DE282787C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 282787 CLASS 21c. GROUP

Patented in the German Empire on March 3, 1914.

In interurban control centers, which often have several switching stations from the control center are one behind the other, it must be ensured that when a short circuit occurs, Any point in the network that triggers the switch adjacent to this short-circuit point and only this switch remains inoperative until it is determined by a control ■ will ensure that the relevant wiring harness is operational again. It must also be prevented that when triggering others on the same route from the control center lying switch a large part of the network for longer than absolutely necessary, comes out of service. Are in the relevant switching stations, where the section switches are installed, guards are available, they can be switched on again the switch of the individual circuits can easily determine which one is behind Switch whether the short circuit is located or whether there is an overload in this wiring harness still going on. The substations in question do not and must not have any special maintenance when switches fall out with direct tripping due to overload or Short-circuit from the control center a guard can be sent, starting from the control center determines where the overload is in the successive stations, there will usually be a long-term malfunction in operation.

The invention now shows a way with the aid of automatically reclosing Switches to remedy this situation, namely switches are used, by any source of power, e.g. B. can be operated by a motor fed by the returning voltage, whereby the inclusion must of course be independent of the reason for which the relevant switch has been triggered or switched off. According to the invention these switches have maximum time tripping and switch themselves off after they have been switched off due to overcurrent one after the other - e.g. as a result of the recurring in the same order Voltage - automatically on again; switches if there is still an error or a short circuit but then the switch located in front of the fault location momentarily, i.e. without interconnection of the timing relay, again and prevents it in any way, z. B. by interruption of the circuit of its switch-on motor that it is switched on again before it is checked by the operator the cause of the repeated switch-off was determined and the error or Short circuit has been eliminated. Only then is the switch-on power source manually restored made effective.

The way in which the timing relay comes into effect, can be different depending on the type of release of the maximum time release. Is it a shawl

ter with time release depending on the current strength, so you can z. B. the timing relay by overcoming the force of a switch between maximum relay and time inhibition Bridge the spring or reduce the effect of the timing relay to a minimum. With an independent timing relay, on the other hand, the timing relay will be decoupled from the maximum relay and with this only at the last moment of the switch-on movement, d. H. z. B. at the moment in which the motor has completed its switching movement, again get engaged.

It is particularly useful to still use the track switches located one behind the other to provide a zero voltage release. It could happen that with z. B. four switches in a row, if there is a short circuit behind the fourth switch enters, not this fourth switch, but perhaps the second switch (from the control center falls out. Due to the zero voltage release, care is now taken, that besides that. second switch also trigger the switch behind it immediately. at the reclosing then the second and third switches, because they the Failure point is not yet turned on, remain in operation, and only the last fourth The switch behind which the short circuit is located switches off again without delay and interrupts its inrush circuit. The fourth switch will only then turn itself off Switch on again automatically if, after the short circuit has been eliminated by an operator z. B. the switch for the inrush circuit is manually brought into its operational position.

One form of arrangement for switches with time tripping that is dependent on the current intensity is shown in the drawing in three figures. It was assumed that one of the Mains voltage in any way driven motor caused by the movement of the Switch linkage when switching off receives contact for switching on, the switch again turns on.

It denotes the switch α , b is the motor that moves the linkage d by means of worm transmission c. The lever c operating the switch α is carried along by the linkage d , with the aid of a slot guide at f. E is coupled to the switch α by a pawl g (FIG. 2). h is the spring which seeks to retract the pawl g into its coupled position. The maximum magnet i acts by means of a rod k on a linkage I , which is connected to the linkage d by means of a movable part m . A rod η on the linkage / pushes out the pawl g at the maximum current. Ani linkage / also attacks the timing relay o, drawn here in the form of an oil brake, with the interposition of a spring ρ . To / are attached two contacts q which are normally connected by a contact part r.

If the maximum current has occurred, a position as in FIG. 1 will be reached at the moment of switching off. The maximum magnet i has attracted its core and, since the timing relay 0 is firmly connected to the linkage / by a nose located at m at this moment, with the interposition of the timing relay 0, it has released the latch at g . Is now operated b by some to the linkage in Related contact means of the engine so that it seeks a re-turn on the switch, then in eye view ", in which the peeling blade touching of α connections, a position as shown in Fig. 2 shown to be achieved. The joint part m, which is moved by the linkage d, has not yet moved so far that its nose has come into engagement with the contact device r , which in turn, together with the linkage I, k, has been raised again by the spring p. Therefore, if the earlier tripping occurred under a short circuit, the maximum magnet i will immediately overcome the spring force of p through its force effect when the short circuit of a with the associated contacts is touched, so that tripping occurs directly without the time inhibition comes to an end, takes place (Fig. 3). This at the same time causes the contact to be opened at r , and the motor b receives no voltage despite renewed contact in the linkage for restarting as a result of the interruption at r. Only when the operator has re-established contact between r and q after the short-circuit has been eliminated by hand, motor b can come into operation again.

Claims (2)

Patent Claims: i. Protective arrangement for line networks with line switches located one behind the other, using switches with automatic restarting, characterized in that when a Overcurrent in the network triggers the switch initially with interposition of timing relay goes on, the switches that have been switched off one after the other automatically switch it on again, but if there is still a fault in the network at the time it was switched on, it triggers of the associated switch through maximum current directly without intermediate switching processing of the timing relay takes place, so that only that switch, behind which the error point is located, triggers again immediately and at the same time the effect of its switch-on power source, z. B. his switch-on circuit, interrupts which interruption only by an operator must be lifted by hand. The temporary switch-off of the timing relay can, for. B. with dependent timing relay Overcoming the force of a spring connected between this and the maximum relay, with an independent timing relay through Disconnect this from the maximum relay. 2. Protection arrangement according to claim 1, characterized in that the individual Switches with zero voltage release are provided to ensure that when Switching off a section switch not adjacent to the fault location all behind This switch will fall out and when you switch it on again, only the switch located directly in front of the fault location Switch remains switched off if the error persists. 1 sheet of drawings.