DE1099587B - Stepping relay - Google Patents

Description

Stepping relay The invention relates to a stepping relay with several by a common armature of an actuating magnet in step-by-step Contact spring sets operated in succession and with a tripping magnet for Telecommunication systems, in particular meter relays in telephone systems.

The aim of the invention is to provide a step switching relay with a high incremental speed to create that is largely insensitive to voltage fluctuations.

So-called counting relays are known for counting pulses, which have a rotatable arm that gradually acts as a coupling member of a contact spring set on the other hand is moved and with the help of a special pull-in relay the respective Koritakt spring set is actuated and is switched on in case of waste. The downshift of the arm takes place with the help of a reset magnet. For these known designs has already been proposed to make the arm resilient and movable by a To advance tooth link, whose teeth are opposite to a second :, fixed Tooth backdrop are slightly offset. The switching speed of such relays but is dependent on the mass of the movable tooth link, which is attached to the armature is appropriate. In addition to the actuation and reset magnets, there is also a contact for making contacts an additional pressure magnet is necessary. The contact pressure that can be achieved with it is dependent on the voltage fluctuations for the duration of the contact.

It is for crossbar switches and for mechanical pulse memories been proposed, an automatically acting mechanical stepping device to be used for their marker links. This consists of several sets of springs or memory elements are each assigned a wire-shaped marking element, which three positions (. The successive coupling of the respective spring sets by the 1-larkiergliied happens that when adjusting a marker from a middle standby position to a second rest position this that followLde marker from a first rest position to the middle standby position presses, where it is mechanically locked until the next actuation. on In this way, all the marking elements are operated by a common operating element successively brought into the coupling position. For the provision are through a common release magnet which is in the middle standby position or Markers located in the second rest position are unlocked and spring in the first rest position back. This because of. the low load on the pressure magnet fast working device, almost independent of voltage fluctuations, which has no rotating parts and is suddenly returned to its original position can be, but is too extensive as part of a relay and in the known Training for direct contact not suitable.

According to the invention, this is for crossbar switches and for mechanical Pulse memory made the proposed principle applicable for stepping relays in that each contact spring set has a resilient coupling member known per se Kind is assigned with a rest, a standby and a working position and that the contact spring sets are formed from such and arranged to one another Contact springs exist that the contact spring of an actuated contact spring set the return spring of a pre-actuated contact spring set lifts off and one of it in the starting position locked support spring releases, which is due to a bias moved into a position supporting the actuated contact spring and in this the coupling member this pushes the following contact spring set into its ready position. In which Counting relays according to the invention are rotatable parts avoided, its armature is only loaded by the coupling links, and its reset is done with a single Operation. Since the contact springs are mechanically locked in their working position, the contact pressure achieved remains independent of voltage fluctuations for the duration of contact. The wear of the parts is reduced to a minimum. The use of several Magnetically coordinated electromagnets are avoided. Training the contact springs in such a way that they are a part of the necessary for the indexing movement Form elements, allows one compared to the aforementioned, for Coordinate switch and pulse memory proposed design, the number of Reduce parts and their space requirements so far that they, as a switching relay unit trained, have only little effort and space requirements.

The inclusion of the contact springs in the switching process itself can be achieved without significant change in the contact fields that the Counter springs are provided with pimples, which are in the working path of the contact springs neighboring Kentakt spring set protrude. This achieves in a simple manner that when a second actuated contact spring set closes, the first actuated one opens without the first actuated contact spring having to be unlocked.

To obtain easily adjustable parts that take up little space :, can the common armature of the actuating magnet has a comb-like design Actuation bar on the coupling members, and the prongs of the operating bar can each have two levels, one of which is in the rest position and the other in the standby and in the working position the respective coupling member in which Seen in the direction of actuation, serves as a stop, while in the opposite direction the Coupling member in all positions with bias on one arm on the support spring of the contact spring set in front of it is supported. This ensures that the the end positions of the coupling links determining part as a simple punched piece can be created with low weight and the support spring at the same time Adjustment of the coupling member adjacent to it causes and for this coupling member represents a stop defining its initial position. Both the actuation bolt like the support springs have a dampening effect on the vibrations of the coupling member a.

Since the position of the support springs determines the actuated and non-actuated state determine the contact spring sets of the stepping relay, the reset or Deletion of the stepping relay can be carried out just as easily as with the aforementioned proposed facilities for crossbar switches and pulse memories. this will achieved in that the release magnet in a known manner via a comb-like Reset bar each with a support spring assigned: prongs in: the working position located support springs back into their position releasing the contact springs.

The actuation and release magnet, the contact springs, the coupling links and the parts that effect their switching can become a stepping relay be assembled so that the contact spring sets and with them are in engagement standing parts are joined together to form a unit, which is a second Take up the unit-forming actuating and tripping magnets in their area of the room .. This training facilitates repairs or an exchange of the first structural unit geen one that has a different sequence of operations. By housing the second unit in the area of the first is the space required by the stepping relay decreased.

The invention is illustrated below with reference to that shown in the drawing Embodiment described .. It means Fig. 1 is a schematic diagram the contact spring sets and the parts that control them for the step - :, control relay according to the invention, Fig. 2. a functional diagram of the spring sets according to Fig. 1, Fig. 3 shows a plan view of the stepping relay according to the invention.

The in Eig. 1 illustrated, juxtaposed contact spring sets 1 each consist of a contact spring 2 and a counter spring 3. Each counter spring 3 has a crank 4, which its contact-making end 5 over the contact-making Brings end 5 of a laterally arranged below contact spring 2. On the counter springs 3 pimples 6 are arranged, which in the working path of the contact springs 2 of the Drawing protrude to the right of the adjacent contact spring set 1. With those in the Fig. 1 are the first four contact spring sets 1 shown from left to right For the sake of clarity, the Gegenlcontaktfedern, 3 shown with broken central part and only the pimple 6 sitting there is shown. Each contact spring 2 has on its Fastening end 5 has a widening 7 opposite its contact-making end 5. With this widened part 7, the spring 2 protrudes into the area of the pimple 6 of the set of confectionary springs 1 adjacent to the left in the drawing. In this way the mating contact spring 3 of a contact spring set 1 overlaps the contact spring 2 an adjacent contact spring set 1 along a certain width. The broadening 7 is interrupted by an incision 8 through which one of all contact spring sets 1 common actuating bar 10 movable in the vertical direction of the arrow in FIG the working position of the actuating bolt 10 protrude. Every contact spring set 1 designed as a wire spring coupling member 11 is assigned to which the Work tines 9. Each prong 9 forms two stages 12 and 13, which continue in one interact with the associated coupling member 11 as described below. Under the spring sets 1 each a support spring 14 is provided which violates the Widening 7 of the contact spring 2 at rest is applied with tension. The Abstützfedern.14 have arms 15, against the angled end 16 of the coupling member 11 is supported with pre-tension. Tines 17 engage between the support springs 14 a common reset bolt movable in the horizontal direction of the arrow 18 a.

Fig. 2 shows the operation of the step switching relay. In the functional diagram shown there, the counter springs 3 do not have a crank 4, but a projection 19 carrying the pimple 6, which protrudes into the working path of the contact spring 2 of the contact spring set 1 following in the switching sequence. In position I, the contact spring set 1 is in the rest position. The support spring 14 rests against the contact spring 2 with a bias. The springs 2 and 3 are open, and the coupling member 11 is in its rest position above the step 13 of the prong 9 against the end 16 of the arm 15 with bracing. Raising the actuating bolt 10 has no effect. Upon actuation of a support spring 14 in front of it in the switching sequence, the coupling member 11 is activated by the; Arm 15 pressed over step 12 of tine 9 into its ready position (position II). If the actuating bolt 10 is now raised, the coupling member 11 is brought into its position shown in dashed lines in position III; the contact spring 2 is raised over .das the end of the support spring 14, which springs into its supporting position and thereby locks the now closed contact 2/3 (position III). In position III, the contact spring 2, the counter spring 3 of the contact spring set 1 in front of it in the switching sequence has lifted off its contact spring and thus opened this contact spring set 1 (position IV). When the actuating bracket 10 returns to its initial position, the contact 2/3 remains closed in position III. The support spring 14 which has collapsed in position III has, as described above, pressed the coupling element 11 of the contact spring set 1 following in the switching sequence from position I into position II. In this way, each time the actuating bracket 10 is actuated, a subsequent contact spring set 1 is closed and the actuated one is opened. If the step switch relay is to be deleted, the reset bar 18 is moved to the left in the drawing and takes with it all the support springs 14 in the supporting working position, which release their contact springs 2, which spring back in their rest position and thus reach position I. The counter springs 3 also return from their position III or IV to position I. Since the position of the coupling member 11 in the positions I to IV in one direction through the edge of the arm 16 and in the other direction in; the position I is determined by the vertical edge of the step 13 unid in the positions II to IV by the vertical edge of the step 12 of the tine 9, this is precisely defined and the vibrations of the coupling member 11 are damped.

The construction principle according to the invention can be depending on the desired Switching conditions by simply varying the arms 15 on the support springs 14 Apply the same advantage for an opposing or overarching switching sequence. In the solution shown, the contact springs 2 are raised for making contact. You can easily train the stepping relay so that the contacts 2 are supported in the rest position on the support springs 14 and by actuating the A. support springs 14 are released for making contact. Depending on the spatial conditions can, as shown, the contact sets 1 in a perpendicular to the support springs 14 lying plane or in two parallel planes below each other or in a plane lying parallel to the support springs 14.

Fig. 3 shows an assembly example for the stepping relay. The contact spring sets 1, the coupling members 11 and the support springs 14, which are not visible here, are fastened on a base plate 20. Furthermore, a return spring 21 is arranged on the base plate 20 for fastening the reset bolt 18. In the space of this structural unit between the contact spring sets 1 and the base plate 20, as indicated by dashed lines, an actuating magnet 22 is inserted, the armature 23 of which is mounted on an elongated yoke 24 on blades and is guided by a bracket 25. The armature 23 is provided with arms 26 for receiving the actuating bolt 10. A tripping magnet 27 is combined with the actuating magnet 23 to form a second insertable structural unit, which acts with its armature 28 on the reset bolt 18.

Claims (5)

PATENT CLAIMS: 1. Stepping relay with several contact spring sets actuated in step-by-step succession by a common armature of an actuating magnet and with a tripping magnet for telecommunication systems, in particular counting relays in telephone systems, characterized in that each contact spring set (1) has a resilient coupling member (11) of a type known per se is assigned a rest, a standby and a working position and that the contact spring sets (1) consist of contact springs (2 and 3) designed and arranged in relation to one another in such a way that the contact spring (2) of an actuated contact spring set (1) the counter spring (3) of a pre-actuated contact spring set (1) lifts off and releases a support spring (14) locked by it in the initial position, which, due to its preload, moves into a position supporting the actuated contact spring (2) and in this the coupling member (11) of the following contact spring set (1 ) pushes into its ready position . 2. Stepping mechanism according to claim 1, characterized in that the counter springs (3) are provided with pimples (6), which are in the working path of the contact springs (2) of the each adjacent contact spring set (1) protrude. 3. Step switch according to claim 1, characterized in that the common armature (23) of the actuating magnet (22) via a comb-like actuating bolt (10) onto the coupling members (11) acts and the prongs (9) of the actuating bolt (10) each have two steps (12 and 13), of which one (13) in the rest position and the other (12) in the Ready and working position of the respective coupling member (11), in the direction of actuation seen, serves as a stop, while in the opposite direction the coupling member (11) in all positions with bias on one arm (15) on the support spring (14) of the preceding one Contact spring set (1) is supported. 4. Stepping mechanism according to one of the preceding Claims, characterized in that the release magnet (27) is known per se Way via a comb-like reset bolt (18) each with a support spring (14) associated prongs (17) the support springs (14) in the working position pushes back into its position releasing the contact springs (2). 5. Stepping mechanism according to claim 3, characterized in that the contact spring sets (1) and those with them engaging parts (11 and 14) assembled into a structural unit are which the actuation and release magnets forming a second structural unit (22 and 27) in their space.