DE303176C - - Google Patents

Description

IMPERIAL

PATENT OFFICE ,;

The present invention is a circuit arrangement for the investigation of Lines or apparatus and has the purpose of being carried out in an extremely quick and convenient manner a large number of lines or apparatus, e.g. B. in telephone systems, one after the other to be automatically connected to a test device and also automatically through this to be examined.

This purpose is achieved according to the invention in that a contact mechanism over a switch controlled by him a test device automatically to the to be tested Lines or apparatus connects and to

! 5 A has an effect.

For systems in which to investigate ·. the lines or devices combined into groups are, according to the invention by automatic switching means the Kontaktwerk and the test device with switches of different groups of lines to be tested or apparatus connected.

When using the test equipment for telephone systems with dialer operation you can according to the invention for voice connections provided line selector at the same time as Switch to connect the test equipment to the subscriber lines to be tested serve, for which purpose the relevant line selector, expediently one in each line selector or subscriber group, temporarily with the Contact plant and the test device are connected. This is still special It is advantageous not to have any sound on the line selectors intended for such connections. to make changes or other changes. This advantage is' according to the invention achieved in that the contact system for line selectors controlled by it for Voice connections initiates switching processes through which the after setting of the Voter operated on a subscriber line when establishing a voice connection Facilities, e.g. B. the testing and ringing device can be made ineffective. at Use of voice connection line selectors as switches for the test resp. Measuring devices are devices for checking these voters for their busy status necessary. Furthermore, there are always facilities for checking the busy status of the to be provided for the lines to be examined. These two test facilities are appropriate assigned to the contact system or its testing device and by the switching means, which are used to connect the contacts and the test equipment to the switches, to which the lines to be examined are directly connected, one after the other connected in such a way that first the .Besetztstatus of the switch and then the occupied state the line to be examined is determined.

Display devices are also expediently connected to the contact system, which its working and resting state, the respective working position of the. of the

Contact controlled switch, the number of the line that is being examined or is measured and finally the completion of the examination of the test Mark groups of lines or devices. Furthermore, the lines or testing or measuring device examining apparatuses, expediently with a recording device tied together. This can

ίο from the contact plant · except for recording the test results are also influenced in such a way that they are in a special way one, e.g. B. as a result of the busy lines to be examined, not performed Test and, if necessary, one that separates the individual test results from one another Recording causes.

In the drawings, the circuit arrangements are as exemplary embodiments of the invention two facilities for examining groups of lines of independently operated Telephone systems shown. In both examples the facility is for testing a plurality of line groups provided, the connection of the test device with a line group about a. assigned to the management group in the case of automatically operated telephone exchanges Line selection takes place. The device is also made so that for the line selector to which the measuring device can be connected, which for their use as a voice dialer required circuitry does not need to be changed. The only measure by which a line voter also as a switch to connect the measuring device to the line selector Lines is made usable, consists only in the provision of a branch from the supply lines and the Switching arms of the line selector to the switching means (button, selector) via which the voter and thus the management group he can reach with the measuring device in Can be connected. All gear levers are for both arrangements and contacts are shown in the rest position.

Fig. Ι shows an arrangement in which the from the contact I to XVI and the actual measuring device O, z. B. a recording ohmmeter together with a measuring battery MB existing test device can be connected to one of several groups of lines and then automatically checks all of the lines one after the other for their state of insulation. Counter . MW represents a speech line selector of the well-known Strowger type with lifting and rotating movement for a group of 100 subscriber lines. The setup of such a line selector is assumed to be known, and its mode of operation when used as a speech selector is therefore only indicated in the following.

When the MW selector is occupied by a group selector, relay C responds. This turns out to 1, the delay relay V, which in turn about 2 turns on the relays U and the relay A α to the telephone line wire at the same time about 3 and b 4, the relay B to the telephone line wire b applies ,, whereupon relay B via line excite will. Then the stroke impulse for the selector MW takes place in a known manner, in which the impulses acting on the pulse relay A are transmitted via 5 to the solenoid H , which thereby raises the selector shaft by a number of steps corresponding to the number of impulses. After the last stroke pulse, relay B is temporarily de-energized, causing the energized relay U to drop. This turns on the solenoid H at 35 and in its place at 5 ° to the rotary magnet D in the area of the impulse relay A. Then is performed the rotational impulse of the selector MW, whereby the forces acting on the relay A pulses from this are transmitted to the rotary magnet D , whereby the selector shaft of the selector is rotated by a number of steps corresponding to the number of pulses. After the last angular pulse, relay B is temporarily de-energized again, whereby the test relay P of the selector MPF is temporarily applied to the test wire C _{1 of} the required line, to which the selector MW has been set, via contacts 6, 7 and 8 and checks the line for free or busy. If the line is free, the relay P is energized and, before the relay B is energized again, is further energized via its contact 9, the requested line being first rung in a known manner and then switched through to the calling station. If the requested line is busy, the relay P does not respond when the contact is temporarily closed, and the calling station receives a busy signal, whereupon the connection is triggered by hanging up the receiver at the calling station. Among other things, relays B and C are de-energized when the call is over, as is the case when the handset is hung up. These then turn on the release magnet M at 10 and 11, which then returns the selector MW to the rest position.

When the line selector MW is used in conjunction with the measuring device O

and the contacts I to XVI the same is influenced by the latter in such a way that after the lift and _{rotation setting has been made on a line G 1} , ^ ₁ to be tested, this line does not ring and the speech line wires are not switched through, which is achieved by the fact that after the angular impulse has been given on the part of the contact work through this the relay B of the voter in its excitement

ίο not interrupted and so the test relay P of selector MW is not temporarily connected to test wire C _1.

A switch-on button ET is assigned to each selector MW. All of the selectors MW, with which the contact and the measuring device can be connected, share a release button AT , whose temporary operation can be used to switch off the contact and the measuring device after a line group has been checked by its AV counter MW . The completion of the test of a line group is indicated by a final signal lamp Le and an alarm device. The key AT is also operated before the contact and the measuring device is switched on to a line group or its selector MW by flipping its switch-on key ET , the readiness of the device for the measurement by a. Signal lamp _{LmW 1} , the respective stress on the measuring device from the other side is indicated by a signal lamp Lmw ₂ . In the case,. ■ that when the measuring device is connected to a selector MW this is already used for a voice connection, a lamp Lw lights up as a signal for this. In addition to these signal lamps, the measuring device is also assigned a lamp Lv which lights up when the selector MW reaches a line O ₁ , ^ _{1 which is} currently occupied by the contacts I to XVT. In addition, a switching device UeT 'is also assigned to the contact system for this case. By temporarily activating this, the selector MW can be moved from one busy line to the next. The advancement can be effected manually each time the selector MW hits a busy line, this being indicated by the lamp Lv. In the event that the selector is to be switched automatically when the line is busy, the switching device UeT is to be switched over to a selector MW when the measuring device is switched on and must remain switched until the measuring device is switched off.

. 60 The recording device, by means of which the measurement results of the tested lines are recorded, can remain switched on for some time when the selector MW encounters a busy line%, h ₁ and record a measurement for this line which differs easily from the measurement records of free lines differs, whereupon the .Wählers MW is only skipped from the busy line to the next free line. The registration device can also record a separator between the measurement records of the lines in each of two rows of contacts of the selector MW or indicate it by a special sign, whereby the number of the lines could easily be counted for the measurement results of a group. The measuring device could optionally also be connected to apparatus which, in addition to each measurement result, also record the associated line number at the same time.

In order to be able to determine the number of the line to which the selector MW is set and which is measured in each case while the test device is working, ten lamps ZL and ten lamps EL are assigned to the contact system, the former to the ten rows of contacts and the latter to the ten contact positions of the contact rows of the selector MW correspond to:

The respective position of the selector MW is indicated by the lighting of a tens lamp ZL and a single lamp EL . The contact system I to XVI consists of a contact system, which consists of three drives mechanically in certain. Sequence is affected. Each drive has a coupling magnet KM through which its drive can be coupled to a continuously rotating shaft. Each drive consists of several mounted on the same shaft. Disks on the circumference of which elevations and depressions are provided, which slide past the contacts of the system when the drives rotate and operate them in the process. The first drive has five disks which influence the contacts I to V and a contact device S ₁ which switches on the tens lamp ZL. After being switched on, this drive makes one full revolution, whereby it interrupts its movement ten times. W hile ^T his first barrel portion there are, during the second section there is a two setting pulses, etc. for lifting the selector off MW.

The second drive is equipped with contact discs for operating contacts VI to XII Mistake. This drive also makes a full cycle when it is switched on in two larger sections and three

smaller sections in each of the first and thereby switches the measuring device O one after the other to two lines to be tested.

The third drive has contact discs for operating contacts XIII to XVI. provided and after it is switched on it makes one cycle, doing this ten times interrupts and within each of the

ίο between the interruption points causes the delivery of an angular momentum for the voter MW. Furthermore, like the first, this drive is also provided with a contact _{device ^ 2} for switching on the single lamps EL . To measure the 100 lines of a group, the first drive only makes one, the second drive 5 ° and the third drive 10 full revolutions. The sequence of the influences on their contacts caused by each revolution of the three drives are plotted as diagrams in FIG. It can be assumed that the circumferences of the contact disks shown as unrolled straight lines slide past their contacts simultaneously and in the same direction, the sequence of the changes in the state of the contacts in the on the left-hand side of the figure. 2 can be followed from the diagrams without any special effort.

The arrangement according to FIG. 1 works in the following way: Before the device is switched on, it must first be determined whether it is available to carry out the test of a line group or is already being used in some other way. In the event that the contact mechanism has already been put into action from another side, one of the coupling magnets KM ₁ , KM ₂ , KM _{3 of} the three drives is always switched on and the one in

the common battery line of the three magnets lying relay K is excited. This has opened its contact 12 and closed the contact 13. The lamp Lmw ₂ therefore lights up as a sign that the arrangement is already in operation. Another check as to whether the arrangement is ready to be switched on is carried out by temporarily pressing the AT button. If the device is free, relay K is not energized and its contact 12 is closed. When the button AT is pressed, the lamp _{LmW 1} lights up, whereupon the device is easily connected to a selector MW by moving the switching device ET . Thereupon it is still to be determined whether the voter MW is not currently in favor of a

Voice connection is used. If this is the case, the relay C on the selector MW is excited via the low-resistance winding of the test relay (shown in dotted lines) of the group selector GW holding the selector MW occupied, and this winding removes the test relay P ₁ connected to the occupied selector MW Electricity, so that the latter cannot respond. This creates a circuit from earth, battery via K, line 14, 15, magnet KM ₁ , contacts 16 and 17, relay W, line 18 and contact 19 to earth, in which only the high-resistance relay W responds. This switches on the busy lamp Lw via its contact 20. whereupon the switch ET is to be triggered again and the device is to be connected to another, currently free voter MW .

This creates the following circuit: earth, 21, 22, 23, 24, 25, 26, 27, battery, earth. In this, the ReIaIsP ₁ and C address at the same time. Relay C then prepares by closing its contact 28 the. Activation of its high-resistance winding 29, which takes place during the first stroke of the selector MW by opening its head contact 27. Relay C also switches on the delay relay V via its contact 1 (circuit: earth, battery, shaft contact

30, relay V, 1, earth). This then switches on the relay U via its contact 2 (circuit: earth, battery, shaft contact

31, relay U, contact 2 of relay V, head ^9S changeover switch 32, earth), which then remains excited via contacts 33 and 34 independently of 32 and 2. Relay U switches, via contact 35 the solenoid H in the area of contact 5 of relay A Relay V also attaches, when energized, via 3 the winding 36 of the impulse relay A to the speech line wire α and via 4 the winding 37 of the relay B to the speech line wire b at. ¹⁰ p

Simultaneously with these processes, the relay P ₁ , which is simultaneously excited with the relay C , has effected the following switching processes. Relay P ₁ shorts its high-resistance winding 21 when it is excited at 38 and thus blocks the selector MW against occupation from the other side. Relay P _{1 also} opens its contact 17 and thus prevents the relay W from being excited and thus the lamp LPF from lighting up. Relay P ₁ finally switches on ¹¹ S via its contact 39, the clutch magnet Ji M ₁ (circuit: earth, battery, K,. 14, 15, KM ₁ , 39, earth). The clutch magnet KM _{1 then} sets the drive I with the contact disks I to V in motion. In this first the contact disk II comes into effect (see FIG. 2) and

closes the circuit for winding 37 of relay B via 40 (circuit: earth, battery, resistor wd, contacts 40, 41 and 42, line b, contact 4, winding 37 of relay B, earth), so that. the relay B responds. Shortly afterwards the contact disks III and IV come into effect simultaneously, whereby III _{keeps the drive I running independently of 39 or P 1} via 43, while IV opens the contact 16 and closes 53. Then the contact disk I comes into effect temporarily, whereby the relay A receives a current surge via contact 44 (circuit: earth, 44, 45, 46, α, 3, 47, winding 36 of A, 48, battery, earth). Relay A transmits the current impulse via contact 5 to the lifting magnet H (circuit: j earth, battery, 49, H, 35, 5, earth), which, while the switching arms of the selector MW on.

whose first row of contacts lifts. The drive I then moves its contacts influenced by the contact disk II to the rest position. This interrupts the circuit of relay B / at 40. This interrupts the circuit of the relay U at 33, the armature of which drops out because when the selector is lifted, its head switch contact 32 and thus the excitation circuit for U is opened. Relay U switches off the lifting magnet when it is de-energized at 35 , H off and in its place the rotary magnet D in the via 50. Area of. Contact 5 or relay A. Then the contacts influenced by the contact disk II are operated again by the drive I as it continues to run, and at the same time the contacts dependent on the contact disk III are moved into the rest position ^

When operating the contacts dependent on λ'οη of disk III, the circuit of clutch magnet KM ₂ is also closed via 51, provided that contact 95 influenced by disk II is closed (circuit: earth, battery, K, 14, KM ₂ , 51 , 95, earth). The second drive is set in motion by KM ₂ , of which first the contact disk IX acts on its contacts and thus _{short-circuits the relay P 1} at 52 so that its armature drops out and the contact 38 opens, the relay C energizing the selector MW remain. Further, a P of ₂ independent circuit for KM ₂ is closed by the contact disc IX at 56, whereby the rotation of the. Second drive also secured independently of P _2.

If contact 43 of III is opened on the first drive, the circuit of magnet KM _{1 is} interrupted and its drive Γ is shut down. In this holding position is at the same time by the. Contact arm S _{1 of} this drive of the current ¹ circuit of the first tens lamp ZL closed so that it lights up.

Meanwhile, the second drive continues, and the contact disk VI comes into effect temporarily, whereby the pulse relay A receives a current surge via 54 (circuit: earth, 54, 45, 46, a, 3, 47, winding 36 ,. 48, battery, earth). Since now the relay U is de-energized and its contact 50. is closed, A transmits the current surge via 5 to the rotary magnet D, which rotates the switching arms of the selector MW to the first contact of the first row of contacts. It exerts on the second drive the contact disc VII their influence thereby on 55, the test relays P ₂ via the line C ₂ on the testing line C ₁ of the connected to the first contact of the first row of contacts of the selector s.MW to be examined line a [, b _± is turned on. The relay P ₂ now checks this line to determine whether it is free or busy. If the line a _t , b _{± is} busy, P ₂ does not respond. As a result, since the contact disk VII also closes the contact 57, if the relay P ₂ does not respond at 58, the relay VR , which works somewhat slower than P ₂ , is switched on (circuit: earth, battery, VR, 57, 58, 59, earth). Relay VR then closes the circuit of lamp Lv at 60, the lighting of which indicates that the line to be examined is busy, and relay VR can also indicate that the line O ₁ , b _{i is} busy by an alarm signal. Relay VR also prepares a circuit for relay Ue by closing its contact 61.

Shortly before the shutdown of the second drive as a result of the action of the contact disk VIII, i.e. switching off KM ₂ at 64, the contacts influenced by its contact disk VII are shifted into the rest position for a short time by the contact mechanism and during this shift the contacts from. of the disk VI affected contact temporarily shorted. When the contacts dependent on the disk'VII are switched over, the relay VR is de-energized, but shortly thereafter again energized, since P _{2 is} not energized or its contact 58 is closed. ■ When the contact 54 closes briefly through disk VI, the pulse relay A receives a current surge again , which is transmitted by A via. 5 is transferred to the magnet D , as a result of which the switching arms of the selector MW are rotated one step further, whereupon the magnet KM _{2 is} switched off by turning over the contact 64 of the disk VIII and thus its drive is stopped. If now the key UeT is pressed or before, z. B. when switching on the test device O to the selector MW, transferred

Avar, so is via contact 61 of the aroused Re-; lais VR the relay Ue switched on (circuit: earth, battery, Ue, UeT, 61, 57, 58, 59, earth). Relay Ue closes the circuit of the clutch magnet KM ₂ via its contact 63 (circuit: earth, battery, K, 14, KM ₂ , 56, 63, earth), through which its drive II is set in motion again. Its contact disk VII is in effect, ie 55 closed. When the line is free, the relay P ₂ responds immediately. and opens its contact 58.-Furthermore, relay P ₂ switches at 69 the clutch magnet KM ₂ (circuit: earth, battery,

»5 K, 14, KM ₂ , 69, earth) and at 70 the coupling magnet KM- a. KM ₂ causes the second drive to continue running, and KM ₃ starts the third drive at the same time. In this, shortly after it starts up, the. Contact washers XIII, XV and XVI to the effect. This enables the drive to continue running independently of P _2. In the third drive, after a certain distance has been covered, the contact disk XIII becomes ineffective again, whereby, however, since P ₂ keeps the contact 70 closed, the magnet KM ₃ remains unaffected and its drive III is therefore moved on. At the same time, the contact disk X first comes into effect in the second drive, whereby the relay P ₂ , which, after being energized via the free line C ₂ or C _1, blocks this line by short-circuiting its high-resistance winding 72 at 73, completely short-circuits at 74 and thereby becomes de-energized. If then on the third drive the contact disk ■ XIII flips its contacts into the rest position for the second time, the magnet KM _S is thereby switched off at 75 and its drive is stopped, this at the same time being the position of the selector MW on the second _{by means of the switching arm S 2} Contact of a series of contacts corresponding single lamp EL switches on. '' In the ongoing second drive, the contact disk XI connects the measuring device 0 via 62 to the line wire α of the line O ₁ , Jb ₁ to be tested, which then measures it for its insulation resistance to earth (circuit: earth, 76, MB, 0, 62, 65, 77, 78, a ₂ , O ₁ ) and. the measurement result. the recorder of the ohmmeter 0 records. After a while, in the second drive that has remained in motion, the disk XI and shortly thereafter the disk XII influence their contacts. , 80, Si, O ₁ -MB, 79, 66, 82 Earth, 83, b _2, Ji _1: characterized the measuring device _is% off at 62 from the line wire a ₂ and 79 b ₂ connected to the line conductor (circuit ), whereupon this wire is measured and the measurement result is recorded. Then, in drive III, disk XII moves its contacts to the rest position for a short time, whereupon the two contact disks XI and XII influence their contacts at the same time. As a result, the measuring device 0 is simultaneously connected to the a ₂ and 5 ₂ wires or the line to be tested a _1; b _t applied (circuit: a _LT a _2, 78, 77, 65, 62, 0, MB, 79, _66; 82, 83, b _2, ^ ₁₎ and against each other measured by the measuring device whose insulation state and recorded. In the further course, the disks XI and XII of the second switch. Drive their contacts back into their rest position and thus dig measuring device 0, MB off. Shortly thereafter, the drive II moves the contacts of the disk VII to the rest position, whereby 55 is interrupted and thus the assignment of the line Ci ₁ , b _{± is} canceled. Then · turns the drive II back contacts his ■ disc X in the rest position, thereby exerting no effect, and finally go the 'contacts the disc IX back to the rest position. As a result, the circuit of the magnet KM _{2 is} interrupted at 56, but this is maintained by the disk XV at 96 and thus the drive II is kept running. .

Shortly before the drive II exceeds its starting position, on which it does not stop here, the contacts of the disk X are switched to their rest position. As a result, the short circuit for relay P _{2 is} canceled at 74. This responds again and closes my circuit for KM3 at 70 and another for KM ₂ at 69. P ₂ therefore also ensures that drive II continues to run. This then again closes the contact 56 of its disk IX and shortly thereafter again temporarily the contact 54 of the disk VL. The impulse relay A des. Selector MW generates a current impulse, which it transmits to the rotary magnet D via 5. This in turn adjusts the selector arms from the second to the third contact of the first row of contacts. When the contacts of disk IX on drive II are temporarily switched to their rest position, since the contacts of disk V of drive I are at rest and the contacts of disks XV and XVI are in effect, 92, 93, 94, 71 enter Circuit for the magnet KM _{3 is} closed, causing it to respond and its drive III continues to rotate until the contact 75 of the disk XIII that replaces the contact 92 of the disk IX that was opened when the drive II continues to take effect is opened again. Drive III then has to.

immediately by means of its switching arm .S _2, the third single lamp EL is switched on, which now lights up the position of the selector MW on the third contact of the respective, in the present case the first contact. bar series · displays. ^:

The further switching operations then take place in the same way as already described to in the first row of contacts all ten

ίο lines are measured, then the drive III in its. Position ι ο is. If thereupon the magnet KM ₃ over 92, 93, 94 and. Ji speaks again, causes it. the further running of the drive III from its position 10. The contacts of the ■■■ disks XIII and XV then remain in their rest position, and there is then a temporary operation of the contact 23 influenced by the disk XIV the circuit for relay ₁ and C is interrupted for some time. Since the contact 40 operated by the target II is at rest, the relay B is de-energized and its contact 10 is closed, the relay C closes. 11 the circuit of the. Trigger magnet M, which then returns the selector MW to its rest position in a known manner. If the contact 23, which is dependent on the disk XIV, is then closed again when the drive III continues to run, the selector MW is again occupied and is now set to the new one

. Huibstellung ready, whereby the relays P ₁

and C are re-energized. .. ■ · .. '.

The same operations now take place as when setting the selector MW ' to its first row of contacts, only now through

. the start-up of the drive I, whereby. this moves further from position 1 to position 2. The contact 44 influenced by the disk I emits two current impulses to the relay A and thus raises the selector MW to its second row of contacts. Then it takes place

. / in the same way as described for the measurement of the .contacts of the first row of contacts, the setting of the selector MW to the contacts of the second row and the test ". of the lines connected to these contacts. All lines of the second row of contacts of the selector MW are checked through , this is triggered again; then the drive I continues to run up to its position 3, and in this way all lines'%, b _r , connected to the selector MW are measured Line of the group to be measured ends, the drive II reaches its starting position and thereby moves the contacts of the disk IX to their rest position. This interrupts the circuit of the magnet KM ₂ at 56, so that the drive is inward. Shortly before this shutdown takes place, the drive II moves the contacts of its disk'X to the rest position Solution of a line short-circuit of the relay P ₂ canceled again. However, since the drive II in its initial position has not served the 70 ■■ contacts dependent on the disk VII, the relay P _{2 can} now not respond again despite the removal of its short circuit at 74. The clutch magnets KM ₂ and KM ₃ are therefore not switched on now; their drives II and III therefore stop. Are on. the latter the contacts of the discs XV and XVI and on the drive I the contacts of the. Disk.V turned down. These have therefore closed a circuit for relay E via 85, 94, 71 (circuit: earth, battery, K, KM ₃ , Ji, 94, 85, E, earth), in which K and KM _s are also located, where but only ■ the high-resistance relay E responds. This switches at 86, the final character lamp Le and, optionally, a device connected to the line 87 alarm device a, thereby indicating the completion of the measurement of the conduction "group. Then, the trigger switch AT to use, wherein the con- tacts 45, 41, 24, JJ, 82 and 95 are opened and contacts 88, 89, 90 and 91 are closed. At 24, the circuit for "relay C is opened and then: by de-energizing it, as already described, M is switched on and the selector MW returned to the rest position. By closing the contact 88 of AT , the magnet KM _{1 is} switched on and thus the drive I is moved to the rest position, in which the circuit for KM _{1 is} interrupted by its contact disk IV at 53 and thus the drive I is stopped.

By closing the contact 91 of AT , the clutch magnet KM ₃ . switched on and thereby brought the drive III to the rest position, in which then by opening the from the: disk XVI off; pending contact 71 of the magnet KM _{3 is} turned off and the drive III is shut down. Now all three bogies are ready for renewed use, since bogie II was turned into the rest position beforehand .. ... -

As long as the drives I and III have not yet reached their resting position, the relay 'K was energized with KM ₂ or KM ₃ in series and the circuit of the lamp LmW _{1 was} opened at its contact "Circuit, the lamp LmJw ₂ kept closed. As soon as both!, Aufwerke have reached the rest position, however

with their coupling magnets also de-energizes the relay K , so that the lamp L? nw ' ₂ goes out, and the lamp LmW ₁ lights up instead, which is a sign that the device has returned to its idle state, whereupon the switch AT and ET in. their rest position are to be turned over and then switched on again the arrangement for measuring a further group of lines

ίο can be.

Fig. 3 shows an arrangement in which the test device (I to XVI, O) after completion the measurement of a line group to another group is automatically switched on will and thus, a plurality of groups .pen can check automatically one after the other, whereby a final signal is only given, when all the management groups that can be reached by the test facility have been thoroughly checked.

In this arrangement, one of the voice line selectors assigned to a group of 100 subscriber lines is also to be used as the measuring line selector MLW , and the connection of the measuring device to it. These selectors MLW takes place via further selectors GW ₁ , GW ₂ , etc. used only for this purpose. A plurality of selectors MLW is connected to each of these selectors, 20 in the present case, so that 20 line groups with 100 subscriber lines each via a selector GW can be reached for measuring. After the measuring device has been connected to the selector GW ₁ accepted as the first voter by operating

35. the switch-on device ET assigned to the measuring device, the selector GW _{1 is} initially set to its first contact; then takes place in the. the same way as in the arrangement of FIG. 1, the setting of the measuring line selector MLW connected to this contact and the measurement of the 100 lines connected to it. Then through the Kontaküverk the measuring device of the selector GW ₁ in turn with the to it. connected further voters MLW connected and measured the lines that can be reached via these one after the other, whereupon a second dial GW ₂ in sequence automatically takes place on the to him. connected selector MLW is set _ and the lines of the connected

• closed line groups are automatically measured one after the other. After completion of the reachable via the selector GW ₂ line groups a further Wühler GW ₃ is then stressed so on., Until all of the measuring device used achievable selector GW or MLW and connected to the latter line groups are carried measured. Only then is the measuring device stopped, whereupon the measuring device and all of the selectors GW connected to it are brought into the rest position by the triggering switch AT of the measuring device. In the arrangement according to FIG. 3, in addition to the tens lamps ZL and single lamps EL, there are also tau-transmitter lamps TL and hundreds lamps HL , so that the respective line group or its line undergoing the measurement can be easily recognized at any time. .

The arrangement works in relation to the setting of a voter MLW and the measurement of the hundreds line group connected to it after a voter GW has been set to the relevant voter. MLW in the same way as has been described above for the arrangement according to FIG. 1. In the following, therefore, for the mode of operation of the arrangement in FIG. 3, mainly those switching operations are described in more detail which relate to the setting of the diggers GW ₁ , GW _2.

These switching operations are as follows:

Before the measuring device is switched on, its switching device AT is operated first. . Lights while the lamp LMW ₂ so to the operation of the switching device AT "the lamp LMW is to wait with the power on, lights up _one of the measuring device ■ Then, the switch-ET of the measuring device into; be und.es folded working position while the contacts 101 and 102 closed. \ The following circuit is closed via 101: Earth, Batter je, D ₁ , 103, .1 οi, earth. In this, the rotary magnet D _{1 of} the selector GW _{1 is} excited and sets the switching arms 104 to 110 in 'the first switch position and thus to a selector MLW a. Then remains the selector GW ₁ are provided is because the contact 103 open when leaving his .Ruhelage and D _{1 is} switched off. in this case, the contact 111 is also closed. Then, the measuring device verifies The selector MLW is set to the busy state by means of its test relay P _1. If MLW is currently occupied for a call connection, P ₁ does not respond and the measuring device then waits until the selector MLW becomes free.

Is or becomes_ he free, say ^ the re-. IaIsP ₁ and switches on the clutch magnet JfM ₁ at 112. This then sets his drive I in motion and the measurement of the lines a ₁ connected to the relevant selector MLW now takes place automatically one after the other; Jb ₁ .- After all of these have been measured, the contacts of disk IX on drive II are moved to their rest position. Here, contact 93 of disk V is open on drive I and contact 71 is open on drive III

the disk XVI closed, while the contact 94 of the disk XV is in the rest position. Accordingly, through contact 92 of the disk IX. the following circuit closed: earth, battery, K, 113, MK ₃ , 71, 94, E, 92, earth. In this only the sensitive relay E responds. This then switches on the lamp Le at 118. At the same time, however, the relay E also switches on the rotary magnet D _{1 of} the selector GW ₁ at 119, this being further rotated by one switching position and thus set to a selector MLW of a further line group. Then this is measured in the same way as the first, with the Wrhler MLW of the second group one after the other.

. other is set to all lines connected to it. After completion the measurement of all of these lines is then made

ao again switched on the relay ii and turns the selector GPF ₁ to its third contact. This is followed by the measurement of a third and then successively measuring of all 20 line groups connected to the selector GW _1. In each of the first ten switch positions of the selector GiF ₁ , the circuit of a hundred-lamp HL corresponding to the respective switch position is switched on via its switch arms 110 and one of the lines 120 and lights up to indicate which selector MLW the selector GW1 is set to or which dog ■ cer management group is subjected to the measurement in each case. (Earth, battery, HL, 120, iro, 121, TL ₁ , 122, earth.)

In each of the first 10 switch positions of the selector GW ₁ , the lamp TL ₁ also lights up and thus indicates the group of thousands of cables in which measurements are being taken.

As soon as after the end of the measurement of the first group of thousands, the selector GiF _{1 reaches} its eleventh contact, the relay V ₁ responds with the first hundreds lamp HL ₁ - in series. This opens its contact 122 and closes the contact 123, whereby on the one hand the lamp TL _{1 is} short-circuited and its lighting is prevented, and on the other hand the thousand lamp 7'L ₂ and a second winding of the relay V _{1 are} switched on in the circuit of the hundred lamp HL _1. . In the eleventh switch position of GJF ₁ , the hundred lamp JiL ₁ and the thousand lamp .TL _{2 are lit.} When you continue to turn the switch GW ₁ from contact position 11 to 12 and then on to its contact position 20, the relay V ₁ keeps its armature attracted, although its first winding is switched off, because wäh-. At the end of the transition from one of the switching positions 11 to 19 to the next, V ₁ holds its armature. as a result of the delay effect, and in the switching positions 11 to 20 itself, the relay V { is kept attracted by energizing its second winding in series with the thousand lamp TL ₂ and the corresponding hundred lamp HL.

After the measurement of the twentieth hundred line group that can be reached via switch position 20 of the selector,. the relay E is again energized (earth, battery, K, 113, KM ₃ , Ji, 94, E, 92, earth) and turns the selector GW ₁ into its switching position 21 by switching on the rotary magnet D _{1 at 119} Selector MLW connected, but only a high-resistance relay SR ₁ . For this, the following circuit is initially closed: Earth ,. Battery, SR ₁ , 110, 123, V ₁ , TL ₂ , earth. In this, however, only the relay SR _{1 is} excited, whereas the relay V ₁ no longer receives enough current for excitation and points out. after some time drops its anchor. After contact 123 is opened and 122 is closed again, SR ₁ receives current via resistor 121 and lamp TL ₁ , which is only sufficient to excite relay SR ₁ but not to illuminate lamp TL _1. Relay SR ₁ opens its contact 124 so that when the selector GW ₁ moves into its "switch position 21" relay E and the closing of contact 119 no longer influences the rotary magnet D ₁ .;:.

The energized relay .STi _{1 also} closes via its contact 125. the circuit for the rotary magnet D _{2 of} the selector GJF ₂ (circuit: earth, battery, D ₂ , 126, 125, earth), which rotates it to its first switch position, the Contact 126 is opened and a contact 127 is closed. This is followed in the same way as the measurement of the _{20 hundred line groups reached via the dialer GJF 1} , the measurement of the 20 huriderter groups that can be reached via GW _2. The switching processes that take place here correspond to those that occur when measuring the lines that can be reached _{via GJF 1.} After completion of the measurement of these lines, the selector Gi ^ ₂ is then turned to its contact 21, and it speaks in the same way as for relay SR ₁ . described, the relay SR ₂ , through which the rotary magnet D _{2 of} the selector GW ₂ at 128 and the rotary magnet at 129. P _{3 of} the selector GW 3 is switched on. This is followed by the measurement of the GW ₃ and then the. Measurement "of the line groups that can be reached via further selectors GW for the measuring device. When the measurement of the line group accessible via the last, e.g. tenth, selector GW ₁₀ that can be reached by the measuring device is ended, this selector GW _{10 is then}

turn the relay SR ₁ , SR ₂ from its switching position 20 into the switching position 21 . . . energize the corresponding relay SR ₀ . This switches on a lamp Li via its contact 139 and, expediently, also an alarm device at the same time, whereby the termination of the measurement of all lines accessible to the measuring device via selectors GW and MLW is indicated.

The triggering device AT of the measuring device is then operated, thereby causing the contacts 130, 131 to close and the contacts 132, 133, 134 to open. By operating AT , the switch-on device ET can be automatically triggered mechanically. ET can also be switched off manually after AT has been switched off again. By closing the contact 130, the coupling magnets KM ₁ and KM _{s are} switched on and these then move their drives I and III to their rest position, in which KM ₁ and KM _{3 are} automatically switched off. Drive II was already in its rest position As long as KM ₁ or KM _{S are} still switched on, these are connected in series to energize relay K. This switches on lamp LmW ₂ at 135.

As long as this is lit, the release device AT must remain switched on. If, however, the drives have reached their rest position, their. Clutch magnet KM also switched off the relay K , so that the circuit of the lamp LmW ₂ is interrupted at 135 and the circuit of the lamp LmW _{1 is} closed at 136. This lights up as a sign that the measuring device is now in all its parts in the rest position or has reached this, whereupon the switching device AT can be switched off. By closing the contact 131 of AT , the rotary magnets D ₁ , D ₂ ... the selector GW ₁ , GW ₂ ... switched on, and these are thereby rotated to their rest position before the drives I and III have reached their rest position. The arrangement is then ready to be switched on again.

Claims (18)

Patent Claims: i. Circuit arrangement for testing a large number of lines or apparatus, in particular in telephone systems, characterized in that an automatically progressing contact mechanism (I to XVI) automatically sends a test device (O) one after the other via a step switch (MW) controlled by it. Connect the lines to be tested ((Z ₁ , Z) ₁ ) or apparatus and bring them into effect. 2. Circuit arrangement. according to claim i, characterized by automatic switching devices (GW, Fig. 3), which connect the contact (I to XVI) and test device (O) one after the other with several step switches (MLW, Fig. 3), which according to different groups of lines to be tested ( O ₁ , ^ ₁ ) or apparatus. 3. Circuit arrangement according to claim ι or 2 for fully or partially automatically operated telephone systems, characterized in that the step switch (MW, Fig. I, MLW, Fig. 3) for connecting the test device (O) to the lines to be tested (Ct ₁ , Jb ₁ ) is a line selector for voice connections, which by special. Switching devices (ET, Fig. Ι or GW, Fig. 2) temporarily "connected to the contact (I to XVI) and the test device (O). 4. Circuit arrangement according to claim 3, characterized in that the contact (I to XVI) on the line selectors controlled by it, (MW) for 'voice connections special switching operations (keeping the relay B energized on the selector MW by keeping the contact II, 40, on causing contact material Fig. 1 after the angular momentum transfer), through which a voice communication to the effect gelangen- ⁹ S be the devices (checking device P) otherwise ineffective by setting the selector (MW) during manufacture. 5. Circuit arrangement according to claim ι or 2, characterized in that when the step switch (MW) is used, two test devices (P ₁ , P ₂ ) are connected to it. be, of which one (P ₁ ) in a known manner first ■ determines the busy state of the switch (MW) and then the other (P ₂ ) successively the busy state of the lines to be tested (O ₁ , b _x ) of the apparatus. 6. Circuit arrangement according to claim I, characterized in that a display device (ZL, EL) indicating the respective working position of the step switch (MW) is connected to the contact mechanism (I to XVI). 7. Circuit arrangement according to An ⁿ 5 claim i, characterized in that the testing device (O) is connected to a recording device. 8. Circuit arrangement according to claim i, characterized in that a relay (K) belonging to the contact system (I to XVI) has a signal circuit (LmW ₁ ) , which, when a special switching device (AT ) is operated, indicates the idle or occupied state of the contact system (I to XVI). . 9. Circuit arrangement according to claim 8, characterized in that the relay (if ) controls a second signal circuit (Lm ¹ W ₂ ) which indicates the operation of the contact system (I to XVI). 10. Circuit arrangement according to claim i, characterized in that one of the contacts (I to XVI) belonging test relay (P ₂ ) - a signal circuit (Lv) to identify the respective state of the 'lines to be examined (O ₁ , I ₁ ) or Controlled apparatus. 11. Circuit arrangement according to. Spruch ι and 10, characterized. that a special signal circuit (LW) is provided, controlled by a _{relay (P 1} ) belonging to the contact system (I to XVI) and checking the occupied state of the step switch (MW). 12. Circuit arrangement according to claim I, characterized in that the contact mechanism (I to XVI) after the examination of the groups of lines (a _1; b _x ) or apparatuses to be tested has been completed, the excitation of a terminal signal device (Li ?, Alarm device) dominating relay (E) causes. 13. Circuit arrangement according to claim 2, characterized in that in addition to the display devices used to identify the lines being tested, further (TL, HL) for identifying the line groups currently in the test state are assigned to the switching devices (GW) serving for switching on the various groups. 14. A circuit arrangement according to claim 10, characterized in that the device (P ₂ ) of the contact mechanism (I to XVI) determining the occupied state of the lines or apparatuses to be tested causes its shutdown when the lines (a _lt b _t ) or apparatuses are occupied. 15. Circuit arrangement according to claim 14, characterized in that the test relay (P ₂ ) of the contact system (I to XVI) dominates a circuit in which switching devices (Ue) are arranged through which the power plant (I to XVI) is back in Gear can be set. . '. ■. 16. Circuit arrangement according to claim 14, characterized in that the occupied state to be tested lines or apparatus determining device (P ₂ ) via the contact (49) of a delay relay (VR) influenced by it directly controls the circuit containing the switching devices (Ue). 17. Circuit arrangement according to claim 14 or 15, characterized in that the overflowing occupied lines to be tested (O ₁ , ^ ₁ ) or apparatus to take effect switching device (Ue) the test device (O). in a special way that characterizes the test that has not been carried out brings. . 18.. Circuit arrangement according to Claim 7, characterized in that the Contact work (I to XVI) after each . guided test of a line or an apparatus or a group of sol- ... chen influences the recording device in such a way that a different character, task separates the individual test results from one another. For this purpose 2 sheets of drawings.