DE738473C - Circuit arrangement for police call, fire alarm and similar systems - Google Patents

Description

Circuit arrangement for police call, fire alarm and similar systems Addition to patent 669 640 B. Police call and fire alarm systems, especially those systems in which the individual alarm points are combined in a ring line. To increase the security of such systems is desirable that each Meldier also then reports automatically when it is cut off and short-circuited, and further that the type .One interruption or short-circuit automatically ", by specifying the detector number and the type of fault is identified According to the main patent, these effects are achieved in that, using known synchronous means, the signaling points in a circuit continuously send one after the other, by means of multiple changes in the state of the line, determining current signals which the devices at the receiving point, for recording the number of the signaling point and the Initiate the type of message if it is influenced by a message from the reporting unit or is suppressed by a line error or its sequence is changed Notification points v Different line resistances and voltage elements caused by the control center. The present invention eliminates this disadvantage and achieves this by the fact that the operation, current strengths for all messages originating from the various reporting points and the interference currents using an undivided loop battery through resistors that are switched on or off according to the loop resistance between the control center and the starting point of the message are always the same Value are kept. Due to the arrangement according to the invention, the different distances of the reporting points are compensated for by the individual detectors successively carried out ET-training, a switching process, which is referred to as circuit I in the following, by additional resistances up to the size of the total line resistance. The resistors can either be permanently assigned to the reporting points, or at the control center a device running synchronously with the synchronous motors of the reporting components ensures that the corresponding compensating resistors are brought into the line. Bring the loop relay used to control the occurring in short and ground fault higher current strengths - expediently arranged in the loop milliammeter with a larger deflection of the pointer a corresponding additional resistance in the line, or be iron hydrogen resistors before the milliammeter of the loop branches Igelegt, all of the signaling current strengths Throttle line outgoing streams. In the arrangement according to the main patent, the position of an interruption in the loop! in the earthing at the detector points, also referred to there as circuit I, and the position of a ground fault on the loop in the interruption of the loop, referred to there as circuit II, at the detector points. This mode of operation is based on the reciprocal response of the line relays before and after the fault location. Since, in the arrangement according to the invention, there is no need to report a ground fault to the loop in the interruption of the loop at the detector points, also referred to in the present case as circuit II, because the loop battery is unearthed in the loop line. d. H. When all the detectors in the loop have carried out circuits I and II, a ground fault test has been carried out on the loop line and the loop battery is temporarily grounded for this purpose. If a ground fault is established, then the grounding of the loop battery remains during the next pass of the detectors, during which the detectors carry out circuits I and II again, in order to be able to determine the location of the ground fault. This state is then the same as in the main patent, but it is only maintained for one detector run. In the following, the two different Schalheit weg lines that the loop battery can take, with battery circuit I for the -eerdete loop battery and with battery circuit II for the ungrounded loop battery are referred to.

The invention is shown in the drawing using an exemplary embodiment shown, which is explained in more detail below.

The drawing - g ib t, and the circuit device for a loop line again, the control of the ke Betriebsstromstä # exclusively from the receiving point of noble. At the reporting points there are synchronous means, e.g. B. small induction motors (clock synchronous motors), on the shafts of which sit three discs, each with a cam. Each cam actuates a contact, namely that of the first disk the contact I lying on the line, the second the contact II in the line and that of the third the contact. All three cams are offset from one another in such a way that first contact I is closed and opened again, then contact II is opened and closed again, and finally the contact is opened and closed again. The relay A belongs to a burglar alarm fire and danger alarm system. When it responds, it holds its anchor over its own contacta until the contactii. the third cam disc opens. The contact of the addressed relay A then removes the short circuit of the resistor ii, '. The contact a2 bridged open the Ko.ntaltll at its in the same state of RelaisA and turns characterized üaber the Widerstandw2 line -in The contacts 1 and II all intelligence units in-line are actuated sequentially, so first at # Me # idestell eMStl contact 1 and then II, then at the reporting point MS12 contact I, then II, etc. For this purpose, not only are the cams of the three disks of each reporting point offset from one another, but; the cams of each reporting point are also offset from those of the other reporting points. With thirty detector points this results in a 3o division of the panes. However, a distribution is provided for a reason explained later. The I contacts cause circuit 1 (earthing of the loop), the II contacts cause circuit 11 (interruption of the loop). The registration office, -eMS130 is located near the alarm center. It only serves to cause a message about the fault situation of an interruption or an earth fault between the alarm station MS129 and the receiving station, and therefore only has the alarm contacts I and II, which are connected to the contacts I and II of the alarm station AlSt- "'take action.

At the receiving point there is a battery LB, one side of which is in the a, branch of the loop line. It is grounded by the actuated contact 11 and also connected to the b-branch of the loop by the closed contact 122 (battery circuit I). The two contacts 11 and 12 are influenced by thirty-one cams of a 3 1-part disk, which is located on the shaft of a motor. This motor runs synchronously with those of the detector points. every time contact I closes at a detector station, N # contacts 11 and 12 at the receiving station are also activated. In the circuit II of the detector points, the contacts I1 and 12 remain in the marked rest position because they are then not lifted by the cams. You then produce the battery circuit II. On the same shaft of the motor there is a second disc with a 3-part pitch - like the discs of the detector points and with a cam on the 31st division. It closes the Isl contact. The cams of the 5th division of these two discs L is at a time when no circuits are made in the of the detector locations in this state, a ground fault of the loop line is executed (s DOWN ARROWS.) subsequent to this starting-to reporting bodies again actuate the contacts I 'and 12 as well as 13.. with their circuits 1 and II.

In each branch, b of the loop line, there are two line relays, La, Lanz, Lb, Lbm, which are constantly excited in the closed circuit. If the loop is fault-free, its armature remains attracted to the circuit I via the then grounded battery LB. With circuit II they are de-energized. In the event of burglary, fire or danger reports, only the relays La, Lb can keep their armatures tightened due to the weakening of the current.

The different positions of the contacts of all four line relays prevent or cause the messages in the reception facility of the control center, in addition to the burglary, fire and danger messages (alarm) also the automatic messages for cut and short-circuited detectors as well as for malfunctions (interruption and connection) stating the error OTtCS can be detected.

AVa and AVb are the resistance regulators. You have 31-tailed contact rim in practice with the spacing of the back disks. The individual balancing resistances are located between the contacts, namely the resistance between the contacts i and 2 = the line resistance : ÄIStl ... 21 2 3 = -ii St2 ... 3 29 30 30, 30 31 = bridged by contact 11 51 1 = the line resistance: Central ... AlStl The arms of the resistance regulator sit on the shaft of the synchronizer. The connection and disconnection of resistors is only necessary with circuit I, because circuit II always brings the same resistances into the line at the detector points. As a result, the regulators in circuit II remain short-circuited: - The short circuit through IV and Ce IV 'is, however, canceled in circuit 1 , so that the resistances are tapped and can act according to the contacts touched by the regulator arenas. . AVa always switches off resistors, AVb switches on accordingly. The. both contacts 13 ' and IV' are actuated by the cams of the first disc.

When reporting INStl z. For example, in the a-branch there is a resistance composed of partial resistances as an additional resistance, which corresponds to the line resistance of the b-branch between the MS11 and MSIBO (control center). In the b-branch only the resistance has been added, which equals the line resistance of the a-branch between the control center and the MSA. The resistance of both the a and the b branches has thus been brought to the entire line resistance. The same takes place when other reporting points report, e.g. MS129. In the a-branch there is only the additional resistance that corresponds to the line resistance of the b-branch between the MSt29 and MS130 (control center). In the b-branch, on the other hand, the resistance that the a-branch has between the control center and the MS129 has been added.

If MS130 reports, there is no additional resistance in the a-branch. in the b-branch on the other hand, all additional resistances are switched on, which are the whole Line resistances of the a-branch correspond.

In all cases, therefore, are the different resistances of the line branches balanced from the reporting points to the control center and thus also in both circuits I and II at the same voltage have the same currents that are applied to the L relays of both Twigs work.

MAa is the milliammeter with equal resistance. being The pointer drags at the deflections caused by the usual operating currents on a resistance-free precious metal wire. With larger rashes it opens one from one well-known precious metal alloy existing, resistance Over and so brings a part of it into the line # that the normal amperage preserved.

FcH is the ferric hydrogen resistance. Its design and effect are known. It lies with an ordinary milliammeter MAb ün b-Zweilg.

The Erds., Chlußprfi, frelaisE are required to determine the location of an earth fault. This relay checks, after all reporting # stellenMStl to MS130 have given their characters and before the reporting point MSII starts again, the loop for ground fault in each case in circuit I. This is done by means of the contact P1, which is controlled by the single cam on the second disc. As already mentioned, this disk runs synchronously with the 3 1-part disk that controls contacts II and 12, which are therefore closed together with your contact Isl. If there is an earth fault when the contacts Isl and 11, 12 are actuated, the L relays respond at this moment in the existing battery circuit 1 (earthed battery), and relay E receives via the closed contacts la, lb and a chain of contacts from earth fault monitoring relays, over current. It holds itself via its contacts2 and grounds the battery with its contact e3, disconnects the previous loop battery circuit with its contact el and connects with its contact: the earthed battery to both loop branches (battery circuit I), thus lifting the state that with not actuated contacts II and 122 exists, namely battery in the loop line (battery circuit II). The notifiers start again one after the other. to send their current signals, and all this time the grounded loop battery is on the line. As a result of the assumed earth fault, only the armatures of the loop relays of one branch drop out in circuit II of the reporting points (interruption), while those of the other are held. A change occurs here as soon as the detector, in front of which the earth fault is located, makes its circuit II. Because in this case the armatures of the loop relays, which are located in the loop branch tested up to that point, remain at Schaltun, II -er-9 energizes, while the-, armatures of the loop relays in the other loop branch are de-energized. This change in the behavior of the loop relay leads, as in the main patent, to the earth fault message indicating the location of the fault. When this message is received by the receiving device (not shown), a relay S ( also not shown) responds, which interrupts the holding current circuit of relay E with its contact s. The relay E is therefore de-energized again, and the loop battery now also resumes its circuit II.

So now is not the ground fault -is reported anew after each pass of the detector, the following device has been dripped overall. Each reporting point is assigned a ground fault monitoring relay EÜ in the control center. These relays are connected to the contacts of a 31-part distributor.MV, the arm of which is also located on the motor level. When the earth-fault message is received, the earth-fault monitoring relay E0 of the reporting point addresses itself via this distributor and maintains its contact via its contacts. Its contact U3 interrupts the response circuit for the earth leakage relay E, which therefore cannot respond again in this way when the earth leakage test is repeated after the detector has passed through. This means that the "repetition" of the earth fault message that has already occurred is suppressed. But this earth fault, which has already been reported, is monitored for its continued existence with each new detector passage holds attracted, and a VerteilerEV in the moment when the person sitting on the motor shaft arm of this distributor touches the contact to which the notifying. Contact, EU4 is. this already happens when the detector Agent effects. their Schaltuilg first the ErdschlußrelaisE speaks as a result and but stops as a result of sufficient width of the distributor contact during the circuit Il. as soon as the registration office, which had reported the ground fault, its circuit II (interruption) points out, the contact lIn a not shown shut-off mechanism is overall open. This The device consists of a 3- part ring of normally closed contacts 1 1 u, which are also supported by a ls on the motor shaft; are interrupted in sequence. If the earth fault persists, the relay EÜ remains energized on the previous response path despite the disconnection of the holding circuit by Ha. The relay Sab speaks through the contact 2 and the distributor MV ', the arm of which is also rotated by the motor shaft, and switches the receiving device, not shown, ah, so that none. Renewed earth fault message can be recorded. These processes during which the. The point that reported the earth fault can give an alarm message despite the earth fault repeats itself as long as the earth fault persists. As soon as it disappears, however, the relay EÜ cannot continue on the response path and drops its anchor. The relay E then no longer receives any current via the distributor EV and is switched on again in preparation via the chain of Re-Iaiskontakteea3 and the la and lb contacts.

Claims (2)

PATENT CLAIMS: i. Circuitry for Pohzeiruf-, F.euermelde- and similar systems in .denen below, using synchronous detector means, the bodies lying in one circuit sequentially continuously by a respective multiple line Zustandsändexung .the send determining Stromzieichen according to Patent 669 64o, characterized ge, - indicates that the operating currents. - strengths at all of the different. Detector places outgoing messages and the fault currents using an undivided Schleifenbatterle d 'hrough according to the Schleifenwiderstand'zwischen headquarters and starting point of the message increases or disconnected resistances always -gleichem value held who-the. 2. Circuit arrangement according to claim i, characterized in that synchronously circulating distributors (AVa, AVb) in the center bring the additional resistors into the loop line. 3. Circuit arrangement according to claim i, characterized in that in the event of a fault occurring in the loop line (short circuit or earth fault) a milliammeter (MAa) or a hydrogen resistance (FeH) brings a resistor into the loop line, which brings the current to the Betri-eb -sstäa # ke back # überxt. 4. Circuit arrangement according to claim i, characterized in -that the undivided loop battery (LB) is placed alternately (through circuit I or circuit II) with earth on both loop branches and without earth in the loop line. - 5. Circuit arrangement according to claims i and 4, characterized in that the alternating switching of the undivided loop battery is carried out by switching means (11, 12) which are operated synchronously with the switching means of the alarm points to determine the state changes of the loop lines. 6. Circuit arrangement according to claim i, characterized in that after the transmission of the current signal to determine the changes in the state of the loop through all the reporting points arranged in the loop by means of synchronous means (131) through a relay (E) the loop line to earth fault is checked. 7. Circuit arrangement according to claim 6, characterized in that the ground fault relay (E), when a ground fault is detected, puts the undivided battery, until the fault location is automatically determined by the detector points, continuously with ground to the two loop clamps (battery circuit II). 8. Circuit arrangement according to claim 6 and 7, characterized in that after the change in the behavior of the line relays (La, Lain, Lb, Lbm) made determination of the location of the error and its recording by the receiving device, the ground fault relay (E) is switched off and the - ungrounded loop circuit & r battery. (Battery circuit, I) is restored. G. Circuit arrangement according to Claims 6 to 8, characterized in that switching means (E0) are provided which, after the location of the fault has been determined and recorded by the receiving device, for the next passage of the reporting points to transmit the. Current signals prevent the renewed earth fault message. Circuit arrangement according to Claims 6 to 9, characterized in that switching means (MV, EO) are provided which check whether the ground fault is still present when the alarm points pass after the fault location has been determined. i. Sch, altungs # anordnulib-na "chAnsprtiichio, characterized in that the ground fault relay (E) is temporarily activated when the ground fault continues to be checked and the undivided loop battery is temporarily connected to ground. 12. SchaltungsanordntuignachAnspruich i to - io, characterized in that switching means (Sab) prevent the renewed recording of the same earth fault message when checking for the continuation of the earth fault when the detector points pass again.