EP0962663B1 - Control device for fluid powered actuators - Google Patents

Description

• wenigstens ein erstes Ventil mit elektrischer Betätigungseinrichtung,
• wenigstens eine dem ersten Ventil zugeordnete Verbraucher-Anschlußeinrichtung zum Anschließen einer zu einem Verbraucher führenden Fluidleitung,
  eine mit dem ersten Ventil kommunizierende Haupt-Anschlußeinrichtung zum Anschließen einer mit einer Fluidquelle verbundenen Fluidleitung,
• wenigstens einen ersten elektrischen Sensoreingang zum Anschließen eines zu einem Sensor führenden elektrischen Verbindungskabels,
• mindestens eine Busstation mit zugeordneten Anschlußmitteln zum Anschließen wenigstens einer zu einer externen elektronischen Steuereinheit führenden Busleitung, wobei die Busstation mit dem ersten Sensoreingang und der Betätigungseinrichtung des ersten Ventils in elektrischer Verbindung steht.

The invention relates to a control device for fluid-operated consumers, with a control module, which contains the following:

• at least one first valve with an electrical actuating device,
• at least one consumer connection device assigned to the first valve for connecting a fluid line leading to a consumer,
  a main connecting device communicating with the first valve for connecting a fluid line connected to a fluid source,
• at least one first electrical sensor input for connecting an electrical connection cable leading to a sensor,
• at least one bus station with associated connection means for connecting at least one bus line leading to an external electronic control unit, the bus station being in electrical connection with the first sensor input and the actuating device of the first valve.

Control devices of this type (see, for example, CH-A-683 021) are used in particular for actuation pneumatically operated drives, for example Pneumatic cylinders or linear drives are used. Your advantage is that they are flexible and in any distribution can be arranged in the field to shortly from there Ways the necessary individual fluid technology and sensor technology Connections to the consumers to be controlled to be able to manufacture. The control module contains one or several valves which can be actuated directly or by pilot control, the via suitable fluid lines with those to be operated Drives are connectable to the required for actuation Transfer fluid. Furthermore there are one or more Sensor inputs available for connecting sensors allow to be controlled depending on the operating state of the Deliver consumer sensor signals. The for controlled Actuation of the valves required control signals provides an externally arranged electronic control unit, via a bus line to the control module bus station communicated and to which the sensor signals are returned.

In known control devices, the functional engineering takes place Equipment of the control module depending on the assigned control task. According to the number the consumers to be controlled are therefore specific equipped control modules for use, which have a different Number of valves and / or sensor inputs. On the one hand, this has the disadvantage that the effort for Manufacturing and storage of the individual control modules right is considerable. In addition, the control equipment, due to the size of the control module - it should be easy to handle - set limits so that one to cope with more extensive controls simultaneously has to use a plurality of control modules, each via an integrated bus station with the external Control unit are to be coupled. The manufacturing and assembly effort is also right high.

It is the object of the present invention to provide a control device to create the type mentioned at the beginning reduced manufacturing, storage and assembly costs allows more flexible use.

• mindestens ein Ergänzungsmodul, das mindestens ein zweites Ventil mit elektrischer Betätigungseinrichtung, mindestens eine dem zweiten Ventil zugeordnete zweite Verbraucher-Anschlußeinrichtung und mindestens einen zweiten elektrischen Sensoreingang enthält,
• mindestens eine erste Anbaufläche an dem Steuermodul, an die ein Ergänzungsmodul mit einer zweiten Anbaufläche anbaubar ist,
• an der ersten Anbaufläche des Steuermoduls vorgesehene, mit der Busstation verbundene erste elektrische Schnittstellenmittel und mit der Haupt-Anschlußeinrichtung kommunizierende erste fluidische Schnittstellenmittel,
• an der zweiten Anbaufläche des Ergänzungsmoduls vorgesehene, mit dem zweiten elektrischen Sensoreingang und mit der elektrischen Betätigungseinrichtung des zweiten Ventils verbundene zweite elektrische Schnittstellenmittel und mit dem zweiten Ventil verbundene zweite fluidische Schnittstellenmittel, wobei das Steuermodul und das Ergänzungsmodul mit ihren Anbauflächen derart aneinandersetzbar sind, daß die beiderseitigen elektrischen und fluidischen Schnittstellenmittel miteinander verbunden sind, und
• Verbindungsmittel zur gegenseitigen lösbaren Fixierung von mit ihren Anbauflächen aneinandergesetzten Modulen.

A control device suitable for solving this task is characterized in connection with the features mentioned at the outset by the following features:

• at least one supplementary module which contains at least one second valve with an electrical actuation device, at least one second consumer connection device assigned to the second valve and at least one second electrical sensor input,
• at least one first mounting surface on the control module, to which an expansion module with a second mounting surface can be attached,
• first electrical interface means provided on the first mounting surface of the control module and connected to the bus station and first fluidic interface means communicating with the main connection device,
• provided on the second mounting surface of the add-on module, connected to the second electrical sensor input and to the electrical actuating device of the second valve, second electrical interface means and connected to the second valve, second fluidic interface means, the control module and the add-on module with their mounting surfaces being attachable such that the mutual electrical and fluidic interface means are interconnected, and
• Connection means for the mutually detachable fixation of modules with their mounting surfaces.

In this way they stay with the use of one Control module related benefits, however Additional advantages result from the fact that the control engineering Equipment by coupling the control module with one and / or more add-on modules practical as needed is individually expandable. Because the supplementary modules the operating fluid required for their operation and the necessary control signals over each other receive coupled interface means from the control module, can their technical equipment compared to that of the control module are greatly reduced and unnecessary especially their own bus station and their own Main connection device for connecting a to be controlled Fluid leading fluid line. With suitable lanyards can be put together with their acreage Secure the modules securely to one another, with one detachable design enables a new separation to if necessary, change the control task invoice to be able to wear. Since there is also the possibility of additional modules use standardized equipment, the manufacturing and storage costs relatively low.

Advantageous developments of the invention emerge from the subclaims out.

It is advantageous if there are several first mounting surfaces on the control module are provided, alternatively or simultaneously are suitable for mounting a supplementary module. In particular can be provided with two first acreage areas be on opposite sides of the control module and accordingly a bilateral extension allow or supplement the control module.

With regard to the supplementary modules, it is also advisable to provide several second acreages, which also two opposite sides Recommend acreage. This makes it possible to connect to the Control module attached supplementary in turn by a to add another supplementary module and also this additional one Supplement module with a new supplement module. Suitable closure means can be provided be around those on an unoccupied acreage close electrical and / or fluidic interface means to be able to.

The valve technology of the individual modules can done as needed. 3 / 2-, 4 / 2- or 5/3-way valves, which are, for example electrically directly controlled or piloted by solenoid valves Valves can act.

It is advantageous if the bus station has a signal converter contains the serial fed via the bus line Converts control signals of the control unit into actuation signals, the first and second valves of the control module and the supplementary modules are forwarded and further from sensor signals originating from the first and second sensor inputs to the control unit as serial feedback signals.

So that the number of contacts of the electrical interface means even with a large number of connected add-on modules remains as low as possible, is the signal converter the bus station expediently with a first encoder equipped with the serial control signals of the control unit converted into serial actuation signals that the supplementary modules be forwarded, with each supplementary module a decoder containing the incoming serial actuation signals converts into parallel actuation signals that then in the relevant add-on module to the actuating devices there be directed.

Similarly, each supplementary module can have a second Encoder included, the one coming from the second sensor inputs converts parallel sensor signals into serial sensor signals, across the electrical interface means routed to the signal converter of the control module bus station which are the corresponding serial feedback signals outputs to the control device. It can in the first encoder of the signal converter a conversion of the incoming serial Sensor signals in the output serial feedback signals be made.

In terms of standard equipment, a such a design, the number of contacts of the interface means remain limited to less than fifteen pieces, even if more than two add-on modules are attached.

To quickly add a supplementary module if required provided control module, the connecting means are preferably designed such that they only between two modules placed next to each other are effective. Attaching and detaching a supplementary module is therefore possible without the remaining module unit to disassemble.

It is also of advantage if the mutual fixation of the connecting means serving as locking means are trained, the rapid manufacture and Allow disconnection.

The electrical interface means located on the mounting surfaces are expedient as plug-in means or as touch contact means trained who put together two modules are automatically coupled to each other. The Fluidic interface means can be used for the respective acreage contain opening channel openings that come together two modules one coaxially aligned Take position, the transition area from a seal is surrounded, which prevents the escape of fluid. The seal is expediently at least a captive component one of the modules to be connected.

Overall, the control module is suitable for the modules a block-like design, so that the several Modules manufactured module unit a compact, plate-like Can have structure.

Figur 1

eine bevorzugte Bauform der erfindungsgemäßen Steuereinrichtung in schematischer Darstellung, wobei ein Zustand gezeigt ist, bei dem ein Steuermodul und ein Ergänzungsmodul bereits zu einer Moduleinheit zusammengefügt sind und ein weiteres Ergänzungsmodul im noch vereinzelten Zustand kurz vor dem Anbau an das Steuermodul gezeigt ist, und

Figur 2

die Anordnung aus Figur 1 in Draufsicht in schematisierter Darstellung, wobei die einzelnen Verknüpfungen dargestellt und ergänzend mehrere anzusteuernde Verbraucher angedeutet sind.

The invention is explained in more detail below with reference to the accompanying drawing. In this show:

Figure 1

a preferred construction of the control device according to the invention in a schematic representation, a state is shown in which a control module and a supplementary module are already combined to form a module unit and a further supplementary module is shown in the still isolated state shortly before attachment to the control module, and

Figure 2

the arrangement of Figure 1 in a plan view in a schematic representation, the individual links are shown and in addition a number of consumers to be controlled are indicated.

The control device 1 according to the example has a Control module 2 block-like structure. This essentially has one box-like housing 3, in which all essential Components are housed.

In particular, the control module 2 contains two first valves 4, each with an electrical actuator 5 are equipped. The electric actuator 5 contains an electromagnet whose movable armature is on the valve member of the assigned first valve 4 acts, to specify its switch position. It can be provided be that the magnet armature the valve member in a direct Actuation activated immediately. It would also be conceivable as electrical actuator 5 a with an electromagnet Equipped solenoid valve to provide that as a pilot valve works to a pilot operated mode to obtain the respective valve, the switching process of the valve member in at least one direction by feeding of a pressurized fluid.

In the exemplary embodiment, the two first valves 4 are each designed as pilot operated 4/2-way valves. Every first Valve 4 contains two consumer connection devices 6, which are designed, for example, as plug connection devices are and each releasably connecting one to a leading consumer 8 indicated by way of example in FIG Allow fluid line 7.

The consumer 8 is, for example, a fluid-operated drive, in particular a pneumatically operated Working cylinder. Such is indicated in Figure 2 and includes a housing 12 in which an axially movable piston 13 is arranged, the two working spaces 14, 15 from each other compartments and with an outside, for example driven part 16 formed by a piston rod in connection stands. In each case one of the fluid lines 7 is on connected to the consumer 8 that the associated consumer connection device 6 with one of the work rooms 14, 15 communicated.

In Figure 2 is only one to improve clarity shown with the control module coupled consumer 8. It it goes without saying that in a corresponding manner also the rest first valve 4 via corresponding fluid lines with a comparable consumers can be connected. In Figure 1 consumers are not shown for the sake of simplicity.

The first valves 4 are housed within the housing 3, the consumer connection devices 6 from the outside are accessible and expediently at a Embodiment upward facing pad 17 of Control module 2 are provided.

The control module 2 also has a main connection device 18, for example, on another Outside surface of the control module 2 is placed. It stands over a first channel device running inside the control module 2 22 in connection with the first two valves 4. One is, for example, to the main connection device 18 hose-like fluid line 23 connectable with a pressurized fluid source P communicates, which provides compressed air in the embodiment. The Main connector 18 can be used as a connector be equipped with a plug connection Fluid line 23 allowed.

Thus, the first two valves 4 through the internal first Channel device 22 fed with pressurized fluid, with the corresponding switching position of the first valves 4 as the actuating fluid for the consumer 8 or his workrooms 14, 15 can be supplied controlled.

A second channel device running inside the control module 2 24 also communicates with the first valves 4 and on the other hand opens into one on the outer surface of the control module 2 provided vent 25. In this way, the second channel device 24 forms one Vent channel device, through which from the consumer 8 exhaust air returned via the first valves 4 through the Control module 2 can be released to the environment. The vent 25 can be a silencer if necessary be assigned, which is expediently in the control module 2 is integrated to obtain compact dimensions.

It is also possible to remove the exhaust air via a the vent opening 25 connectable exhaust line.

Via the second channel device 24 and the vent opening 25 can, if necessary, also on the part of the electrical actuating device 5 generated pre-control exhaust air discharged become. The pilot actuation fluid for those with a pilot valve equipped electrical actuator 5 is expediently from the first channel device 22 branched off inside the control module 2 (not shown).

By supplying electrical actuation signals to the electrical ones Actuators 5, the switch position of the first valves 4 as required to the connected Operate consumer 8. In this way a reciprocating movement of the piston 13 and the generate this connected output part 16 by the working spaces 14, 15 alternately with compressed air as the actuating fluid be pressurized or vented.

The electrical actuation signals receive the electrical ones Actuators 5 from one in the housing 3 of the Control module 2 built-in bus station 26. This bus station 26 is via first signal conductors 27 running in the control module 2 coupled to the electrical actuators 5. Furthermore, the bus station 26 are accessible from the outside and expediently placed in the area of the connecting surface 17 assigned first connection means 28, the releasable connection one that can be installed flexibly and an external one electronic control unit 32 leading bus line 33 enable. With the first connection means 28 it can for example cutting contacts or piercing contacts act when pressing the bus line 33 in its flexible Penetrate insulation jacket and the running inside Contact bus wires. In the exemplary embodiment is the bus line 33 designed as a 2-wire bus.

The bus station 26 contains one indicated schematically in FIG. 2 Signal converter 34. It is capable of from the control unit 32 originating and sent over the bus line 33 Read out serial control signals with the correct address and with the correct assignment as actuation signals to the electrical actuation devices 5 forward. That way a controlled mode of operation according to a predetermined control program possible.

In principle, the actuation energy can also be obtained via the bus line 33 for the electrically operated components of the control module 2 are transferred. Is a bigger electrical Performance in particular for operating the electrical actuation devices 5 required, the power supply if necessary also with a suitable voltage source connected power supply line 36, which are comparable the bus line 33 via second connection means 29 the bus station 26 can be connected.

The tap of the bus line 33 and any existing Power supply line 36 is carried out without interruption the line concerned, which will thus be continued can, for example, be placed at a different location to connect another control module 2.

The control module 2 further contains at least one and expediently a plurality of first electrical sensor inputs 37. In the exemplary embodiment, each first valve 4 is two assigned first electrical sensor inputs 37, so that a total four first electrical sensor inputs 37 are present. You are expediently also in the plane of the pad 17th

The first electrical sensor inputs 37 serve the releasable Connection of electrical connecting cables 38, each to one Guide sensor 42. The sensors 42 are used for detection certain operating states of a consumer and expedient of the consumer who is one of the first Valves 4 is connected. Are in the embodiment the two first associated with a respective first valve 4 electrical sensor inputs 37 each to one for position detection of the piston 13 and / or the driven part 16 serving sensor 42 connected to the appropriate place of the consumer 8 is placed and, for example, reaching the end positions of the aforementioned moving parts can.

The sensors 42 thus feed sensor signals into the first electrical sensor inputs 37, from where they have internal second signal conductors 43 are led to the bus station 26. Their signal converter 34 converts the sensor signals into serial ones Feedback signals around the first connection means 28th and the bus line 33 is sent to the external control unit 32 and processed in it. Thus the sensor signals can be used to control the first valves 4, by assisting in the output of the serial control signals Find consideration.

Again, the electrical connection cables 38 are shown in FIG. 2 and sensors 42 only partially shown and not in FIG. 1 displayed.

It should be noted that the equipment of the control module 2 with first valves 4 and first electrical sensor inputs 37 in principle any number and type is. For example, it would be possible to have only a first one To provide valve 4, which is only a first electrical sensor input assigned. Seems particularly advantageous also equipped with two 3/2-way valves, each over have a consumer connection device 6 and those A respective first electrical sensor input 37 is assigned is.

In order to be able to expand the control device 1 as required, overall, it has a modular structure, with additional to the control module 2 one or more supplementary modules 44, 44 'are provided which are modular with the Have control module 2 and / or coupled to each other. there is the basic structure of the individual supplementary modules 44, 44 'expediently identical, so that on the basis of a Standard equipment composed of any functional module units can be.

The supplementary modules 44, 44 'are expediently similar the control module 2 a block-like structure with a preferably box-like housing 45. Each add-on module 44, 44 'contains at least one second valve 46, in which In the case of the exemplary embodiment, the one additional module shown 44 comparable via two pilot operated 4/2-way valves the control module 2 while the other is shown Supplementary module 44 'two directly controlled electromagnetically Contains 3/2-way valves. Every other valve 46 of the first add-on module 44 has two second consumer connection devices 47, during the second valves of the second supplementary module 44 'only a second one Consumer connection device 47 is assigned. Every second Consumer connection device 47 enables comparable the description of the control module 2 the detachable connection of a to a consumer 8 'leading fluid line 7'. The Structure of the consumer 8 'and its follow-up measures can otherwise that of the consumer described above 8 correspond.

Each supplementary module 44, 44 'also contains a second one Valve 46 is an electrical actuator 5 ', the Structure of that of the electrical actuating devices 5 can correspond to the first valves 4.

Furthermore, each supplementary module 44, 44 'contains at least a second electrical sensor input 48, in which case of the first add-on module 44 every second valve 46 two second electrical sensor inputs 48 and in the case of the second Supplementary modules 44 'every second valve 46 a second electrical sensor input 48 is assigned. Doing so the second consumer connection devices 47 and second electrical sensor inputs 48 of a respective supplementary module 44, 44 'expediently on a common Pad 17 ', which has the same orientation as the connection surface 17 of the control module 2.

The control module 2 has two opposite ones Outside of its housing 2 each have a first mounting surface 49. These first cultivation areas 49 point in opposite directions Directions and expediently run at right angles to pad 17.

The supplementary modules 44, 44 'are similar to one another opposite outer sides of their housing 45 with in mutually opposite directions of the second acreage 50 equipped. These expediently run perpendicular to the associated pad 17 '.

On each first mounting surface 49 of the control module 2 can be one of its second mounting areas 50 one of the supplementary modules 44, 44 '. There is not necessarily one simultaneous occupancy of all first cultivation areas 49 required, rather, the assignment is made as required. It is an alternative use is also possible. In the embodiment is a supplementary module on both first mounting surfaces 49 44 or 44 ', one (44) of which is in the Drawing in the removed state immediately before Cultivation is shown.

By adding modules 44, 44 'over two second mounting surfaces 50 dispose, there is the possibility of an immediate in turn, add-on module attached to the control module 2 to add another supplementary module and this in turn again with a supplementary module so that assembled a module unit of practically any length can be a single control module 2 and one Contains a plurality of supplementary modules 44, 44 '.

When attaching a supplementary module 44, 44 'to the control module 2 are on the first mounting surface 49 of the control module 2 existing first electrical interface means 53 with the facing second acreage 50 of the supplementary module in question 44, 44 'provided second electrical Interface means 54 electrically connected. For this are in the embodiment, the relevant electrical Interface means 53, 54 as complementary to each other Plug-in means designed to engage in one another. Conceivable would be, for example, the use of electrical contact means, those for contacting especially under springy Apply preload to each other.

Furthermore, when adding an extension module 44, 44 ' provided on the first mounting surface 49 of the control module 2 first fluidic interface means 55 with on the facing second acreage 50 of the supplementary module in question 44, 44 'provided second fluidic interface means 56 connected so that a fluid connection between the two sides Modules.

The first electrical provided on the control module 2 Interface means 53 are via internal signal conductors 57 with the bus station 26 in electrical connection. Latter can also be designed as an internal control unit his. Furthermore, the first communicate fluid Interface means 55 with the first channel device 22 and thus with the main connection device 18.

The second ones provided on the respective supplementary module 44, 44 ' electrical interface means 54 are above the first Signal conductor 27 'with the electrical actuators 5 'of the second valves 46 and via second signal conductors 43 'with the second electrical sensor inputs 48 in connection. The second fluidic interface means 56 communicate with one in the relevant supplement module 44, 44 ' extending first channel device 22 'leading to the second Valves 46 leads. Each module also contains 44, 44 'a second one serving as a ventilation duct device Channel device 24 ', the one hand with the second Valves 46 communicates and on the other hand to one at the Ventilation opening 25 ′ lying on the outer surface of the housing 45 leads.

The fluidic interface means 55, 56 are in the exemplary embodiment than when modules are put together aligned channel openings formed by one for example annular seal 61 are surrounded. It can the seal 61 to a separate, interposed from case to case Act component or preferably a captive element attached to at least one module, the can be molded or glued, for example.

The function of the existing in the supplementary modules 44, 44 ' first and second channel devices 22 ', 24' and the first and second signal conductor 27 ', 43' corresponds to that the comparable components of the control module 2. On this In this way, the second ones available in the supplementary modules Valves 46 from the bus station 26 of the control module 2 their Receive operation-causing operation signals and it can incoming at the second electrical sensor inputs 48 Sensor signals are returned to the bus station. At the same time, the second valves 46 are from the main connector 18 supplied with fluid via the control module 2. However, the ventilation is expedient decentralized on the respective supplementary module 44, 44 '.

In principle, it would be possible to use the signal converter 34 of the bus station 26 as a serial / parallel signal converter, see above that those emitted by the bus station inside the module unit Signals as well as the signals returning to it are formed by parallel signals. However, this has the disadvantage that the number of electrical connection contacts of the electrical interface means 53, 54 with increasing Number of add-on modules 44, 44 'to be coupled very much would be big. It is therefore the one realized in the embodiment alternative design proposed, in which the Signal converter 34 of bus station 26 has a first encoder 39 contains, which is capable of being fed via the bus line 33 serial control signals from control unit 32 in convert serial actuation signals. These serial actuation signals are then over in the module unit extending, the electrical interface means 53, 54 internal bus to the expansion modules 44, 44 ' directed. Each supplementary module 44, 44 'has a decoder 40 which receives the incoming serial actuation signals converts into parallel actuation signals, which then via the second signal conductors 43 'as parallel actuation signals to the electrical actuators 5 ' of the second valves 46 are transmitted.

It is also preferably provided that each supplementary module 44, 44 'contains a second encoder 39' which the fed in via the second electrical sensor inputs 48 converts parallel sensor signals into serial sensor signals, which then over the aforementioned internal bus in serial Transmission technology to the signal converter 34 of the bus station 26 of the control module 2 are passed on. There you can, for example in the first encoder 39 in serial feedback signals are converted, which then via the bus line 33 to Control device 32 are sent back.

A comparable equipment with an additional encoder and / or decoder would also be possible in the control module 2. Here however, it is advisable to have one already in the signal converter 34 Conversion of the serial coming from the controller 32 Actuation signals into parallel actuation signals then make the electrical actuators 5 of the first valves 4 are fed. Accordingly can also convert in the signal converter 34 of the first electrical sensor inputs 37 supplied parallel Sensor signals directly into serial feedback signals for the bus line 33 take place.

The arrangement of the encoders and the decoder are in the drawing only shown in Figure 2 for better clarity.

Has one supplementary module 44, 44 'as in the present case several second cultivation areas 50 with corresponding interface means, so it is provided that, on the one hand, the second electrical interface means 54 and secondly the second fluidic interface means 56 of the relevant cultivation areas 50 over those running in the supplementary module 44, 44 ' electrical (58) and fluidic (59) connection means to one another are coupled to loop through the electrical Signals and the fluidic pressure medium for the purpose the connection of a further add-on module to enable.

If a mounting surface 49, 50 of a module 2, 44, 44 'is not occupied, can be the on the relevant acreage 49, 50th located electrical and / or fluidic interface means 53-56 expediently by means of suitable closure means 62, 62 'close and / or cover. The closure means 62, 62 'can be designed in the manner of lids or plugs be in the case of fluidic interface means enable a fluid-tight closure and in the case of the electrical interface means at least one intrusion prevent dirt and / or moisture and if necessary can also contain a terminating resistor.

The aforementioned design eliminates the need for special final add-on modules that only have one acreage 50 have and no further electrical and fluidic Connection means 58, 59 included. Nonetheless, one would be such an arrangement is also possible.

For mutual fixation of modules 2, 44, 44 'are suitable, only indicated schematically in the drawing Connection means 63 provided. They are convenient so designed that they are always placed between two Modules are effective, so that additional Have modules attached to an existing module unit or Remove modules that are no longer required from a module unit leave without the remaining, firmly connected modules to have to separate from each other. This is an extension or change the functionality of the control device possible without having to interrupt the operation for a long time. Connection means are also particularly expedient 63 of the type shown in the drawing, which are is locking connection means, the connection and Make the solving process very comfortable. Nevertheless would be in principle, screw fasteners can also be used.

Finally, there is preferably also an addressing connection on the control module 2 64 available, on which a suitable Lets connect the addressing device via which the addressing that in the control module 2 and also that in the supplementary modules 44, 44 'integrated first and second valves 4, 46 take place can. However, the addressing could also be done via the Bus line 33 are made.

Claims (17)

1. Control device for fluid-actuated loads, with a control module (2) containing the following:

   at least one first valve (4) with electrical actuating device (5),

   at least one load connecting device (6) assigned to the first valve (4) for connecting a fluid line (7) leading to a load (8),

   a main connection device (18) communicating with the first valve (4) for connecting a fluid line (23) connected to a fluid source (P),

   at least one first electrical sensor input (37) for connecting an electrical connection cable (38) leading to a sensor (42),

   at least one bus station (26) with assigned connection means (28) for connecting a bus line (33) leading to an external electronic control unit (32), wherein the bus station (26) is electrically connected to the first sensor input (37) and the actuating device (5) of the first valve (4),

   characterised by:

   at least one supplementary module (44, 44') containing at least one second valve (46) with electrical actuating device (5'), at least one second load connecting device (47) assigned to the second valve (46), and at least one second electrical sensor input (48),

   at least one first mounting face (49) on the control module (2), to which a supplementary module (44, 44') may be attached by a second mounting face (50),

   provided on the first mounting face (49) of the control module (2), first electrical interface means (53) connected to the bus station (26), and first fluidic interface means (55) communicating with the main connection device (18),

   provided on the second mounting face (50) of the supplementary module (44, 44'), second electrical interface means (54) connected to the second electrical sensor input (48) and to the electrical actuating device (5') of the second valve (46), and second fluidic interface means (56) connected to the second valve (46), wherein the control module (2) and the supplementary module (44, 44') may be placed together by their mounting faces (49, 50) in such a way that the electrical and fluidic interface means (53, 54; 55, 56) on both sides are connected to one another, and

   connection means (63) for reciprocal releasable fixing of modules (2, 44, 44') placed together by their mounting faces (49, 50).
2. Control device according to claim 1, characterised in that there are provided on the control module (2) several first mounting faces (49), suitable alternatively or simultaneously for the attachment of a supplementary module (44, 44').
3. Control device according to claim 2, characterised in that the control module (2) has two first mounting faces (49) provided on opposite sides and facing in opposite directions.
4. Control device according to any of claims 1 to 3 characterised in that, provided on at least one supplementary module (44, 44') are several second mounting faces (50) which may be used to attach a control module (2), one or more supplementary modules (44, 44'), or a control module (2) and at least one supplementary module (44,44').
5. Control device according to claim 4, characterised in that at least one supplementary module (44, 44') has two second mounting faces (50) provided on opposite sides and facing in opposite directions.
6. Control device according to any of claims 1 to 5, characterised in that the first and second valves (4, 46) of the control module (2) and/or the supplementary module (44, 44') are at least partly in the form of 3/2- and/or 4/2- and/or 5/3-way valves.
7. Control device according to any of claims 1 to 6, characterised in that the connection means (63) used for reciprocal fixing of the modules (2, 44, 44') are in the form of snap-in connection means.
8. Control device according to any of claims 1 to 7, characterised in that the connection means (63) used for reciprocal fixing of the modules (2, 44, 44') are in each case effective only between two modules placed together.
9. Control device according to any of claims 1 to 8, characterised in that each module (2, 44, 44') has one or more vent passage facilities (24, 24') leading to an outer surface, for the first and second valves (4, 46) provided.
10. Control device according to any of claims 1 to 9, characterised in that the electrical interface means (53, 54) are in the form of plug connectors complementary to one another or of touch contact means.
11. Control device according to any of claims 1 to 10, characterised in that the fluidic interface means (55, 56) are in the form of passage openings surrounded by a seal and aligned with one another.
12. Control device according to any of claims 1 to 11, characterised in that the bus station (26) contains a signal converter (34) which converts serial control signals from the control unit (32) fed over the bus line (33) into actuating signals fed to the actuating devices (5, 5') of the first and second valves (4, 46), and issues the sensor signals coming from the first and second sensor inputs (37, 48) as serial acknowledgement signals to the control unit (32).
13. Control device according to claim 12, characterised in that the signal converter (34) of the bus station (26) contains a first encoder (39) which converts the serial control signals of the control unit (32) into the serial actuating signals fed to the supplementary module or modules (44, 44'), while each supplementary module (44,44') has a decoder (40) which converts the incoming serial actuating signals into the parallel actuating signals passed onwards to the actuating devices (5') of the second valves (46).
14. Control device according to claim 12 or 13, characterised in that each supplementary module (44, 44') has a second encoder (39') which converts parallel sensor signals coming from the second sensor inputs (48) into serial sensor signals which are issued by the signal converter (34) of the bus station (26) as serial acknowledgement signals to the control unit (32).
15. Control device according to any of claims 1 to 14, characterised in that the bus station (26) is equipped with an addressing connection (64) provided on the control module (2), for addressing the first and second valves (4, 46) of the control module (2) and the supplementary module (44, 44').
16. Control device according to any of claims 1 to 15, characterised in that the control module (2) and the supplementary module or modules (44, 44') are block-like in structure.
17. Control device according to any of claims I to 16, characterised by closing means (62, 62') for closing and/or covering the electrical and/or fluidic interface means (53-56) located on an unoccupied mounting face of the control module (2) and/or a supplementary module (44,44').

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