DE950574C - Arrangement for electrical monitoring of control or start-up processes - Google Patents

Description

Arrangement for. electrical monitoring of control or start-up processes In the case of automatically running control or start-up processes, such as those for example in the case of an automatic control system or a machine position working in sequence occur, there is the problem of malfunctions occurring during the start-up process not or only with great difficulty, including a trained one Operating personnel is necessary. The quick identification of what is causing the disruption Part of the automatic or the sequential circuit is, however, for the operation of such Establishment, and beyond that, possibly also for further processes, of extraordinary great importance.

To avoid these existing difficulties when Faults in the process of control or start-up processes, d. H. for quick and also -for untrained operating personnel easy finding of the disturbed part of the Plant, the subject matter of the invention is provided. The solution to the posed Task is done in that a depending on the position of the to be monitored Plant parts assigned contacts step-by-step Stepping mechanism is provided that automatically after checking all contacts returns to its original position and in the event of a fault in the control or start-up process remains in a certain intermediate position corresponding to the faulty part of the system, so that the position of the stepping mechanism assumed in this process affects the disturbed part of the system reveals. In certain cases, the individual switching steps can be advantageous of the step-switching display devices- be associated with the better Allow monitoring, especially from a greater distance. As a stepping mechanism For this purpose, a rotary selector can be used, one of which has a selector arm on the one hand a switch-on relay for the rotary selector drive and, on the other hand, each via one Selector contact and one of the parts of the system that are to be monitored Auxiliary contacts is connected to a voltage source and its second selector arm on the one hand directly and on the other hand in the starting position of the voter arm via an auxiliary relay to stop the three-selector drive or after termination position assumed for monitoring via a second auxiliary relay for switching on of the rotary selector drive is also connected to the voltage source. Of the Drive for the stepping mechanism takes place in a manner known per se in self-interrupting circuit, d. This means that after the drive has taken a step, it is switched off and can only be activated by issuing a command from the switch-on relay controlled by the selector contacts be switched on again. By changing the connection of the second auxiliary relay to switch on the rotary selector arm after the end position has been reached, the automatic Monitoring process canceled and in any position of the voter arm the stepping mechanism can be returned to its starting position. As a display device for the immediate determination of the part that has a fault in the start-up process caused, either a counter can be provided, or it can be the rash a measuring instrument can be used to determine this part, or however, light bulbs can be assigned to each part to be monitored Light up and go out one after the other as long as the operation is fault-free, while a continuously lit lamp provides an indication of the disturbed part gives.

The drive of the counter can be driven directly by the switch-on relay for the rotary selector drive, or it can be a stepping mechanism with several Be used voter arms, one voter arm of which switches the lights in sequence or resistors which are dimensioned in their resistance size so that a certain The deflection of the instrument corresponds to the failure of a certain part in the circuit of an indicating instrument switches on. For the monitoring of automatically running The stepping mechanism can advantageously switch on processes along with the system and the drive speed of the stepping mechanism is dimensioned in such a way that that the stepping mechanism in time with the successively switching parts of the system is driven gradually.

Further details of the invention are based on the drawing, in which is shown an embodiment of the new device is explained in more detail. It shows Fig. I a schematic arrangement of a compressor system for which the In Fig. 2 shown device according to the invention for monitoring the start-up process is provided. 3, 4 and 5 show exemplary embodiments of the display devices. An application of the new device is shown in simplified form with reference to the one shown in FIG Compressor system made understandable.

A drive motor M2 for a compressor K should only be able to be connected to the network when the compressor is idling and when there is excitation. For smooth start-up and operation of such a system, it is therefore necessary that the cooling water inlet and outlet to the compressor and the lubricating oil inlet and outlet are open, the air supply line to the compressor is closed and a circulation line between the suction and pressure parts of the compressor is open . Further, for example, the operation should hur when the fan he be possible. If the valves Ehe, Eh, and h4 in the cooling water, C51 and air supply lines are switched accordingly and the fan is in operation, the closed contacts k1 to k3 assigned to the valves and a contact es, the main switch for the motor M2 of the Drive motor Ml for the exciter G of the main motor M2 are switched on, the shunt regulator Rein being in the start-up position, so that a contact KS coupled to it is closed. In such a position of all valves and other electrical circuit elements, ie with closed contacts k1 to k5, after switching on the motor Ml and closing the contact esl, the drive motor M2 for the compressor can be connected to the network so that the compressor is driven in idle mode .

This sequential circuit is monitored by the new device shown in FIG. The contacts k1 to k5 and es2, which are closed when the system is ready to start, enable the switch-on coil ES "to be switched on by actuating a push-button ET " which switches on the switch-on coil ES2 for the main switch of the compressor motor with the help of its make contact esl, so that the system starts up. by pressing the one-frame switching on a switch-on relay ER for the drive DW ET of a stepping mechanism, namely the switch-on relay ER is in the initial position via the contact or a Wählarmes Dwal turned on the stepping mechanism, and it closes by means of its working contact it over a normally closed contact rrl a -Return relay RR and a normally closed contact ur an interrupt relay UR to the drive DW of the stepping mechanism to voltage. As a result, the movable contact part of the selector arm DWA is switched one step to the contact i. When the drive DW is switched on by a normally open contact dw the ext ähnte interrupter relay UR applied to voltage, so that it picks up and through its normally closed contact ur the- 'circuit for the drive DW interrupts. As a result, the drive DW drops out, opens its normally open contact dw and separates the interrupter relay UR from the feeding network, so that the selector arm DWAl of the stepping mechanism stops at contact i. Assuming that the auxiliary contacts said k1 to k3, and it is closed at the beginning of the starting process are, will now, as the reset button ET is still depressed, the switch-on relay ER via the reset button ET, the closed auxiliary contact k1 and the contact i of the Selector arm DWAl in turn switched on and in turn switches the drive DW on again, so that the movable contact part closes the contact 2. With proper state of the monitored system the above-mentioned flow is carried out of indexing self interruption in response of the switch-on relay ES, and close its normally open contact is as long arrived in the contact position 8 to the movable contact portion of the Wählarmes Dwal. This completes the start-up process and the system is in operation. By means of a second selector arm DWA2, which is coupled to the first-mentioned selector arm, the return relay RR is switched on in switch position 8, which maintains voltage itself with its self-holding contact rr2 via a break contact arg of a switch-off relay AR . The contact yrr is moved into its right working position and closes the drive DW via a normally closed contact arl of the switch-off relay to voltage, so that the drive is switched on in the self-interrupter circuit and its selector arms switch to the starting position. If the starting position, ie the contact position o has been reached, the aforementioned switch-off relay AR is switched on by the contact o of the selector arm DWA2; it opens its normally closed contact and switches off the return relay RR . At the same time it interrupts the circuit of the drive DW through its break contact arl, so that the stepping mechanism stops in its starting position. By switching off the return relay RR, the contact ryl is reset to its left rest position and the self-holding contact rr is opened. The monitoring device is thus ready to monitor a new start-up process.

In the event that the compressor system is not ready to start, for example because the oil inlet valve ETl. is closed and the assigned contact k2 is open, after pressing the ET push button, the DWAl> selector arm can only run as far as contact position: 2, since in position 2 the circuit for the switch-on relay ER is interrupted by the open contact k2.

For the immediate display of the incorrectly positioned part of the system The drive of a counter Z W can be controlled by the switch-on relay ER, like this is shown in FIG. 3. Every time the switch-on relay ER responds, through The drive for the counter ZW is switched on and operated by a normally open contact the counter by one step at a time. In the present case, the counter is pressed twice so that, for example, the number 2 or immediately »k2« or "Eh2" can be read. The operating staff is thus easily in the It is possible to determine that the contact h2 and thus the inlet valve assigned to it ETl, is not in the correct position.

A display of the part of the system preventing the start-up can also according to Fig. 4 by lights lighting up one after the other. To this end are a corresponding number of lights on the one hand directly on the one Pole of a voltage source and to the other via that of a movable contact part a third selector arm DIVA, one after the other actuated contacts on the other Pole of the voltage source connected. As the number of times the switch-on relay is switched on ER each has a specific position of the stepping mechanism controlled by it is assigned, can in this way on-hand the last continuously lit up Lamp to determine the source of the fault.

According to FIG. 5, there is a further possibility of the display by the use of an indicating measuring instrument which is connected to a constant measuring voltage, for example an ammeter J, which is preceded by certain dimensioned resistors W1, W2, W4 and W8, which are determined by working contacts r1, r2, r4 and r8 are switched on at the beginning of the start-up process. The mentioned contacts are opened by relays R1, R2, R4 and R8 as soon as the relays are connected to voltage one after the other by the movable contact part of a selector arm DWA4. For our assumed malfunction, contact: 2 of the selector arm DWA4 would be constantly closed and thus the relay R2 would be switched on, so that the = assigned contact r2 is closed and only the resistor W2 is connected upstream of the measuring instrument. Corresponding calibration of the display scale enables immediate reading of the part causing the malfunction. To deal with a small number of relays. and resistors, the dual system known per se is advantageously used for the circuit, ie the resistance values behave as i: 2: 4: 8 ... : 2n.

The application of the subject matter of the invention is not limited to the example described, but it can be used for other types of systems, which may have a significantly larger number of system parts. The number of parts to be monitored is therefore practically only limited by the largest possible number of selector arm contacts. As the example described shows, after the contact is closed, the switching process continues automatically until the end of the process, ie until ES2 is switched on, so that the ET switch after the ESI relay responds, - which can be indicated by a switch-on signaling device, not shown, no longer has to be printed by hand.

As already mentioned, the new monitoring arrangement also monitors this automatic control process.

When monitoring automatically running control processes however, it is necessary that the switching speed of the stepping mechanism be the same or greater than the incremental speed of the automatic control system.

It still has to be made up for that the end of the automatically occurring Monitoring and the time of return of the stepping mechanism to its starting position by connecting the return relay RR to a specific contact of the Selector arm DWA2 is freely adjustable.

With the subject matter of the invention can thus easily and safely Way an automatic monitoring of start-up and control processes take place and in the event of an interruption of these processes as a result of malfunctions of the The part of the automatic control system or the system causing the fault immediately can be determined on the display device.

Of course, instead of a manually operated push button also a switch-on device that is dependent on one or more physical quantities be provided.

Claims (1)

PATENT CLAIMS: i. Arrangement for the electrical monitoring of control and start-up processes, e.g. B. in systems with sequential circuit, characterized in that a step-by-step switching mechanism is provided depending on the position of the contacts assigned to the system parts to be monitored, which automatically returns to its starting position after checking all contacts and in the event of a fault in the control or start-up process a certain intermediate position corresponding to the disturbed part of the system remains, so that the position of the step-by-step switching mechanism assumed in the process reveals the disturbed part of the system. a. Arrangement according to Claim i, characterized in that display devices are assigned to the individual switching steps of the stepping mechanism. 3. Arrangement according to claim i, characterized in that a rotary selector is used as a stepping mechanism, one of which is a selector arm (DWAI) on the one hand via a switch-on relay (ER) for the rotary selector drive (DW) and on the other hand each via a selector contact '(o to 8) and an auxiliary contact (k1 to h5 and esl, es2) assigned to the system part to be monitored is connected to a voltage source and its second selector arm (DWA2) on the one hand directly and on the other hand in the initial position via an auxiliary relay (switch-off relay AR) to stop the rotary selector drive (DW) or is also connected to the voltage source via another auxiliary relay (return relay RR) for switching on the rotary selector drive (DW) in the position assumed when the monitoring of the system has ended. q .. Arrangement according to claim 3, characterized in that the connection of the return relay (RR) to the selector arm (DWA2) is adjustable so that by changing the contacts to be connected (i to 8) the termination of the automatic monitoring and feedback of the stepping mechanism in its starting position can be adjusted as required. 5. Arrangement according to claims i to q., Characterized in that a counter (ZW) is used as the display device, the drive of which is connected to voltage by a contact of the switch-on relay (ER) depending on the actuation of the switch-on relay. 6. Arrangement according to claims i to .4., Characterized in that lamps are provided for display, which are individually applied to voltage via contacts of a separate selector arm (DWA3) depending on the respective position of the selector arm, so that the last if necessary Constantly lighting up lamp gives a clue for the position of the stationary selector arm and thus for the disturbed part of the system. 7. Arrangement according to claim 5, modified to the effect that relays (R, R2, R4, R.) are switched on by a separate selector arm (DTYA4), the resistors (W1, W2, W4, W $) in the circuit of a measuring instrument (7 ) switch on in such a way that, given the appropriate dimensioning of the resistances, the deflection of the measuring instrument gives an indication of a possibly disturbed part of the system. B. Arrangement according to the preceding claims, characterized in that, for automatically running processes, the step switch mechanism is switched on with the system and is adjusted in time for parts of the system that switch one after the other.