SU898532A1 - Electromagnetic relay with high return factor - Google Patents

Description

The invention relates to electrical equipment and is intended for use in automatic systems for various purposes as an element of precise tracking (control) of a voltage value of ⁵ or some other physical quantity that is uniquely associated with voltage or current.

A relay with an increased return coefficient is known, containing a magnetic system, one or two windings, a rotary armature with contacts of a bridging type

However, this device is very inertial when triggered, has a limited number of contacts (no more than two) and a short service life.

The closest in technical essence to the invention is an electromagnetic relay with a high coefficient of return, containing two windings, two switching contacts of internal switching and several. 2 external switching contacts. The second winding of this relay in the initial period of operation acts in accordance with the first, and at the final stage and after operation - counter £ 2].

This relay is characterized by insufficient reliability with an unstable power source, due to the fact that in this case it is possible to incorrectly connect one of the two relay windings.

This goal is achieved by the fact that in the electromagnetic relay with a high coefficient of return, containing terminals for connecting the power source, the winding, making and breaking contacts, an additional relay with closing and opening contacts of uninterrupted switching and two resistors are introduced, and the winding is connected to the terminals for connection the power source through one resistor and the make contact of the uninterrupted switching of the additional 5 relay and is bridged by a series circuit from one make contact and p zmykayuschego contact hitless switching additional relay winding 10 koto- cerned connected with terminals for power supply through a parallel circuit of another resistor and the other normally closed contact, n ¹⁵

The drawing shows a relay circuit.

The coil 1 of the relay is bridged by the opening contact 2 of the relay and the opening contact of the uninterrupted switch _{2 £} 3 of the additional relay, the winding 4 of which is connected to the power supply 7 through a parallel chain of the opening contact 5 of the relay and resistor 6, to which the relay 1 winding _{25 is} connected through the resistor 8 and NO contact of the uninterrupted switch 9.

When the power supply 7 is turned on, the NO contact 9 _{a £ of the} additional relay is activated and connects the relay 1 winding. The latter is triggered, unmounts its winding 1 and resistor 6 with NC contacts 2 and 5, θ also commutes external loads in the usual way. ³³

When the voltage of the power source 7 decreases, the armature and contacts of the auxiliary relay change their position too slowly. At that, first -> 41 closes the opening contact 3 of the uninterrupted switching of the relay. This will not lead to a change in the state of coil 1 of the relay. With the further course of the armature, the opening contact 9 of the uninterrupted 4 'switching of the relay opens. The relay abruptly releases, reliably switching external loads and by its opening contact 5 shunts the resistor 6. The current in the winding 4 of the additional relay increases to almost ⁵¹ tripping current, which ensures a high return coefficient at this stage of the relay cycle.

With a small slow increase in voltage, at the beginning ⁵ closes contact 9 of the uninterrupted switching of the relay. This does not change the state of winding 1, since it is shunted. With the further course of the armature, the opening contact 3 of the uninterrupted switching of the auxiliary relay opens, as a result of the relay it trips sharply, reliably commutes external loads and unmounts the resistor 6. The current in the winding 4 of the auxiliary relay decreases almost to the release current, which ensures a high return coefficient at this stage of the cycle relay.

Stress relief abruptly de-energizes the entire circuit.

An additional relay gives a signal for the relay to operate with an NC contact. those. then, when its anchor almost completes its flight, while overcoming the maximum resistance of the springs, Under these conditions, the resistance of the resistor 6 can be. large, which guarantees a large return coefficient (0.95 “0> 97). At the same time, even folding the relay armature back, leading to the closing of the make contact 9 of the uninterrupted switching of the auxiliary relay, does not lead to a failure in the operation, since it is blocked by the opening contact 2. The low pressure of the contacts of the auxiliary relay is also not dangerous, since they switch only insignificant internal loads. The influence of the scatter of the contact response times is also completely removed, since the contacts of the additional relay, the armature of which is sluggish, do not produce external comm + + mutations.

Using the invention will improve the reliability and accuracy of various actuators of automatic control and regulation systems.

Claims (2)

(5A) ELECTROMAGNETIC RELAY WITH HIGH RETURN RATIO current. A relay with a high return coefficient is known, which contains a magnetic system, one or two windings, rotary measles with bridge-type contacts p. However, this device is very inertial when triggered; it has a limited number of contacts (no more than two) and a short service life. The closest in technical essence to the invention is an electromagnetic relay, with a high return coefficient, containing two windings, two switching contacts of internal switching and several contacts of external switching. V6ra, the winding of this relay in the initial period of operation acts in accordance with the first, and at the final stage and after operation - counter 2. This turnip is characterized by insufficient reliability with an unstable power supply, as a result of the possible connection of one of the two windings of the relay. the invention is to improve the reliability of a high return relay with an unstable power supply. This goal is achieved by the fact that a high-return electromagnetic relay containing terminals for connecting a power source, a winding, closing and opening contacts, an additional relay with closing and breaking contacts of continuous switching and two resistors are inserted, the winding being connected to the terminals for connecting the source power supply through one resistor and a closing contact. uninterrupted switching of an additional relay and shunted with a series circuit from one break contact and break-open contact of an additional relay, the winding of which is connected to the terminals for connecting the power source through a parallel circuit of another resistor and another break contact The drawing shows a relay diagram. The winding 1 of the relay is shunted by the disconnecting contact 2 of the relay and the disconnecting contact of the breakless switch 3 of the additional relay, the winding 4 of which through a parallel circuit from the disconnecting contact 5 of the relay of resistor 6 is connected to the power supply 7, to which the winding 1 is connected through a resistor 8 and closing contactless switching contact 9 When the power supply is switched on, the closing contact 9 of the auxiliary relay operates and connects the winding of 1 relay. The latter is triggered, it desmounts its winding 1 and resist 6 by opening contacts 2 and 5) and also commutes external loads in the usual way. When the voltage decreases, the power source 7, the aperture and the contacts of the auxiliary relay, change their position too slowly. At the same time, the normally closed contact 3 of the break-free switching of the relay closes. This will not lead to a change in the state of -winding 1 relay. As the switch closes further, contact 9 to safely switch the relay opens, the relay abruptly releases, external switches are reliably switched, and by its disconnecting contact 5 it shunts the resistor 6. The current in the winding 4- The auxiliary relay increases almost to the operation current, which ensures a high return ratio at this stage of the relay cycle. With a slight slow increase of the voltage, the closing contact 9 of the break-free switching of the relay closes first. The state of winding 1 does not change this, since it is stitched. As the core moves further, the disconnecting contact 3 of the break-free switching of the additional relay opens, as a result, the relay trips sharply, reliably commutes external loads and decouples the resistor 6. The current in the winding C of the additional relay decreases to almost the release current, which ensures a high return coefficient at this stage of the cycle relay. De-energizing disconnects the entire circuit. . An additional relay provides a signal to activate the relay break contact. That “when its measles almost completes its flight, at the same time it overcomes the maximum resistance of the springs. Under these conditions, the resistance of the resistor 6 can be recovered. large, which guarantees a large return rate (0.95-0.97). At the same time, even tilting the relay core back, leading to the closing of the closing contact 9 of the continuous switching of the additional relay, does not lead to a failure to operate because it is blocked by the break contact 2. The reduced pressure of the contacts of the additional relay is also not dangerous, since they only commute insignificant internal loads. The effect of the variation in the contact response times is also completely full, since the contacts of the auxiliary relay, which works in the right case, does not produce external commutations. The use of the invention will improve the reliability and accuracy of various actuators of the automatic control and regulation systems. Claims of Electromagnetic Relay with High Return Ratio, containing terminals for connecting a power source, winding, opening and closing contacts, characterized in that, in order to increase the reliability of operation with an unstable power source, an additional relay with closing and opening break contacts is introduced into it. switch and two resistors, and the winding is connected to the terminals to connect the power source through a single resistor and an open relay break contact with an additional relay and bypassing a series circuit from one open contact and an open relay switch disconnecting contact of an additional relay connected to terminals for connecting a power source through a parallel circuit from another resistor and another break contact. Information sources taken into account in the examination 1, Kakuyevitsky L, AND. and other Handbook of protection relays and automation. Gosenergoizdat, 1962, 2, USSR Author's Certificate No. k k6tt5t cl „H 01 H 47/02, 1971 (prototype). m i7 and