SU779178A1 - Arrangement for controlling multiengine power plant - Google Patents

Description

one

The invention relates to shipboard power plants and, in particular, to control devices of a multi-engine power plant.

A control device for a multi-engine power plant is known, comprising a control unit and engine control systems connected thereto, each of which includes a filter and a series-connected amplifier, an AND block, a converter, and a servo-mechanism with feedback sensor 1.

The device has the disadvantage that control with two parallel operating systems of internal combustion engines and a gas engine is very difficult, requires increased operator attention and makes it difficult to control the installation when maneuvering the vessel.

The purpose of the invention is to simplify installation management.

The goal is achieved by the fact that an equalizer is additionally introduced into the device, the inputs of which are connected to the feedback sensor, and the outputs to the inputs of blocks of logic elements And /:. .g: . :.:. . .... ,, ..

In addition, the corrector contains successively connected summing element, limiter correction zone, sign-sensitive element and output logic elements I.

- In addition, the feedback sensor of the engine management system of the internal combustion engine is designed as a rotational speed sensor, to the output of which a filter is connected.

The drawing shows a block diagram of the device.

The device comprises a control device 1 and an internal combustion engine control system 2 (ICE) and a gas turbine engine control system (GTE) 3 connected to it, each of which includes

Claims (3)

 filter 4 and amplifier 5 connected in series, AND block 6, converter 7 and servo-mechanism 8 with feedback sensor 9, equalizer 10 containing summing element 11 connected in series, correction zone limiter 12, sign sensor 13 and output logic elements AND 14-17. In addition, the scheme includes an internal combustion engine 18, a gas turbine engine 19, an output gearbox 20 GTE, a reverse gearbox 21 and a torque converter 22 two, an intermediate gearbox 23, a power take-off shaft 24, a toplIVNB1Y controller 25 LAN, a fuel regulator 26 Gas turbine engines, rectifier blocks 27-29, time delay block 30 and alarm 31. The device operates as follows. Moving the knob of knob 1 sets the operation mode of the power plant. The signals of the setpoint generator 1 are rectified in block 29 and fed into systems 2 and 3 of the control of the CCD and the internal combustion engine. In systems, the signal is fed to the input of amplifier 5, where it is compared with the rectified signal from feedback sensor 9. Depending on the sign, the error signal through the block 6 of the logic elements I is fed to the corresponding winding of the converter 7. The converter controls the fuel regulator through the servo-mechanism 8. The tuning of the fuel regulators 25 and 26 is changed until the signals from the feedback sensors 9 and the setting device 1 match. Although the internal combustion engine 18 and the gas turbine engine 19 are interconnected due to the presence of a hydrotransformer transmission for the internal combustion engine and a free turbine for the gas turbine engine, they have different pick-up and for their uniform loading during the process of acceleration of the unit or resetting its power Fuel to the engine also occurred proportionately for each engine. Otherwise, an engine with higher acceleration will take on a load earlier than an engine with a lower premium ratio, and unwanted mechanical stresses in the transmission may occur. For this, the connection between the engines is carried out through the corrector 10. The corrector works as follows. The signals from the feedback sensors 9 are fed to summing element 11. The sum signal is further limited in limiter 12 of the correction zone and fed to sign-sensitive element 13, the output of which is connected to output logic elements AND, the other inputs of which are connected to amplifiers 5. Depending on what signal is higher from sensor 9 of the gas turbine engine or sensor 9 of the internal combustion engine, from the output of the sensor-sensitive element 13, a signal is output to the output gates And 14 and 15 or 16 and 17, which through block 6 of the logic gates, converter 7 and servo 8 mechanisms still affect the engine fuel regulator tori. So, with a faster set of the internal combustion engine mode, the signal through the output logic element And 14 enters block 6 and the signal for increasing the internal combustion engine mode is removed until the signals at the input of the summing element 11 from the feedback sensors 9 are not matched. The corrector works only when there are signals at the output of amplifiers 5, in the control systems of the internal combustion engine and the CCD. Thus, the presence of a device in the device makes it easier to control the installation without overloading the engines. The use of the invention improves the reliability of the ship's power installation. Claim 1. A multi-engine power plant control device comprising a master of engine control systems not connected to it, each of which includes a filter and an amplifier connected in series, a unit of god elements I, a converter, and a servo-mechanism with a feedback sensor characterized in In order to simplify control of the installation, a device is additionally introduced into the device, the inputs of which are connected to feedback sensors, and the outputs - to the inputs of blocks of logic elements in I. 2. The device according to claim 1, characterized in that the equalizer comprises a series-connected summing element, a correction zone limiter, a sign-sensitive element and output logic elements I. 3. The device according to claim 1, characterized in that the feedback sensor of the engine control system of the internal combustion engine is designed as a rotational speed sensor to the output of which a filter is connected. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 472063, cl. B 63 H 21/16, 1972.