DE825561C - Counting device, especially for axle counting on railways - Google Patents

Description

Counting device, especially for axle counting on railways It is known to use devices for counting pulses in which .the counting result given by the combination of the armature positions of a certain number of relays is. With such a device, the counting result should be kept for a longer period of time so it is necessary to maintain the continuous power of all during all this time to spend on those relays that are tightened according to the counting result have to. This constant power consumption is sometimes quite undesirable. It has therefore already been proposed to use backup relays or polarized relays for counting to use, the armature of which has more than a stable position when the windings are de-energized can take.

In many cases, especially with axle counting systems, it does not occur on the determination of the absolute counter result, if you want the results compare two counts. So there is z. B. in axle counting systems Counting device usually consists of two parts. Either the one part will Impulses from incoming axles and the other part the impulses from outgoing axles Axes or you assign one part of the counting device to the beginning, the other part to the end of the track section to be monitored. both calve If parts of the counting device are in the same position, the number in the section retracted axles equal to the number of extended axles, d. R`. the section is free. In the. As a rule, the time during which a track section is unoccupied predominates is essentially the one during which axles are in the track section.

The invention provides a simple means to during the time in who do not see any axes in the track section, the continuous power of the counting used relay sets to save without the use of backup relays or polarized relay necessary is. The use of these relays can in some Undesirable in some cases, as they may be more expensive than neutral relays, or have fewer contacts than those in their standard versions. According to the invention The object is achieved in that the self-holding circuits for counting used relays one or more contacts are provided, which these circuits open as soon as the two relay sets have compared their counting results should have reached the same position. When opening the said Contacts then drop out of all relays of the relay sets. every relay set changed in this case its position, because it does not depend on the absolute count, but rather What matters is the comparison of the counting results of both relay sets, this change of position less dangerous; because after all relays have dropped, the counting positions are both Relay sets again the same among themselves. To interrupt the self-holding circuits in The relay sets can be conveniently connected to the Use the relay of the monitoring circuit. The relay can also drop out Short circuit take place.

In Figs. I and 2, for example, the subject of the invention is on Hand explained by relay chain circuits. In the example in Fig. I is a relay chain circuit shown in which in a certain counting position all relays have dropped out anyway are. However, this counting position is not reached with every match Position between counting in and counting out, but it may only be possible after several Count in and count out. The invention, on the other hand, aims to and counting as soon as the zero position, i.e. the free track, is reached again, bring about the dropped position of all relays. Fig. 2, however, shows one Relay chain circuit, in which a counting position never occurs, in which all relays have dropped out. `Here is the principle of the invention under Achieved with the help of an auxiliary relay.

Fig. I shows the relay chain circuit in the upper part and the monitoring circuit of the axle counting system in the lower part. The relay chains used for counting consist of two links each. A power chain consisting of relays C and D is attached to the first chain, consisting of relays A and B. In order to avoid unnecessary repetitions, further power chains that follow this have been omitted. This chain arrangement just described represents the relay set for counting in. The relay set for counting is constructed in the same way and is therefore only indicated in the figure by a few dashed lines. The relays for counting may be added with a dash, e.g. B. A ', carry the same letters as the corresponding relays for counting, z. BA The count-in pulses are given by the changeover contact i, 2 of the pulse relay i, not shown, and the counting pulses are given by the changeover contact 3, 4 of the pulse relay k, not shown. These contacts change the position shown at the beginning of the pulse and return to the position shown at the end of the pulse. When a count-in pulse arrives, relay A first pulls in, and after the pulse has ended, relay B pulls in its armature. At the 2nd count-in pulse, relay A first drops, then relay ß. While A has dropped out and B picked up, the relay consisting of relays C and D receives i. Power chain an impulse. It first attracts C, then D in this chain. At the 4th impulse, first C and then D drops again in the first power chain.

The monitoring circuit consists of the relays X, Y and G. X monitors that both relay sets have the same position. Switching contacts of all counting relays are therefore connected upstream of its winding 5o. These contacts are arranged so that a changeover contact of the corresponding relay of the counting relay set is connected in series with the changeover contact of a relay of the counting relay set, so that a current path is established via these contacts as soon as the two relays have the same position. Since the changeover contacts of all counting relays are connected in series in this way, X can only receive power if both relay sets have the same position, so the counting results for counting and counting are the same. The task of relay Y is to bring the axle counting system into the basic position when as many axles have been counted as counted. Relay G causes the section to be reported free or occupied. According to the invention, contacts 504 and 604 are connected upstream of the relay chain arrangements in such a way that the circuits leading to the counting relay are briefly opened when the track section has been released. In the present case, relays X and Y are used to bring about the dropped position of all relays. Contact 504 is therefore at X and 604 at Y.

In detail, the following switching processes take place: In the basic position, all counting relays have dropped out. The winding 5o of X flows current to the self-closing contact 5oi and the changeover contacts of all counting relays, of which only the contacts of A, A ', B and B' are shown in Fig. I. The relay G receives power via contact 603 from Y, 503 from X and contact 8 of the monitoring relay L ', the winding of which is not shown in the figure. As is well known, this monitoring relay is activated at the beginning of each count-in and brings about the stop position of the signal independently of the axle counting device. In the event of a count-in pulse, contact i is opened and contact 2 is closed. Current then flows through 6o4, 2, zoi to winding io p of A. After the end of the pulse, contact i returns to its starting position, and current now flows from 6o4, i, ioi to windings io q of A and 2o q of B. A and B keep their armature attracted and interrupt the circuit for X with contacts 104 and 205. X drops its armature and applies current to the winding 6o of X with contact 502 , since the first axis also retracts by actuating the pulse generator contacts (The relay I 'brought to waste, which now keeps its contacts 6 and 7 closed. When this process is running, the power supply to the relay chains is interrupted at contact 604 and was established shortly before with contact 504. Impulse, ie after the repeated opening of contact i and closing of contact 2, relay _A first drops out, since the path to its winding 1o p with contact toi is interrupted. After A drops out, current passes through contact to i, 2o4, 4oi on winding 30 p of C. After the end of the 2nd pulse, ß also drops, and current now flows via contact 203, 301 to windings 3o q of C and 4o q of I). A and B are now dropped, C and D are attracted. The switching processes in the relay chains when further impulses arrive are carried out in the same way: When the axles extend, the counting relay set is actuated in the same way, since the changeover contact k is activated of X via contact 602 of Y and the in series' changeover contacts of all counting relays, which now have the same position to each other, restored. X pulls its armature and now, according to the invention, interrupts the holding circuits of all counting relays with contact 504. These relays drop out . The circuit for X is only briefly interrupted, @ because after the emergency all counting relays immediately have the same position again. X does not drop out. If X and Y are picked up, the monitoring relay Ü is made to pick up. It is interrupted with contact 7 the self-holding circle of Y , which leads over 6oi. Y drops and gives contact with contact 604 the relay sets "the possibility of receiving new impulses. At the same time, relay G also pulls in, since its winding 7o receives power again via contacts 8, 503 and 603 after Ü has picked up. It has therefore been achieved by the device described that the track section has been properly reported free and that all counting relays have been returned to the dropped position, so that during the longer period of time that now follows, in which there are no axles on the track, do not consume electricity.

If, for certain reasons, one wants to use a relay arrangement for counting the pulses, in which the basic structure of the circuit is not such that a counting position is assigned to the dropped position of all relay armatures, and one wants to apply the invention anyway. this is done by providing a special auxiliary relay which, with the first counting pulse, moves the relay arrangement into a position; contained in the normal order of the relay positions following one another in the counting. (: It is irrelevant which position you choose as the starting position. It only matters that the same starting position is used for the counting-in and counting relay set. A device with such an auxiliary relay is shown in Fig. 2 The associated monitoring circuit is omitted from this figure because it does not differ from that shown in Fig. I. In addition, only one relay set is shown, which can be used for counting or for counting Assuming that this relay set consists of relay chains, in each of which a relay corresponding to the counting position is picked up. If the relay chain receives a new counting pulse, the following relay picks up its armature and the one previously excited drops its armature therefore no counting result corresponds to the fallen position of all relay armatures. Fig. 2 shows only .the beginning of such a Ket te with relays E and F. It is assumed that the last two relays in the chain are designated M and N. It is also assumed that power chains are attached to this chain, which have been left out in Fig. 2 to avoid repetitions.

In the basic position, ie when the track is free, all counting relays have dropped out, and the auxiliary relay H receives power both via contact 505 of the relay X in the monitoring circuit and via its self-closing contact 55i and contact 807 of the first relay E of the counting chain. When a pulse is activated, the pulse relay i closes its contact 6, and current flows through contact 555 from H, 986 from M and 802 from E to its winding 8o p. E reverses its changeover contact 8o1,802 and maintains itself via contact 552 of H as long as this relay is picked up. When E pulled in, X was thrown off in the monitoring circuit. With contact 5o6 it feeds a line to which the holding circuits of the counting relays are connected. The winding 8o q receives current from E via this. X also interrupts with contact 505: the one power supply for H after another has already been switched off with contact 807 of F. After the end of the pulse, H drops because now contact 7 of pulse relay i has also been opened. H now uses contact 554 to establish the current path to the 2nd chain link, in which relay F is activated via contacts 902, 996 and 803 as soon as i closes its contact 6 on the 2nd pulse. The relay chain works in the same way with further impulses. The power chains present in the system but not shown in the A'b 'formation are started in the same way by the relay II.

If the chain arrangement is used to count counting pulses, see above X has already opened its contact 5o5 and its Contact 5o6 closed. Therefore, when E is pulled in, it becomes the self-holding circle leading over 506 made immediately. Otherwise, the switching processes then play in the same way as with the counting of single counting pulses. Votes then count-in and counting result match, relay X picks up its armature and switches with contact 5o6 the holding circuits of all counting relays are switched off. The counting relays drop off, and the relay H comes on via contact 5o5 to pick up when new impulses are received enable the relay chain to start up in the manner described above. With free Track saves the continuous power of all counting relays. Just the relay H remains attracted. Since, with a free track, only the holding power of one single relay is needed, while otherwise the holding power of so many relays How there are relay chains in the relay set is a significant one Power savings associated with the application of the invention.

The invention can also be used in connection with forward and backward running Relay chains are used, nor is it limited to counting devices, which consist of relay chains, but in all other types of counting devices possible in which d'ie combination of the armature positions of a number of relays is used to identify the counting result achieved in each case. The invention can be used wherever two counting results are compared with each other, even if it is not an axle counting system.

Claims (7)

PATENT CLAIMS: i. Counting device, especially for axle counting in iron balconies, in which the results of two counts are compared with each other by two relay sets and each relay set consists of a number of relays on which the counting pulses act, and whose armature position indicates the counting result achieved in each case, characterized in that the existing or special additional relay contacts are provided, via which all relays drop out again after each counting in and out, in which the position of the two relay sets is identical (track free). 2. Counting device according to claim i, characterized in that in the circuits @ the @ used for counting one or more contacts are provided; which these circuits open as soon as both relay sets have reached the same position, whereby the relay sets in reach a basic position in which their relays are primed. 3. Counting device according to claim i or 2, characterized in that one which is open in the basic position Contact (5o.1, 5o6) of the monitoring relay (X), the, the same position of the for Counting used relay sets monitored, in series with the self-holding windings the counting relay is on. 4. Counting device according to claim i to 3, characterized in that that each of the two relay sets is assigned an auxiliary relay (H) that controls the active position assumes when both relay sets have the same position, and in this active position remains until the first counting pulse has expired and the relay set it recorded. 5. Counting device according to claim i to 4, characterized in that that the winding of the auxiliary relay (H) has a normally closed contact (5o5) of the monitoring relay (X) is connected upstream, which has the same position of the the relay sets used for counting are monitored. 6. Counting device according to claim i to 5, characterized in that there is a self-holding circuit over the winding of the auxiliary relay (H) leads, in which a normally open contact (7) of the pulse. relay with normally closed contacts (8o7) that counting relay is connected in parallel that is triggered by the first counting pulse in the working position can be brought. 7. Counting device according to claim i to 6, characterized characterized in that working contacts (553, 555) of the auxiliary relay (H) with the windings those counting relays are connected, which by .the first counting pulse in the working position to be brought. B. Counting device according to claim i to 7, characterized in that that parallel to the contact (5o4), which is open in the basic position, the same position the relay monitoring the relay sets (X), the one in series with the self-holding windings the counter relay is on, a normally closed contact (6o4) of the relay (Y) is switched, which causes the reset of the axle counter.