DE851358C - Circuit arrangement for switching from an operating device assigned to a message transmission path to a replacement device as required - Google Patents

Description

Circuit arrangement for switching from one to the other as required Message transmission path assigned operating device to a replacement device The invention relates to a circuit arrangement for switching between one and the other as required Communication device assigned to the communication path to a replacement device. Such Arrangements are often used in communication systems to e.g. B. at Failure of an amplifier or a carrier current generator to a replacement device to switch. In particular, fast-switching relays are used for switching, in order to maintain the shortest possible interruption times and thus existing communication links, especially AC telegraphy channels, not to interfere.

The circuit arrangement according to the invention is characterized in that that to isolating plugs arranged in the input ttttd / or. \ output of the operating device Od. Like. Relay contacts or switch contacts containing parallel paths are provided or can be produced and that the circle of the or those effecting the switchover Relays or switches only after inserting the ones normally provided on the control gear Isolating plug or the like in specially provided sockets or the like. Prepared or is made effective. Appropriate is such a training that the the parallel path producing plugs, cords or the like. B. after insertion in the associated sockets are locked and only after the isolating plug has been plugged back in must be removed from the sockets belonging to the control gear.

The training according to the invention is a reliable one Switching guaranteed, in the case of incorrect switching due to operating errors largely avoided and with existing telephone and AC telegraphy connections not be disturbed. The arrangement is of particular advantage for operational purposes Testing of amplifiers (tube testing) suitable. The arrangement is particularly aesthetic to be trained in such a way @ that for several operating devices, the different transmission paths can be assigned, only a single replacement device needs to be available.

Embodiments of the invention are in Figs. I and 2 for Switching from an operational amplifier to a replacement amplifier is schematic shown. 3 shows an arrangement according to the invention with a plurality of operational amplifiers and only one replacement amplifier.

In FIG. I, BV denotes the operational amplifier, at the input of which the incoming transmission path F 2 arrives. and is connected at the output of the transmission path outgoing from F i. Sockets 1 bridged by isolating plugs are arranged in the input g of the amplifier and similar sockets 1 are arranged in the output. Each separation point in the line is provided with additional double sockets n and n 'on the input side and output side. By inserting bridging plugs into these sockets, a parallel path to the separating points 1, 1 'is created via the relay contacts u i and u 2 , so that the operational amplifier BV remains switched on after pulling the separating plugs at l and l'. The isolating plugs of 1, 1 ' are now inserted into sockets m, ni, which are provided with contacts sunds' and which are provided in the input and output of the replacement amplifier EV, respectively. The .Contacts s, s 'are only actuated when the separation points m, m.' are safely bridged. After the contact 's' closes (in any order), the relays U i, U 2 pick up and move the contacts u i and u 2 and thus the replacement amplifier EV in the conduction path. In particular, fast-switching relays are to be used with a turnover time that does not yet interfere with existing alternating current telegraphy connections. In the relay circuit, a contact e can also be provided, which z. B. is assigned either to the operating switch of the backup amplifier or is actuated by a relay (not shown) arranged in the circuit of the backup amplifier EV and the switchover is prevented when the backup amplifier. is not ready for operation. When switching back from the replacement device to the operating device, the isolating plugs in m and m 'are pulled. The separation of the contact and s 'takes place before the separation points m, m.' are interrupted, so that the contacts u i and u 2 are already turned over before the separation of m and m '. After switching over and returning the isolating plugs to sockets 1, 1 ' , the connections at n and n' can then be separated again.

In this exemplary embodiment, switching is done by plugging the isolating plug in isolating sockets at the input or output of the operational amplifier of the replacement device, which is equipped with special spring contacts for the relay circuit are triggered. This means that the operating and replacement devices are connected in parallel not possible anymore. The sockets with spring set are designed so that the The actual switchover is always effected by the fast-switching relay will. Instead of bushes with a set of springs, other designs, e.g. B. Jump switch, can be used.

While in the exemplary embodiment according to FIG. I the relays U i and U 2 which effect the switching are assigned to the backup amplifier, in the exemplary embodiment according to FIG. 2 they are assigned to the operational amplifier. Here, a constant parallel path to the bridged separation points 1, 1 'is provided via the relay contacts uz and u 2. The i. N in the embodiment of Fig this Parallelweg sockets provided, n 'are respectively the input and output of the substitute amplifier Eh provided, while the separating bushings m, m' are each assigned to the relay circuit. If the amplifier BV is to be tested, the connections n, n ' are first made, then the isolating plugs at 1, l' are pulled and into the sockets m, m. ' introduced and hereby the contacts s, s' and thus the relay circuit closed. Contacts u i and u 2 flip over and switch on the replacement amplifier instead of the operational amplifier.

When assigning the replacement amplifier to several operational amplifiers, the sockets yn, yrä need only be assigned once to the replacement amplifier in the exemplary embodiment according to FIG. The connections between these socket contacts and the socket contacts of the respective operational amplifier can then be made by means of cords with plugs. Likewise, however, the socket contacts assigned to the replacement amplifier can also be provided in many cases in accordance with the number of operational amplifiers; However, care must then be taken that only one connection can be established at a time. For example, this can be achieved in a simple manner in that the isolating plugs or the like required for this purpose are only simply available, and it is also possible to provide conventional interlocks in switchgear panels which block all the others when a connection is established. When assigning a substitute amplifier to a plurality of operational amplifiers according to the exemplary embodiment in FIG. 2, sockets n, n ' in the input or output of the substitute amplifier can never be designed accordingly.

An exemplary embodiment for several operational amplifiers and a replacement amplifier is shown in FIG. In this embodiment, the principle of FIG. I was applied and the isolating contacts n and n 'were provided multiple times. Several incoming transmission paths F i to be performed on the corresponding lines from. With c the Schirrnüng or earth is referred to. The separation points are consistently designed in such a way that the shielding or earth is also switched through. At the output of the individual operational amplifiers BV i to BV 14, the outgoing paths F 2 ab are connected to the lines ab. In operation, the contacts 1, 2 of the separation points i, i 'in the input or output of the operational amplifier, z. 13. the operational amplifier BV i connected. Should now an amplifier, z. B. the amplifier BV i are checked, the corresponding contacts 3, 4 and 5, 6 are bridged. A connection path is then established to i, i 'via n or n' via the contacts u i and u 2 , respectively. The bridging plugs iv and n 'can only be provided simply. In particular, the corresponding panels are designed so that when plugging the jumper n or n 'z. B. for the amplifier BV i all other connection options for the remaining amplifiers are locked, so that any other connection than for the amplifier BV I or any other is impossible. After the bypass routes have been established, the isolating plugs i, i 'are pulled and inserted into the corresponding isolating sockets m, m in the input or output of the replacement amplifier EV, whereby the contacts 1, 2 are bridged there. After establishing the connection at 1, 2 in m and m ', spring contacts bu i and bu 3 are actuated, through which the relay circuit is closed. In the relay circuit, as shown in FIG.

Claims (6)

PATENT CLAIMS: i. Circuit arrangement for switching from an operating device assigned to a message transmission path to a replacement device as required using, in particular, fast-switching relays through which the input and / or output-side switching is effected, characterized in that arranged in the input and / or output of the operating device (BV) Isolating plug or the like (i, i ') relay contacts (u 1, u 2) containing parallel paths are provided (Fig. 2) or can be produced (Fig. I) and that the circuit of the relay (s) causing the switchover (U 1, U 2) prepared or effective only by inserting the isolating plugs or the like (1, 1 ') normally provided for the control gear (BV) into specially provided sockets or the like (m, m.') (Contacts see Sect , s') is made. 2. Circuit arrangement according to claim i, characterized in that only one replacement device (EV) is provided for a plurality of operating devices (BV i to BV 14) (Fig. 3). 3. Circuit arrangement according to claim i or 2, characterized characterized in that the connector producing the parallel path. Like. After introduction in the associated sockets or the like. Are locked and this locking only is canceled by plugging back the isolating plug on the control gear. 4. Circuit arrangement according to one of the preceding claims, characterized in that the switchover causing relays are assigned to the replacement device and the relay circuit by introducing the isolating plug or the like prepared in the input and / or output of the replacement device or is made effective (Fig. i). 5. Circuit arrangement according to one of the claims i to 3, characterized in that the relay effecting the switching is the Control gear are assigned and the relay circuit by inserting the isolating plug or the like. Prepared or made effective in sockets provided in the relay circuit becomes (Fig. 2). 6. Circuit arrangement according to claim 4, characterized in that when assigning a replacement device to a plurality of operating devices for the sockets provided for preparing or making the relay circuit active simply exist and the necessary connections with the respective control gear Can be produced using movable cords or the like. Circuit arrangement according to claim 4, characterized in that when a replacement device is assigned to a plurality of operating devices for the preparation or activation of the relay circuit provided sockets arranged many times and locking devices provided are that when a disconnect plug or the like. All other devices assigned Block connection options. B. Circuit arrangement according to claim 5, characterized characterized in that when a replacement device is assigned to a plurality of operating devices the sockets or the like for connecting the replacement device are only simply available and the connection to the corresponding, assigned to the respective operating device Contacts by movable cords or the like. Can be produced. G. Circuit arrangement according to claim 5, characterized in that when a replacement device is assigned to a plurality of operating devices the sockets or the like. for connecting the Replacement device is often arranged and locking devices are provided, when a disconnect plug or the like is introduced, all other devices are assigned Block connection options.