DE868006C - Remote compressed air control, especially for automatic point setting and / or signaling systems on mine railways - Google Patents

Description

Remote compressed air control, especially for automatic point setting and / or signal systems in mine railways The invention relates to a remote-controlled Compressed air control, in which an actuating or working cylinder is provided by a control piston Compressed air is supplied and discharged from it and this is switched over as a result. Such Controls are used in automatic turnout or signaling systems for Mine railways, also for reversing devices on conveyor basket loading systems and for other various purposes.

For such controls, cylindrical control pistons, i. H; Pistons with piston surfaces that are equally pressurized and subjected to cyroß pressure on both sides, known for a long time. It is also known, the control piston by venting a in relation to the pressure pipeline, compare: this is a wide vent line to redirect. In this case, when bleeding in a located behind the control piston Cylinder chamber caused a negative pressure and the piston caused by the on the other Page shifted. These controls worked so far that for every position of the control piston, d. H. on both sides, a special ventilation system had to be connected.

Your problem has therefore already been dealt with, the Zvlindrische one Alternating control piston through a ventilation line in one or the other position = steer. The previous proposals were all very complicated or worked not sure enough; to find entrance into the Pralis. _ According to the invention proposed a simple solution, which consists in after the venting process the accumulation of pressure in the cylinder space through the vent line to be done by yourself. This has the advantage if after reversing the piston air should also escape from the cylinder space on the other side, that both cylinder chambers fill up again with compressed air in an evenly increasing manner, d. H. are always under the same pressure and an unintentional wandering of the piston not possible.

It is important here that it does not matter how long the venting process takes took: This is achieved by removing the vent line leading to the cylinder chambers and the supply line is alternately blocked or released by a control piston will. When the vent line is shut off, the cylinder space should be replaced by one of the line branched off from the vent line must be re-vented. In this line, which should only allow an inflow, a check valve is installed. Through this Arrangement, all control operations can be carried out by a piston.

The lines are advantageously provided so that when reversing of the control piston, first the compressed air supply line and only then the vent line released so that the air coming from the supply line still remains when reversing can help. In order to increase safety during this reversal of the control piston to have it correctly reversed becomes a further feature of the invention suggested; a magnet on the control piston in the direction of the reversing movement let it take effect. The magnetic force is expediently dimensioned so that when the The control piston releases the vent line and moves into the area where the magnet is attracted has come and is pulled into its final position and held in it. Will The magnet is placed in the middle of the control piston, so it can be with a magnet work for both positions of the control piston. Instead of a magnet A switching spring can also be provided, as is the case, for example, on toggle switches are used in electrical engineering, d. H. which have no dead center during the changeover process of the control piston and holds it in the end positions.

The drawing schematically illustrates exemplary embodiments according to of the invention, namely Fig. i and - show the two positions of the control piston.

The operation of the control is as follows: By the example Actuating contact i (Fig. i) provided with a hand-held plate ia, which is marked with a vent valve works, the vent line 2 is vented. Since the Ventilation line at 2b is in connection with room 3, this room will also be vented, since not enough air can flow through the supply line 9. By the compressed air in the space q., which is passed through the check valve acting in the direction of the arrow i i cannot be vented, the control piston 7 is pushed to the right. As soon as the supply line 6 is released during this process, the one from this also helps Line coming compressed air to reverse the piston 7. Then the vent line released at 2a, it may be possible that if in the vent line still requires negative pressure, this is also in the room q. noticeable, but through the kinetic energy of the piston 7 or by the attraction force of the magnet 8 each moved to the position shown in Fig. 2 and held.

During this reversal of the piston 7, the vent line at 2b and the supply line 9 blocked (Fig. 2). When the venting process is finished, the pressure can be increased via the supply line 6 in the room .4 as well as in the ventilation line 2 accumulate again. At the same time, room 3 is ventilated via the check valve io, so that this space is also under pressure. A change of direction is thus ended.

The second reversal process goes on in exactly the same way. When venting the ventilation line 2 (Fig. 2) becomes space q. vented because through the supply line 6 not enough air flows in. The piston controls through the one prevailing in space 3 Push to the left as shown in Fig. I.

It is also possible to use a feed line instead of the feed lines 6 and g 12, as indicated by dash-dotted lines in Fig. The feed line 12 must have a smaller cross-section than the vent line 2. It can be connected at any point. The reversing process is essentially the same; d. H. the rooms 3 and q. are alternately vented, because not enough air can flow through supply line i2: After the venting process the air collects through the supply line 12 or ventilation line: 2 either directly or via the check valves io or i i in rooms 3 and q. again at. The control piston 7 goes into one alternately with each venting process or other location.

It is also possible, as shown in Fig. 2, to attach to the cylinder space 3 or q. to connect a secondary line 13 or 14, wherein by venting a these lines of the piston 7 can only be switched to a certain position. The control piston 7 is already in its correct position and is still the corresponding cylinder space is vented; so the control piston stops. This Case may be desirable there if there is a rear entry into a switch only a certain position of the switch needs to be set. In order to the secondary lines 13 and i ¢ during the venting process through the vent line : 2 do not always need to be fully vented, check valves 15 are and 16 provided.

The piston 7 controlled back and forth in this way is intended in a manner known per se and way channels or freed take a control spool with you, whereby air is supplied and discharged to a working or adjusting cylinder.

Claims (7)

PATENT CLAIMS: i. Remote compressed air control, especially for automatic switch or signaling systems on mine railways, in which a cylindrical control piston is reversed by venting a vent line that is comparatively wide in relation to the compressed air supply line, i.e. by the negative pressure caused by this in one of the two cylinder chambers located behind the control piston, characterized in that the pressure is accumulated again in the cylinder space through the vent line itself. 2. Compressed air control according to claim i, characterized in that the to the Cylinder chambers (3, 4) leading ventilation line (2) and the compressed air supply line (6, 9) are alternately shut off or released and with the vent line shut off the corresponding cylinder space (3 or q.) through one of the ventilation lines branched line, which only allows an inflow, is re-vented. 3. Compressed air control according to claims i and 2, characterized in that through the vent line (2) alternately one or the other cylinder chamber (3 or q.) Is vented and. if the ventilation line is shut off, ventilate the corresponding room again takes place via check valves (i o or i i). q .. Compressed air control according to claim i and 2, characterized in that the compressed air supply line (12, Fig. 2) with a corresponding cross-section at any point on the vent line (2) connected. 5. Compressed air control according to claim i to q., Characterized in that that secondary lines (13, 14.) are connected to the cylinder chambers (3, 4.), in which check valves (15, 16) are installed. 6. Compressed air control according to claim i to q., characterized in that on the control piston (7) in the direction of the reversing movement a magnet (8) acts, expediently in such a way that when the vent line is released (2) the control piston is located in the area where the magnet is attracted and in its End position is pulled and held in it. 7. Compressed air control according to claim 6, characterized in that the magnet (8) is in the center of the control piston (7) is located.