DE1005400B - Control device for an internal combustion engine system - Google Patents

Description

Control device for an internal combustion engine system The invention relates to an operating device for a Breunkraftmaschineanlage, in particular a ship propulsion system in which several reversible internal combustion engines via a clutch to a common, no speed differences compensating Gears work and the starting and reversing devices of the prime mover and the switching elements of the clutches are interlocked so that several prime movers can only work on the transmission at the same time if they are related rotate on the same in the same direction.

In a known operating device of this type for a ship propulsion system the locking of the operating elements assigned to each machine and each coupling takes place mechanically at a common, maneuvering stand. By the operating device according to the invention Such a special maneuvering station is saved by the interlocking electrically is carried out in such a way that the control levers at the individual control stands Controlled switching contacts are provided, through which each directly the on and Disengagement of the clutch assigned to the machine in question causes or a in the actuating device of the same built-in locking device controlled is and at each control station in addition to the switch contacts, also from the operating levers controlled contacts are provided, which with the on the other Control stands for controlling the clutches provided contacts are in series and are arranged so that when the starting lever is engaged in Operating position for controlling the clutch assigned to the coming machine provided contacts only the switch-on circuit for the coupling or the close the interlocking of the control device of the same canceling circuit, when the other machines are either stopped or already in the same sense as with the newly switched machine intends to work on the common transmission. To implement this proposal, switching devices known in electrical engineering can be used and control elements such as switch contacts, lifting magnets and control motors Find use.

In the drawing is an embodiment of the control device according to the invention for example shown schematically.

Fig. 1 shows the arrangement of one consisting of two internal combustion engines Ship propulsion system in which each internal combustion engine has its own control stand is equipped; Fig. 2 shows one of the two control stations with the same structure in perspective view. with applied switch contacts; Fig. 3 shows this Circuit diagram of the operating device with switch positions for both internal combustion engines "In advance" ; Fig. 4 shows the same circuit diagram with switch positions for both Machines "backwards"; Fig. 5 shows the switch positions for the starboard engine "Backward" and port machine "Ahead"; Fig.6 illustrates the switch positions for starboard engine »ahead« and port engine »backwards«.

In the marine propulsion system shown in Fig. 1, the two directly reversible internal combustion engines designated by 1 and 2. 1 is the Starboard engine and 2 the port engine. Each of the internal combustion engines works via a clutch 3 or 4 to a common transmission 5 with a single, the propeller (not shown) driving the drive shaft 6. Each internal combustion engine is equipped with a control stand 7 or 8, from which both the commissioning and the machines can be reversed. With the clutches 3 and 4 are electromagnetic clutches.

In Fig. 2 is the control stand 8 of the port engine 2 of the system shown in a perspective view according to Fig. 1. In the description below are bracketed behind the reference numbers applicable to the control stand 8, those for the corresponding facilities at control stand 7, which is not labeled as an animal, apply Reference symbols used. Switching contacts are attached to the control stand in such a way that that the drive lever 9 (26) in the operating position a simple switch 10 (27) closes; while the reversing lever 11 (28) is in position »Ahead « a switch 12 (29), in the "reverse" position a switch 13 (30) is actuated. The two switches 12 (29) and 13 (30) have the same structure. Every switch has two contact rails 14 (31) and 15 (32) or 16 (33) and 17 (34). In position The rails 14 (31) and 15 (32) of the switch 12 (29) bridge the “ahead” Contacts 18 (35) and 19 (36), the contact rails 16 (33) and 17 (34) of the switch 13 (30) contacts 20 (37) and 21 (38). In the "reverse" position of lever 11 (28) bridge the contact rails 14 (31) and 15 (32) the contacts 22 (39) and 23 (40) of the switch 12 (29) and the contact rails 16 (33) and 17 (34) of the switch 13 (30) contacts 24 (41) and 25 (42).

The circuit diagram shown in Fig. 3 illustrates the working state the switching contacts in the "advance" position for both internal combustion engines. In the Circuits for clutches 3 and 4 are electrically remote-controlled switches 43 and 44 arranged. In the control circuit of the switch 43 lie from the positive lead of the electrical system, a fuse 45, the switch 27 on the operator's platform 7 of the Starboard engine 1, the release winding 46 of the switch 43, an emergency switch 47, the operating switch 48 for the clutch 3 and the closed switch 36 on Control stand 7 of the starboard engine 1 and 19 on control stand 8 of the port engine 2 in a row. The emergency switch 47 remains normally closed, but offers the Possibility to use the clutch 3 independently of the actual operating switch 48 and, if necessary, also under the switch, the control stands to engage. For the latter purpose leads from the third contact of the switch 47 a bypass line 49 directly to the negative line of the vehicle electrical system. In the control circuit of the switch 44 for the port clutch 4 are from the positive line of the electrical system seen from, first a fuse 50, the switch 10 on the operator's platform 8 of the port engine 2, the trigger winding 51 of the switch 44, an emergency switch 52, the operating switch 53 for the clutch 4 and the closed switch 35 on the operator's platform 7 of the starboard engine 1, and switch 18 on control stand 8 of port engine 2 in series. With the switches 43 and 44 for the, clutches 3 and 4 are still, each with a simple switch 54 or 55 so coupled that both switches 54 and 55 are closed when the couplings are disengaged. With the preceding driving state of the two internal combustion engines 1 and 2, in which both rotate so that they, switched to the common gear 5, To drive the ship “ahead”, the two clutches 3 and 4 can be actuated switches 48 and 53 are engaged. The switches 10 and 27 are closed, since the control levers 9 and 26 are in operation (see Fig. 2). The emergency switches 47 and 52 must also be closed. For example, if switch 48 is closed, so the release winding 46 of the switch 43 for the starboard clutch 3 receives voltage, since the switches 36 and 15 on the two control stands 7 and 8 are closed. Of the Switch 43 is closed and thus the frictional connection in clutch 3 is established. When the switch 43 is engaged in the closed position, the switch opens 54, but this does not interrupt the control circuit of the switch 44. By inserting the switch 53, the switches 18 and 35 on the control stands 8 and 7 are closed, without further voltage to the trigger winding 51 for the port clutch is placed and the frictional connection is established in the latter. By moving switch 44 into the closed position, switch 55 opens, but this does not interrupt the control circuit for the port clutch 3 in the wake. For the sake of clarity, the control circuits are for the switches 43 and 44 of the coupling 3 and 4 strongly pulled out. With the position »Ahead« you can Both clutches on both control stands of the internal combustion engines put into operation can be indented either one after the other or at the same time.

Fig. 4 illustrates the options for switching on the clutches according to the circuit diagram according to Fig. 3 for the case that both internal combustion engines are in operation and turn »backwards« in the direction of travel. It's like a Tracking of the heavily drawn out control circuits for the clutch switches 43 and 44 shows, likewise an optional or simultaneous engagement of both clutches possible.

The switching options for the clutches are different, if, how In Fig. 5, it is assumed that the starboard engine 1 is in the "ahead" direction and the port engine turns in the "back" direction. When the clutches are disengaged, the control circuit leads for the switch 43 of the starboard coupling via the switch 55 and the control circuit for switch 44 of the port clutch via switch 54. It can be seen that if, for example, the switch 44 moves in the closed position and thus the Port engine 2 is switched to the gearbox, the control circuit for the Switch 43 is interrupted by opening switch 55. This means, that the starboard clutch cannot be operated when the port engine is already working on the gearbox and thus on the propeller. It is the other way around also not possible after switching on the starboard clutch the port engine also still to switch to the transmission, since with the switch 43 closed the Switch 54 open and thus the control circuit for switch 44 of the port clutch is interrupted. So you can, when the port engine in the direction of "back" turns, either with the starboard engine »back« or with the port engine Drive "ahead".

Fig. 6 illustrates the switching options for the clutches in the event that the starboard engine is in the "ahead" direction and the port engine turns in the "back" direction. In this case, too, there is only optional switching on of the clutches possible, since the switches 54 and 55 in the control circuits for the Couplings are included. If a clutch is engaged, it interrupts the Control circuit for the other.

Claims (1)

PATENT CLAIM: Control device for an internal combustion engine system, in particular a ship propulsion system in which several reversible internal combustion engines via one clutch each on a common, no speed differences the same. Transmission work and where the starting and reversing devices the prime mover and the switching elements of the clutches so interlocked are that several prime movers are only used at the same time on the gearbox can work, if they rotate in the same direction in relation to the same, characterized by that the interlocking is carried out electrically in such a way that 1. to the individual Switching contacts controlled by the operating levers are provided are, by engaging and disengaging the associated machine directly Coupling causes or a locking device built into the actuating device of the same is controlled, and 2. at each control station next to the switching contacts according to 1 further contacts, also controlled by the operating levers, are provided. are, those with those provided at the other control stands for controlling the clutches Contacts are in a row and are arranged so that at each control station when engaging of the starting lever in the operating position to control the machine in question Associated clutch provided contacts only the switch-on circuit for the clutch or the locking of the actuating device of the same overriding Close the circuit when the other machines are either stopped or already in the same sense as intended with the new machine to be switched on, to the common gears work. Publications considered: German patent specification No. 861,213; U.S. Patent Nos. 2,444,324, 2,442,509.