DE3917482A1 - Air conditioning control circuitry with redundancy - has internal controllers in all devices activating redundant ready devices when redundancy line voltage changes - Google Patents

Abstract

All devices (1-6) forming a system contain internal controllers (DDC1-DDC6). Each internal controller has a redundancy contact (101-106) connected to those of the other controllers via a redundancy line. If one controller fails it causes a voltage change on the redundancy line. Failure of a device results in further devices being switched on to maintain the operation of the system. The controller of a device in the ready state responds to the redundancy line voltage change by switching the device on. USE/ADVANTAGE - Controlling air conditioning systems with redundant devices. Intrinsically safer than conventional systems.

Description

The invention relates to a circuit arrangement for controlling a ventilation system with several air conditioning devices according to the generic term of Claim 1.

To increase the risk of failure or operational safety of a ventilation system, the total power to sammensetzt from the individual performance of n ventilation and air conditioning equipment is provided at least one device as a redundancy device, which is in constant readiness for use and switched on a device in case of failure, and thus the n - th of the total output, so that overall the total output of the system is maintained. For economic reasons, it is usually sufficient to provide a device that delivers an nth part of the total output, but with increased reliability or with a larger number of individual devices in a system, the number of redundancy devices can be increased accordingly.

In known ventilation systems with several Single devices is the control circuit for commissioning of redundancy operation in a higher-level, additional Chen control cabinet arranged, the control lines is connected to the individual devices and if one fails The redundancy device in standby turns on a control line.

The individual air conditioning devices of a room air technical system have individual control and regulation  facilities in analog or digital technology (DDC technology) on. In ventilation systems with analogue control The ventilation circuits are the redundancy circuits in contactor technology or in the form of programmable control stanchions built.

There is a redundancy circuit in systems using DDC technology from an electronic bus with which the parent Control cabinet with the individual air conditioning devices ten is connected.

Made in both analog and digital technology led control and regulating devices of indoor air technology The redundancy function is not guaranteed for devices provides when the control or monitoring lines between the higher-level control cabinet and the individual air conditioning equipment interrupted or otherwise are disturbing.

This is the case with systems using DDC technology, for example, if the electronic bus fails so that either the A faulty device does not report back to the parent neten control cabinet or the subsequent control command to switch on the standby the redundancy device not for commissioning the Redun leads device.

The present invention is based on the task reasons, a redundancy circuit for a ventilation technology creating a system that is intrinsically safe and turning one or more on ready  stand of redundancy devices in the event of a failure which is the total output of the ventilation system bringing air conditioning devices that is simply constructed and even if one of the arranged the control cabinet the operational safety of the room ventilation system guaranteed.

This task is characterized by the characteristic of Claim 1 solved.

The solution according to the invention ensures that independent a line fault in the event of failure of one of n devices a ventilation and air conditioning system in operation shaft redundancy device switched on immediately is, so that the operational safety of the system among all Circumstances is guaranteed.

An advantageous development of the Lö according to the invention solution is characterized in that the control device of the redundancy device in use a potential change on the redundancy line the Re switches on the redundancy device. Since all individual devices of the An location via an autonomous control and regulating device add, on the one hand, the function of the device in question monitors and secondly freely selectable control functions and program sequences, the potential change used advantageously on the redundancy line be that different from the specified control radio tion that the redundancy device is ready for operation but does not keep switched on, an immediate switch on of the redundancy device is effected.  

If the malfunction occurs in one of the individual devices of room air technology African system that is used to switch on the redundancy device led, remedied, so eliminates the fault the faulty device to restore the original initial potential state on the redundancy line, what from the control device of the due to the disturbance in Operation of the redundancy device in the way interpre is tiert that the original state is to be set, i.e. the redundancy device switches off and returns to the closed position was ready for operation.

In an advantageous embodiment of the invention The solution is the operating potential on the redundancy line of one of the devices in operation entire ventilation system or from the one in Be operational redundancy device. If there is a malfunction in the device that the operating po potential of the redundancy line, the be appropriate control device of this device also the Power supply off, so that the potential change on the redundancy line for switching on all devices of the ventilation system and thus the redundancy device leads.

If the fault occurs in the redundancy device itself, then also a potential change by the Steuereinrich device of the redundancy device performed so that the in Be powered devices remain switched on and one Fault message is issued, which indicates a fault in the Redundancy device indicates.  

Another advantageous embodiment of the fiction moderate solution is characterized in that the Redun danzkontakte of the control devices of the individual devices the ventilation system from closed-circuit current contacts stand and that if a device fails, its quiescent current Contact is opened so that when the rest is interrupted current loop all for the maintenance of loading required for the ventilation and air conditioning system switch on.

The opening of a single contact all electrically in series connected quiescent current contacts the the individual advising closed current loop thus leads to a Break in the closed circuit loop, resulting in a poten tial change to the closed circuit contacts of the individual devices leads, so that the control device of the ready for use redundancy device located the redundancy device switches on immediately.

Every single device in the ventilation system via a single feedback line with a control room connected, so the failure of this device and there caused by the opening of the quiescent current contact this Device selected for a corresponding fault message be tested.

An advantageous development of the Lö according to the invention is characterized in that a parent Control cabinet with the redundancy line or quiescent current loop is connected and via individual control lines with every single device in the ventilation system  connected is. The higher-level control cabinet can ent speaking maintenance and monitoring facilities which, in addition to a display of the respective redundancy device tes and necessary maintenance messages also a fault rungsmeldereinrichtung contains through which a disturbed Ge advises immediately to be displayed so that the error in the device concerned.

In a further embodiment of the Lö solution becomes the operating potential on the redundancy line or closed-circuit current loop from the higher-level control cabinet submitted, in the event of failure of the superordinate switching closet a change in operational potential on the Re redundancy line from the closed circuit contacts of the individual devices is detected, so that in this case all devices, i.e. also turns on the redundancy device.

This will temporarily lead to troubleshooting an increased overall performance of the entire air conditioning technology system, however, ensures the overall operation system security.

For even utilization of all devices in the room ventilation system, each individual device stands for one predefined period of time as redundancy device in operating area equestrianism. Occurs at a due to the cyclical order Switching device just ready for operation a disturbance, this leads as a result of the fiction According to the opening current contact that the others, in Operating devices remain switched on and one Fault message is issued by which the redundancy  advises on the control lines is identifiable and that Surveillance personnel gives the opportunity to intervene in to fix the redundancy device.

In the same way, with intermittent operation the ventilation system, i.e. with an assignment of the individual devices in the ventilation and air conditioning system into one predetermined temperature range, a fault in one of the Devices are implemented in such a way that the redundancy advises about the performance range of the failed device takes or delivers its full power, so that in each If the operational safety of the system is guaranteed.

The solution according to the invention is suitable for both Control device in analog technology as well as in digital Control technology (DDC technology), as a fault message only a change in potential is required, which in a di gital controlled system to jump from 0 to 1 or conversely leads and is interpreted accordingly or the egg in an analog controlled system relay leads what all the individual devices of the room ventilation system the start of operation signali siert.

The invention is based on the in the drawing tion illustrated embodiments explained in more detail. Show it:

Fig. 1 is a block diagram of a ventilation system to position with 6 individual devices and a higher-level control cabinet, which are connected to one another via a closed-circuit current loop;

Fig. 2 is a block diagram for fault and maintenance messages of the ventilation system and

Fig. 3 is a connection diagram of the higher-level switching cabinet.

Fig. 1 shows a block diagram of a room ventilation system with six individual ventilation units 1 to 6 , which can be expanded to any number of n individual devices. Each of the devices has an autonomous control and regulation device DDC1-DDC6, with which predeterminable control variables can be set and programs can be specified. In intermittent operation, for example, a certain area of application of the air-conditioning device can be specified, for example in the form of a temperature range to be controlled.

In the same way, a time-controlled redundancy operation can be specified, so that alternately one of the indoor air technical devices is ready for use as a redundancy device while the other devices are in operation. Each individual device 1 to 6 of the air conditioning system is cyclically put into operation as a redundancy device by means of a graduated interval, while the remaining five devices cover the total output of the air conditioning system.

The devices are connected to one another in series via a quiescent current loop 29 , while control lines 30 , 31 connect the individual devices 1 to 6 in parallel with a superordinate control cabinet 7 .

In the event of failure of one of the ventilation and air conditioning devices, for example when a motor protection switch responds, the control and regulating device DDC1-DDC6 responds to the device in question and opens a closed-circuit current contact which interrupts the closed-circuit current loop 29 which connects all devices 1 to 6 in series. As a result of this interruption, the voltage at each control and regulating device DDC1-DDC6 of the individual devices 1 to 6 is set to zero. This signal change is evaluated by the operational redundancy device in such a way that it switches on immediately.

Upon interruption of the closed current loop 29, ie in the Redun danzbetrieb thus no voltage at the Steuerlei is obligations 30 and 31, while a PRE-benes potential at the terminals of the control lines 30 and 31 is present in normal operation.

If the error that led to the switching off of a device that is in operation has been remedied, all devices 1 to 6 are reset to the original operating state, so that the device switched off as a result of the fault starts up again and the one in operation The redundancy device switches off again.

Since the higher-level control cabinet 7 is also connected in series with the individual devices 1 to 6 of the air conditioning system to the closed-circuit current loop 29 , if the higher-level control cabinet 7 fails, all devices 1 to 6 of the air conditioning system are switched on.

Fig. 2 shows the connection of all devices 1 to 6 of the ventilation system with maintenance and fault lines for submitting maintenance and fault messages in the higher-level control cabinet 7 . For this purpose, all individual devices 1 to 6 are connected to a voltage supply line 14 and to a maintenance line 15 and a fault line 16 . During maintenance of one of the devices 1 to 6 , the contact K 1 in the device in question is closed, so that a maintenance message is sent to the superordinate control cabinet 7 .

In the same way, the contact K 2 is closed if a malfunction occurs in one of the devices 1 to 6 of the ventilation system.

Fig. 3 shows a circuit diagram of the higher-level control cabinet 7 , the numbers at individual contact points of the circuit diagram agreeing with the line details described above.

In the exemplary embodiment shown here, the power supply to the closed-circuit current loop and the control lines is the responsibility of the higher-level control cabinet 7 , but one of the devices in the ventilation and air conditioning system can take over this power supply in an analogous manner.

A 220 V AC voltage is present as the control voltage on the redundancy cabinet 7 , which is transformed down to a control voltage of 24 V AC voltage by means of a transformer. The 24 V AC control voltage is indicated as a lamp message during operation by means of a lamp 91 and monitored by means of a voltage monitoring relay 91 . In addition, an NC contact and a NO contact are available as potential-free contacts.

In the event of maintenance of one of the devices 1 to 6 of the ventilation system, its maintenance contact K 1 is closed according to FIG. 2 and a message "Maintenance" is placed as a collective message from the ventilation devices in the higher-level control cabinet 7 . If there is a maintenance message from a ventilation unit 1 to 6 , this message is displayed in the higher-level control cabinet 7 as lamp message 10 .

If a fault contact K 2 of one of the air conditioning devices 1 to 6 is closed, a "fault" message is placed as a collective message from the air conditioning devices 1 to 6 in the higher-level control cabinet. This fault message from one of the ventilation devices is also displayed as a lamp message 11 via the control line 16 .

If, as a result of the occurrence of a fault, the redundancy operation is started by switching on the redundancy device which is in operational readiness, a message "redundancy" is displayed as a flashing lamp message. This is done by means of the lamp 13 with a flashing relay 122 connected in parallel, which is switched on by responding to the redundancy relay 121 , which picks up when the voltage on the control line 31 drops.

In addition, the higher-level control cabinet has 7 potential-free contacts, which serve as possible messages to higher-level monitoring systems.

The invention is not limited in its implementation to the preferred exemplary embodiment given above. Rather, a number of variants are conceivable which make use of the solution shown even in the case of fundamentally different types. Insbesonde re not limited to execution on the Realisie tion with discrete logic components, but can advantageously also with programmed logic - preferably using a microprocessor - realized.

Claims (11)

1. Circuit arrangement for controlling a room air-conditioning system with several air-conditioning devices, of which at least one device is ready for use as a redundancy device to increase the reliability against failure, while the remaining devices are in operation, characterized in that all devices ( 1 to 6 ) have one Device-internal control device (DDC 1 to DDC 6), which contain a redundancy contact ( 101 to 106 ), via a redundancy line ( 29 ) to the redundancy contacts ( 101 to 106 ) of the control devices (DDC 1 to DDC 6) of the others Ge devices ( 1 to 6 ) is connected that in the event of failure of a device ( 1 to 6 ) the redundancy contact ( 101 to 106 ) of this device ( 1 to 6 ) causes a potential change on the redundancy line ( 29 ) and that when a occurs potential change on the Re dundanzleitung (29) all REQUIRED for maintaining the operation of the ventilation system chen Ger te (1 to 6) turn on. 2. Circuit arrangement according to claim 1, characterized in that the control device of the standby redundancy device turns on the redundancy device in the event of a potential change on the redundancy line ( 29 ). 3. Circuit arrangement according to claim 1 or 2, characterized in that after elimination of a malfunction of a device ( 1 to 6 ), the potential change on the redundancy line ( 29 ) is canceled and the original operating state of the system is restored, with the faulty device switched on and the redundancy device that was switched on during the fault is switched off again. 4. Circuit arrangement according to one of the preceding claims, characterized in that the operating potential on the redundancy line ( 29 ) from one of the devices in operation ( 1 to 6 ) is given. 5. Circuit arrangement according to one of the preceding claims, characterized in that the redundancy contacts ( 101 to 106 ) from quiescent current contacts and the redundancy lines ( 29 ) consist of a quiescent current loop and that in the event of failure of a device ( 1 to 6 ) the quiescent current contact ( 101 to 106 ) is opened and that when the quiescent current loop ( 29 ) is interrupted, all the devices ( 1 to 6 ) required for maintaining the operation of the air-conditioning system are switched on. 6. Circuit arrangement according to one of the preceding claims, characterized in that a higher-level control cabinet ( 6 ) with the Redundanzlei device or closed circuit loop ( 29 ) and via control lines ( 30 , 31 ) with all devices ( 1 to 6 ) of the system is connected . 7. Circuit arrangement according to claim 5, characterized in that the operating potential on the redundancy line or quiescent current loop ( 29 ) from the higher-level control cabinet ( 7 ) is given and that in the event of failure of the higher-level control cabinet ( 7 ) a change in the operating potential on the redundancy line or quiescent current loop ( 29 ) takes place. 8. Circuit arrangement according to one of the preceding claims, characterized in that all devices ( 1 to 6 ) of the system are cyclically put into operational readiness as a redundancy device in predetermined time intervals and that in the event of failure of the superordinate control cabinet ( 7 ) all devices of the system be switched on. 9. Circuit arrangement according to one of the preceding claims, characterized in that in the intermittent operation of the system in the event of failure of a device ( 1 to 6 ) the redundancy device is switched on and takes over the delivery of the base load or a partial load of the system. 10. Circuit arrangement according to one of the preceding claims, characterized in that the higher-level control cabinet ( 7 ) emits an acoustic and / or optical fault message when the quiescent current loop ( 29 ) is interrupted or when the potential on the redundancy line changes. 11. Circuit arrangement according to one of the preceding claims, characterized in that the control device (DDC 1 to DDC 6) of the devices ( 1 to 6 ) of the system is designed as a control and regulating device for analog technology or digital technology (DDC).