valve disc. To simplify the structure and to eliminate the disadvantages of the known designs, according to the invention proposed to train the salenoid as a permanent magnet and for this as stops to provide two iron cores in its end positions. Such an electromagnet possesses the advantage that short current pulses are sufficient to influence the coils, ie a permanent holding current is avoided, but without disadvantages such as high wear, Danger of contamination etc. to have to accept. The masses to be moved are limited to the valve plate, the valve linkage and only to the solenoid, so that the electromagnetic force is used more appropriately. The number of items is limited to a small extent, so that sources of error and friction losses are eliminated be avoided. The subject of the invention is therefore characterized by a pure electromagnetic control and holding the valve off, which is also opposite external vibrations or fluid vibrations is certainly effective. As a result of failure any mechanical control and holding means also results in a simple Way a far-reaching protection against corrosion and thus an extension of the service life.

To control the electromagnet with short current impulses, according to the invention also further proposed, the electromagnet in the bypass one alternately closing or opening the magnetic circuit of one and the other coil Assign the hinged armature, which is held in its two end positions by a resilient detent and a coil turns alternately on and off to the power supply line Contact bridge controls. These control means can be very easily outside of the valve housing lying against the inflow of gas or liquid accommodate so that corrosion phenomena are avoided. When addressing the The solenoid is attracted to the electromagnet, immediately afterwards by the contact bridge the solenoid that has just become effective is switched off again and the solenoid in the assumed position held by the stop limiting its movement.

The subject matter of the invention is suitable for regulating steam heating systems in particular for temperature control of a heated room by means of a Thermostat switch. This is achieved according to the invention in that the ends of the two Spulenwick lungs via the interruption points controlled by the contact bridge separately to the thermostat switch, which alternates the coil windings connected to the power supply line.

The drawing, for example, shows an embodiment of the subject matter of the invention detect at an electromagnetically controlled valve of a steam heating system. Fig. I illustrates the solenoid assembled with the valve in longitudinal section; Fig. 2 shows the arrangement of the hinged armature with the contact bridge controlled by it recognize; Fig. 3 shows the circuit.

In the steam pipe 2, the valve 3 is installed in a known manner, which through the linkage 4 directly with the SOlenoid designed as a permanent magnet 5 is coupled. The electromagnet 6, to a certain extent a double magnet, has two Coil windings 7, 8, which have opposite winding directions (see Fig. 3). The arrangement is such that that generated by the coil winding 7 North pole the south pole of the permanent magnet 5, the south pole generated by the coil winding 8 the north pole of the permanent magnet 5 faces.

A hinged armature io rests on a cutting edge g, alternating with that of the coil? and the magnetic circuit generated by the coil 8 closes. The folding anchor io is in the shunt of the electromagnet 6. At a further fixed point i1 des Magnetic frame is supported in a cutting edge i2 a part 13 of a rocker arm ah, the second part 14 of which move telescopically in case 13 (or vice versa) can and under the action of a spring 15 by means of a cutting edge 16 on an approach 17 of the hinged armature acts. The approach 17 forms together with the rocker arm parts 13, 14 a toggle joint, so that the hinged armature io is resilient in the two end positions is locked. The solenoid 5, however, is in its end positions by the iron cores 35, 36 held.

The hinged armature io (see. Fig. 2) carries a contact bridge 18, consisting from an insulating piece with the contact springs attached to it, insulated from one another ig, 2o. The contact springs i g, 2o with connection terminals are provided by flexible lines 2 i 22, 23 connected. The contact spring ig can be attached to the mating contact with the terminal 24, the contact springs 2o to the mating contact with terminal 25 to. Plant come. The end of the coil 8 is with the mating contact 25, the end of the coil 7 with the mating contact 24 connected .. Separate lines 26, 27 lead from the connection terminals 22, 23 to two terminals 28, 29 of a thermostat switch 30 (see. Fig. 3), its third terminal 31 for connecting the power supply line 32 is used. The. Coils 7, 8 have a common power lead 33. The thermostat 34 (bimetallic strip O. Like.) The thermostat switch3o can be of any design, it is desirable that the thermostat switch 3o is provided with quick adjustment. It connects in heated Condition (as shown) the power supply line 32 with the terminal 28, in cooled down Conditions with terminal 29. The mode of operation of the device is as follows: At the position of the individual parts shown, the valve 3 has just been heated by the Thermostat 34 has been closed. This is in some way the temperature of the room to be monitored o. The like. Exposed and now cools down again because as a result of the closed valve 3, further heating does not take place. Once the Thermostat 34 receive the lower temperature set for the reactivation has, he closes the power supply line 32 by slowly or suddenly switching via the terminal 29 to the line 27; the following current flow arises: Off the power supply line 32, the line 27, line 21 to the contact bridge 2o, from here to the coil 8 in the current discharge 33. The electromagnet speaks according to excitation of the coil 8, the solenoid 5 is torn from the core 35 and into its second Brought end position on the core 36, in which the valve 3 is open. Simultaneously the hinged armature io was tilted from the position shown in its second end position, in which it is held again by the toggle joint 13, 14, 17. Through this the contact bridge 18 was also turned over, the contact spring 2o from the mating contact 25 lifted and the connection between the contact spring i9 and the mating contact 24 manufactured. Both coil windings 7, 8 are now switched off again from the power supply, however, the contact spring i9 already takes a preparatory switch position in this respect a than when the thermostat 34 responds again when it warms up again sufficiently was, the current flow line 32, line 26, contact spring i9 to column 7 and for current derivation 33 is produced and all parts in the initial position shown to return.

The entire rear derailleur parts of the subject of the invention can Put them in a small space, they are naturally encapsulated from the outside. the Circuit is an easy one, it can easily be overlooked and its correctness check out. The number of moving parts is small, mechanical. Locking members are completely absent. Gases or liquids have no access to the hinged anchor and the parts holding it, which are therefore not subject to corrosion. the Iron cores 35, 36 as well as the solenoid are hardly subject to this risk, they leave but also protect yourself against this with ease.

The design of the thermostat 34 is not important. Except for those Versions that are provided with a bimetal strip or a hot wire, the well-known thermostat switches can also be used, which are in a closed Capsule a gas that is very expandable when heated or a liquid that evaporates easily contain, the pressure of which takes effect after overcoming a resilient counter pressure got. The thermostat switch 3ö does not need directly in the coil circuit to lie, -there can be used thermal relays, which one the contact bridge 18 affect the reversing electromagnet. Nor is it necessary that that in the pipe 2 flowing gas or the liquid for heating a room o. The like. Serve, they can also with regard to their own temperature by means of the Subject of the invention are monitored.

Claims (3)

PA TCNTANSPRÜcriR: i. Electromagnet for temperature-dependent control of gas or liquid valves, which with two coils opposite winding direction is provided, with one in both end positions against flood vibrations or external vibrations locked valve disk, characterized in that the solenoid (5) acts as a permanent magnet is designed and, for this two iron cores as stops in its end positions (35, 36) are provided. 2. Electromagnet as claim i, characterized in that the electromagnet (6) in the bypass an alternately the magnetic circuit of one or the other coil (7, 8) closing or opening hinged armature (io) is assigned, which is in its two end positions by a resilient detent (i3, 14, 17, 15) is held and controls a contact bridge (i8) which alternately connects and disconnects the coil windings (7, 8) to the power supply line (32). 3. Electromagnet according to claims i and 2, characterized in that the ends of the two coil windings (7, 8) via the interruption points (1g, 24; 20, 25) are led separately to a thermostat switch (30), which the Coil windings (7, 8) are alternately connected to the power supply line (32).