DE941737C - Electrical wiring system, especially for lighting circuits in underground operations - Google Patents

Description

Electric line system, in particular for lighting circuits in underground operations In electrical wiring systems for underground operations, preferably for lighting systems, line monitors are usually provided, which the Load lines for corresponding errors, such as short circuit of the load lines monitor against a protective conductor or earth and line break. Multiple will the line system can also be used directly as a controllable signal system by adding to certain points of the lines control switches are arranged by actuating them the plant, e.g. B. the light sources for signaling can be controlled. Arises in such a system; z. B. the, consumer lines of a route, one error, the line monitor monitoring the route makes the entire route System ineffective, and it falls z. B. the whole lighting of a route from what is naturally very disruptive to operation and can lead to its interruption. To avoid this deficiency, according to the invention, the total number of Distributed in a certain area of the company - consumers, e.g. B. 'the whole Number of all lighting fixtures on a route, to several line systems connected in parallel connected in such a way that locally neighboring consumers of the same type become different Line systems belong, with a special line monitor assigned to each system est. Arises. If there is an error in one of these systems, only those occur -this defective system belonging to verbs. Belongs z. B. every second If the lamp is switched on to another system, if it becomes damaged - the line of one will fall. Line system under the action of its line monitor only half of the lamps. on the route, and it remains lit up. It can also have three-way episodes , or other consequences of consumers to be strung together, so that z. B. the first, the second and third of each sequence of three belong to a special management system, which is monitored by an independent line monitor.

In the case of a control for signal or similar purposes, on the other hand, the given control command or signal should appear as clearly as possible. But this is naturally only effective -the case when ADLE possible consumer or lamps to such a command is gone According to the invention, therefore, made the arrangement is such that on one. Control command fine, which is given in one of the systems, address all systems or address all lamps of the system. This is preferably achieved according to the invention in that the control of one system simultaneously controls the electrical supply of the other systems. Of course, the arrangement can be made at the same time in such a way that this control of all systems can be selected - and, if necessary, the control of a system can optionally also be limited to this itself.

A system according to the invention is thus z. B. in their optical effect Equivalent to previous systems in terms of control, the effect of a line fault on the operation is largely reduced, so that this despite the error can in most cases continue to be carried out undisturbed in one system. The fault search can be carried out in the defective system without dalli den operation. in the healthy system or systems must be stopped. Some embodiments for the application of the invention illustrate the figures of the drawings ..

In "of the circuit of Fig. I, the two denote each a dashed rectangle ioo or zoo enclosed parts je.ein line system. Each of these systems consists of lamps 103.bis-IO6 and 203 to 2O6 as. Consumers whose feed lines roi and io2 or zoi and 2o2 the conductor 107 or 207, which is preferably assigned in the same line body, for feeding the feed line io2 or 202 at the right-hand end and the protective conductor io8 or 2o8, via which the lamp housings and the like are grounded The control switches iog and I Io or 2o9 and 21o are arranged in the feeder 107 or -207 are alternately connected to one of the two systems, the sequence I03. 2o3, 104, 20 ¢ etc.f. The bodies of the lines with the lines (ioi, pulled, 107, io8 or toi, 202, 207, 208 ) are preferably different en sides of the route 'relocated. The control switches are also analogous. each-alternately connected to the systems so that they are in their mutual position on the route, z. B. in the sequence iog, 209, 11 o, 21o, are arranged.

A line monitor is assigned to each of the line systems. This sets: each of the two in phantom included parts iiia and IIIb or 2IIa and aIIb to-gether. The part IIIb 'or 211b arranged at the end of the consumer line consists of a reverse circuit of two rectifiers 112 and 113 or 2z2 and 213 opposite direction of passage and two resistors 114 and 115 or 214 and 215 between the two consumer lines 101 and 1ö2 or 2o1 and 2o2 . The protective conductor io8 or 2o8 is connected to the electrical center of this series circuit.

Your line monitor part IIIa or 21111 initially contains a switch 116 or 2I6 on the mains supply lines 117 and.118 or 217 and z18, two fuses zig and i2o or 21g and 22o in the connecting lines 121 and I22 or 221 and 222 to the contactor 123 or 223, behind which the consumer zoo or zoo is connected, and a signal lamp 1a4 or z24, the supply of which is controlled by auxiliary contacts 12311 and 223a of the contactor. In the extension of the feed line of the consumer between the lines 125 and 126 or 225. And 226 at the part II Ib or: 2j, b is a similar member of the rectifiers 127 and 128 or 227 and 228 and the resistors 129 and 130 or 229 and 230 switched on. Between. the connecting lines 125 and 131 or 225 and 231 the series connection between rectifiers 132 and 133 or 232 and 233 with opposite Durchlaßrirhtu.ug is switched on, these sliding rectifiers are arranged, however, with opposite Durchdaßrichtung to the links with the rectifiers 112, 113 and 127, 128 or 212, 213 and 227, 228. 134 and 234 each designate a relay. This is fed at its end a from the electrical center of the rectifier system 127, 13o or 227, 230 and at its end b from the electrical center of the rectifier system ii2, 115 or 2I2, 215 via the resistor 135 or 235, the one normally closed: test button 136 or 236 is assigned. The electrical center c of the relay winding of 134 or 234 is connected to the electrical center of the rectifier system 132, 133 or 232, 233 via the resistor 137 or 237. As long as the line is in order, the magnetic effects of the ampere turns between a, c and b, c are mechanically balanced with respect to the core of the relay. and the contact 134d or 234d controlled by 134 or 234 is open. In the event of damage to the line system, such as a line break or a blackout between the main lines and the protective conductor, an imbalance occurs in the supply to windings 134 or 234 of the relay, and this closes its contact 134d or 234d. This switching contact 134d or 234d is connected to the contacts a and d of the relay, 138 and 238, which is a so-called holding relay and switches to self-holding when switched on. A switching bridge e of this relay connects contact a with contact b in its switched-on position and contact c with contact d in its switched-off position. That one end of the winding of the relay 138 or 238 is connected together with the coil of the contactor 123 or 223 to the connecting line 121 or 221. The other connection of the winding of 138 or 238 is to the associated one. Contact a. The coil of the contactor 123 or 223 is connected to the contact c. The contacts b and d. Are electrically connected to one another. The contact d is connected to the line 122 or 222. So if the lines 121 and 122 or 221 and 222 are energized, the coil of the contactor 123 or 223 from the line 122 or 222 via the contacts d, e, c of Rglais 138 and 238 after the line 121 or 221 fed, the contactor switches on and the indicator lamp 124 or 224 off. If the monitoring relay 134 or 234 responds as a result of a fault in the consumer system, it closes its contact 134d or 234d, and the coil of the relay 138 or 238 is awake from the line 121 via contact 134d of the power 122 or fed from power 221 via contact 234d to line 222. When it responds, the switching bridge e is switched away from the contacts c, d to the contacts ca, b and thus the supply of the coil of the contactor 123 or 223 is interrupted, so that this the lines 125 and 131 or 225 'and 231 and so that the consumers of the zoo or zoo system switch off. 139 or 239 denote a capacitor which, as a protective device, bridges the winding of the monitoring relay 134 or 234 and the protective resistor 135 or 235 during switching operations.

The two line switchover points are each connected to a secondary winding c> via lines 117 and 118 or 217 and 218; bzvv. b of the supply transformer.-3o1, the primary winding c of which can be connected to the supply network with lines 305 and 3o6 via fuses 3o2 and 303 and switch 304.

The additional device 400 is also provided. This contains two contactors 4o1 and 402 and a manually operated locking or locking device. Unlocking switch 403 with the dormant input contacts a to h, the output contacts i to q and the switching contacts s to z. As can be seen from the circuit in the current position of switch 403, the electrical connection to terminal b of contactor r23 or 223 runs from fuse 11g or 2z9 via line 121 or 221, via contacts b, 1, u, c, d or g, f, x, o, e and the line 140 or 240. In this position of the switch 403, the device 400 is only a pure switching device without any other effect. The systems are therefore effectively unlocked from one another.

If the systems are locked and the consumers of the system Zoo or Zoo are connected to voltage, then the coil of the contactor 402 is activated from the line 126 via the line 141 and the contacts a, s, i of the switch 403 and the line 404 fed, the return line running via line 4o5, contacts k, t, b from switch 403 to line 121. For the system with the line monitor 211 results. a corresponding current flow from, the line 226 via the line 241, the contacts h, z, q of switch 403, the line 4o6, the coil of the relay 401, the line 407, the contacts p, y, g of switch 403 to Line 221. This closes the contacts 402a and 401a of the contactors 402 and 401, respectively. The switching contact 402a is connected via the connecting lines 4o8 and 409 as well as the switching bridges w and y of switch 4o3, parallel to the contacts e and g. The switching contact 4oza is via the connecting lines 410 and 411 and the switching bridges t and v parallel to the contacts b and d. The switching bridge 402a is therefore in the feed line via the contactor 223 to the consumer of the Zoo system, the switching bridge 401a in the feed line via the contactor 123 to the consumer of the Zoo system. The contactor 4o2, whose Sehal.tbrück0 402a in the one feed line of the consumer. from the Zoo system is only switched on if the consumer line 1o2 of the Zoo line system, which is fed in at the end via the line 107, is connected to voltage. If the line pulled during the signaling on the system zoo is switched off by opening one of the control switches 1o9 or 11o, the contactor 402 also drops out at the same time and also interrupts its opening switching bridge 402a. the feeding of the consumer of the zoo system upstream of the contactor 223. If the control switch log or 11o returns to the switch-on position, the interruption of the zoo system is canceled again.

The same conditions arise with a control on the system Zoo through the circuit and the action of the contactor 401 and the position of its switching bridge 4oza. If damage occurs in one of the systems, e.g. B. an interruption in the conductor 2o8 of the Zoo system, the line monitor 211 responds, whereby the contactor 223 falls out. The two line systems are now unlocked on the additional device 40o by adjusting the switch 403 accordingly, the damaged ones cannot Systems are turned back on.

Fig. 2 of the drawing illustrates an embodiment for the application of the invention in a line system with a control and monitoring device, which is operated with: a special voltage source of lower voltage from the network. The primary winding of the transformer 503 is fed from the network 5oo via the lines 5oi and 5o2. From, its secondary winding feed lines 504 and 5o5 or 5o6 and 5.07 lead to the switching contacts of the contactor 6oo and 700. These two contactors switch the line systems 6oi and 701 with the feed lines 6o2 and 603 or 702 and 703 and the consumers in the form from lamps 604 to 607 or 704 to 707. 6o8 denotes the earthed protective conductor of the system 6o1, 7o8. The corresponding of the system 701.6o9 is the monitoring conductor of the system 6oi with the Steuez switches 61o to 613, 7o9 the corresponding one of the system 701 with the control switches 71o to 713__ The protective conductor 6o8 or 708 and the monitoring conductor 6o9 or 709 form a closed control - and monitoring circuit via the control relay 614 'or 714 and the secondary winding of the transformer 615 or 715, which is connected to the mains-side terminals of the contactor 6oo and 700, respectively. Zwisahen``einer, Anzapfung et; the secondary winding of the transformer 615 or 715 and one of the main lines,. z. B. 6o2 or 703, the consumer is the. Monitoring relay 616 or 716 switched on. -The control circuits for the coil of the contactors 6oo and 700 are fed by the secondary winding of the transformer 5o8, which is from. the secondary winding of the transformer 503 is fed. In the rest or. The closed position of the switching contact 616a-dos Übezwaohungsrelais 616 and the Sghaltkontaktes 716a of the monitoring relay 716 are the Sfiromkreis of the coils of both contactors 6oo and 700 from the terminal b of the secondary winding of the transformer 5o8 via the Leiturig 5o9, the switching contact 714a of the transformer 5o8 714, the line you, the switching contact 614a of the control relay 614, the line 5 11 continues once via the switching contacts 616a of the: Monitoring relay 616, the line 512, the protective coil from 6oo and the line 513 and the other time via the line 514, the Switching contact 716a of 716 and the line 515 after the terminal a of the secondary winding of the transformer 5o8 closed. If one of the control contacts 61o to 613 or 710 to 713 of the two systems is actuated, this circuit is interrupted according to the described circuit for supplying the coils of the contactors 6oo and 700. Thus, both systems 6oi and 701 are controlled at the same time: speaks if there is an error in one. of the systems to the corresponding of the monitoring relays 616 or 716 and opens its switching contact, only the coil of the contactor belonging to the same system is de-energized and thus this system is switched off, while the other one remains switched on. If, for example, if there is a fault between lines .6o2 and 6o9, the monitoring relay 616 at tzüd opens its switching contact, then only the supply to the coil of the contactor 6oo is interrupted and the supply to the coil of the contactor 70o remains line 514 exist. In the event of a line break in the control circuit of one of the systems Gor or 701, which is monitored at the same time by the corresponding control relay 614 or 714 as a monitoring relay, both fall in the same way as with a command. Systems off. To cope with this case in such a way that the system that is not defective in each case can be put back into operation, a corresponding switch can preferably be provided with two switching bridges, which z. B. is parallel to the contact 614a and the line 512 separates at the same time.

The Transformataren5o8, 615 and 715. can optionally become a be combined with a single transformer with corresponding windings.

Claims (7)

PATENT CLAIMS: i. Electrical line system, especially for lighting circuits in underground operations, with line monitor for monitoring the condition of the lines, characterized in that the consumers ati are connected to a number of parallel-connected line systems in such a way that locally: neighboring consumers of the same type belong to different line systems, each line $ ystem is monitored by a line monitor, and that when controlling one of the systems, z. B. for signaling, the control device: #n all systems respond, while in the event of a fault in one of the systems, preferably only the monitoring device of this defective system responds and switches it off. 2. Pipeline system according to claim i, characterized in that the controller Each system also controls the supply of the other systems at the same time. 3. Piping system according to: Anspzuch i or 2 ,, characterized in that each individual line system on a special secondary winding of the supply transformer, which is designed as an isolating transformer lies. 4. Leitüngsarnlage towards claim i or one of the following, characterized in that .that the individual line systems share the same transformer from Are powered. 5. Pipeline system according to claim 1 or one of the following, characterized in that the extra-low voltages for control and monitoring of an isolating transformer via independent secondary windings. 6. Line system according to claim i, characterized in that the switching dependent Control of all systems can be limited to the individual system of your choice. 7. Line system .according to Anspxuch i or one of the following, characterized in that d, aB one the various line systems for common response to errors can be unlocked with each other locking feed device, preferably after a response, for an independent restart of the non-defective ones. Systems. B. Pipeline system according to claim z or one of the following, characterized in that that troubleshooting in a defective system after unlocking the feeder can be carried out regardless of the or the error-free systems.