DE730145C - Contact arrangement on relays without directional force with return coil - Google Patents

Description

Contact arrangement on non-directional relays with return coil There are Relay with no directional force, e.g. B. nattmetrischem measuring mechanism known, their contact is closed when the measuring mechanism is not excited. The closure is through causes a so-called return coil. Since this is now not just the closing of the contacts but must also get back in touch as soon as possible it has been opened, the restoring or straightening force of the return reel must be proportionate be strong.

If, as usual: a spring contact is used, the contact springs become bent by the pulling force of the retrieval spool. If the measurand arrives, as is well known, the return coil is first made powerless before the relay appeals to itself. The pretensioned contact spring is a disruptive one Directional force that temporarily acts on the measuring mechanism. This has the consequence that at a value of the measured variable which is a small force moment compared to the disturbance moment causes the measuring mechanism, the final setting of the relay contact z. B. by Oscillations of the measuring mechanism is delayed. As a result, the known relay the relay contact will only take effect after a sufficiently long time.

This disadvantage is in a directional forceless relay, its contact closed by a so-called return coil when the measuring mechanism is not energized is avoided according to the invention in that, by closing the contact the restoring force and thereby the contact pressure is reduced as much as it is is required to maintain a conductive connection. To this end the return coil is preferably one of the contact, its mating contact and a resistor formed current path connected in parallel.

The following is the training and operation of a facility described according to the invention using an exemplary embodiment. With R is a wattmetrical relay, whose current coil with the winding of a L "overcurrent relay U is connected in series. There is also a preparation relay A, an interrogation relay C and an operating relay B are available. This relay arrangement acts as follows: As soon as the Lbercurrent relay U responds, the associated Switch tt thrown and thus the circuit of the preparation relay A is closed. At the same time, by opening the normally closed contact of switch rr, the return coil S de-energized for relay contact r. When the preparation relay A is energized, be the associated contacts a closed, on the one hand by switching on the Voltage coil the relay R begins its measurement and on the other hand the interrogation relay C, which responds with a certain delay. Receives electricity. This will make the associated contact c closed and thus the recovery coil S a current path in parallel switched, which consists of the contact r and its mating contact and a resistor 14 'consists. The resistor v is a series resistor for the entire current branch.

The resistance L1% is to be dimensioned in such a way that when contact occurs of the contact with its mating contact such a current distribution is established, that the return coil only generates a relatively small force that is just sufficient to maintain a light but conductive touch of the contacts. If the return coil S is then de-energized, the contacts remain in this favorable position without any cushioning occurring. Is now the measured variable that is in the relay R becomes effective, so directed that the contact move in the closing direction would change, apart from the increasing pressure of contact, nothing and the relay B responds when the contact is thrown. You can do without There is a risk of a false indication that the delay time of relay C should be very short, since a disturbance torque is not exerted by the contact spring r and consequently also no incorrect opening of the contact can occur. Is the # vlel3gröl:) e reversed reported, so the contact r can also be exercised by the slightest of the Melawerk Adjusting forces are lifted from its mating contact in a very short time, since clie slightest movement of the measuring mechanism leads to an opening of the contact r. this The reason for this is that, in contrast to the known relays, there are no relays worth mentioning Deflection of the contact spring r is present, dic a correspondingly large movement the measuring mechanism would require until the contact opens. This reduction in the The necessary way means practical with your mass-laden measuring system a considerable time saving. The already mentioned shortening of the delay time of the RelaisC is also permissible in this respect.

The arrangement according to the invention is by no means more sensitive to vibrations than the known. As long as the overcurrent relay U is not energized, remains the circuit of the return coil is closed. So the contact should be as a result temporarily stand out from his counter-contact after a shock, he will Fetched back with the full winding force in the shortest possible time until the power branch takes effect.

Claims (1)

1'ATcnTANsrr, üciir: i. Contact arrangement at directionless. Relay, whose contact is closed by a return coil in the non-excited state of the measuring mechanism is characterized in that by closing the relay contact (r) the restoring force and thereby the contact pressure is reduced as much as it is is required to maintain a conductive connection. a. Contact arrangement according to claim i, characterized in that the return coil (S) is one from the relay contact (r), its mating contact and a resistor (W) in parallel is switched.