SE422114B - Arrangement for the measurement of parameters for an indicator diagram concerning piston machines - Google Patents

Abstract

The invention involves instrument design engineering. The arrangement according to the invention includes a counter 6 for the instantaneous angle of rotation of a crankshaft, whose inputs 7, 8 are coupled via a shaper 2 for the angle position pulses of the crankshaft and a shaper 3 for a pulse for an upper dead point to an angle marking transmitter 1, and a decoder 9 for the signals for the upper dead points that is connected to the counter 6. The decoder 9 is connected to an input 38 of a trigger circuit 35 in an analysis and control unit 32, which also contains a counter 34, whose input 37 is connected via a main coincidence circuit 18 to one of n pick-ups 10 for the pressure in the cylinders of the piston machines that corresponds to the cylinder selected for indication, and a gate 33 whose input is connected to a reversible counter 30, connected to the trigger circuit 35. The arrangement further includes in series: a decoder 28 for signals for the bottom dead points, which decoder is connected between the reversible counter 30 and the trigger circuit 35, a cycle duration counter 25 and a main trigger circuit 23, which is also connected directly to the decoder 28 for signals for the bottom dead points and an AND gate 16. The invention can be used during research, adjustment, monitoring and automation of control of the operating condition of internal combustion engines. <IMAGE>

Description

8002162-9 10 15 20 25 30 35 2 vodkoinciden circuit, one input of which is connected to a reference oscillator and the other input of which is connected to the pulse duration converter, and partly an analysis and control unit, which comprises a trigger circuit, which is operatively connected to the angular position pulse shape shaper and the upper dead center pulse shaper, and a counter, the input of which is connected to the output of the main coincidence circuit. This known measuring device further comprises on the one hand a former for forming signals for equal volume increases for the piston machine cylinder, on the other hand a former for forming signals for changing said equal volume increases and on the other hand a former for forming a signal for a lower dead center, all The inputs and outputs of the formers are connected to the respective outputs of the angle marking sensor or to the analysis and control unit, while the angle marking sensor further has markings which are uniformly distributed over equal volume increases for the piston machine cylinder, markings for changing the volume increases for the piston machine cylinder and a marking for the lower dead point.

In this known device, however, the angle marking sensor is arranged so that it can only measure the parameters of the indicator diagram over one of the cylinders of the piston machine. In order to be able to proceed to measure the parameters of the indicator diagram over a second cylinder, the machine must be stopped and set the sensor in a new position, which reduces the efficiency of measuring the parameters of the indicator diagram in the operational test and does not allow the use of this known device in checking, diagnosing and automating the control of the operating condition of multi-cylinder piston machines. . The object of the present invention is to provide a device for measuring parameters of an indicator diagram of piston machines, which device comprises such additional units and elements which make it possible to automate the connection of the cylinder to be indicated, in successive measuring parameters of the indicator diagram for multi-cylinder piston machines, partly measuring the maximum pressure in the cylinder and partly increasing the measuring accuracy of the parameters of the indicator diagram.

This is achieved by means of a device for measuring parameters for an indicator diagram of piston machines, which device comprises on the one hand an angle marking sensor with markings uniformly distributed over the angle of rotation of a crankshaft and a marking for an upper dead center, the sensors and outputs being connected to the input of a shaper for the angular position pulses of the crankshaft and the input of a shaper for a pulse for the upper dead center, and a sensor for sensing the pressure in the cylinders of the piston machines, the output of the pressure sensor corresponding to the cylinder selected for indication, is connected to the input of an amplifier converter for a signal for the pressure in the piston machine cylinder, partly a pulse duration converter, one input of which is connected to the output of the amplifier converter, partly a main coincidence circuit, one input of which is connected to the output of a reference generator to the output of the pulse duration converter, and partly an analysis and control unit, comprising a trigger circuit operatively connected to the crankshaft angular position pulser and the upper dead center pulse generator, and a counter, one input of which is connected to the output of the main coincidence circuit, the device according to the invention further comprises a counter for the instantaneous angle of rotation of the crankshaft, one input of which is connected to the output of the shaper for the pulse of the upper dead center and the other input of which is connected to the output of the shifter for angular position pulsed shafts. the upper dead spots, one output of the decoder, which corresponds to the cylinder selected for indication, is connected via a switch to an input of the trigger and control circuit of the analysis and control unit, the other input of which is connected to the output of a decoder for signals for the lower dead points, while the output of the trigger circuit is connected to a control input of a reversible count 8002162-9 10 15 20 25 30 35 4 the output of the cell position pulse shaper and whose output is connected to the input of the decoder for signals for the lower dead points, and a cycle duration counter, the input of which is connected to the output of the decoder. , partly a main trigger circuit whose one input is connected to the output of the cycle duration counter and whose other input is connected to the output of the decoder, and partly an AND gate, one input of which is connected to the output of the main trigger circuit and whose other input is connected to the output of the shaper and the output of which is connected to the second input of the pulse duration converter, the counter, the trigger circuit and the AND gate being connected in series with each other, while the analysis and control unit further comprises a control gate, one input of which is connected to the output of the reversible counter. the axis of rotation of the shaft uniformly distributed markings were used to determine the signals for the upper and lower dead points.

It is suitable that the control gate of the analysis and control unit is provided with a second input, connected to the counter and another input, connected to the pulse duration converter.

It is further suitable that the control gate comprises a shaper for a pulse for the end of the analog-digital conversion, a coincidence circuit and a main register in series, as well as an additional register, one input of which constitutes the control gate input and the other input of which is connected to coincidence and a the code comparison output connected to the register is connected to an input of the output circuit of the co-circuit, the incidence circuit, the input circuit of which one of the code comparison circuits is connected to one input of the auxiliary register and connected to the output of the counter, while the other input of the code comparison circuit is connected output.

If an OR gate is connected between the output of the main coincidence circuit and one input of the counter, which consists of a reversible counter whose second input is connected to the output of the analysis circuit of the analysis and control unit, the other input of the OR gate is connected to the output of an extra reversible counter, one input of which is connected to the output of the trigger circuit and the second input of which is connected to the output of a second additional coincidence circuit, one input of which is connected to the main coincidence. the input of the circuit connected to the reference generator and the second input of which is connected to the second input of the main coincidence circuit connected to the pulse duration converter, while the third input of the circuit is connected to one output of an additional trigger circuit, the second output of which is connected to a third input of the main coincidence circuit. invention it is appropriate that the control gate is provided with an output connected to the input of the auxiliary trigger circuit and ch a second output, which is connected to the other input of the AND gate.

It is also suitable that the control gate comprises a decoder for change signals for equal volume increases in the working space of the cylinder and a decoder for signals for equal volume increases in the working space of the cylinder, which inputs of both decoders are interconnected and constitute the input of the control gate.

It is suitable that a generator for generating the angular position pulses of the crankshaft with adjustable delay is connected between the output of the former and the second input of the instantaneous rotation angle of the counter and that an additional AND gate is connected between the output of the former and one input of the calculator. The second input of the AND gate is connected to the output of the generator for the angular position pulses of the crankshaft with adjustable delay.

The invention makes it possible to automatically readjust the device to the cylinder to be indicated, whereby one can reduce the test time for multi-cylinder machines and successively measure the parameters of the indicator diagram, which ensures control of the operating condition, diagnosis of the condition and automation of the control of the operating condition of the piston machine.

The invention further contributes to increasing the number of parameters for the indicator diagram to be measured.

The invention is described in more detail below with reference to the accompanying drawing, in which Fig. 1 shows a block diagram of a device according to the invention for measuring parameters for an indicator diagram of piston machines, Fig. 2 shows a block diagram of the device according to the invention. when measuring the maximum pressure in the piston of the piston machine, Fig. 3 shows a block diagram of the device according to the invention when measuring the average indicator pressure and Fig. 4 shows a block diagram of the device according to the invention when measuring the average indicator pressure at constant crankshaft.

An embodiment of the device according to the invention is described below, which is intended to indicate internal combustion engines.

The device for measuring parameters for an indicator diagram of piston machines comprises an angle marking sensor 1 (Fig. 1), which is connected to an input 4 of a former 2 for a crankshaft angular position pulses and an input 5 of a pulse generator for a upper dead center. The molds 2 and 3 are connected to inputs 6 and 8, respectively, of a counter 6 for the instantaneous rotation angle of the crankshaft, while the output of the counter 6 is connected to a decoder 9 for signals for the upper dead points.

The device further comprises n sensors 10 for sensing the pressure in the cylinders of the piston machines, the output of one of the sensors 10 being connected via a switch 11 to an input 13 of an amplifier converter 12 for a pressure signal, the output of which is connected to an input 15 of a pulse duration converter 14, the second input 15 of which is connected to AND gate 16, the input 17 of which is connected to the former 2, while the output of the converter 14 is connected to an input 19 of a main coincidence circuit 18, the second input 20 of which is connected to a reference oscillator 2l.

The input 22 of the AND gate 16 is connected to a main trigger circuit 23, one input 24 of which is connected to a cycle duration counter 25 and whose other input 26 and the input 27 of the counter 25 are connected to a decoder 28 for low dead point signals. wherein the input 29 of the decoder 28 is connected to a reversible counter 30, the counting input 31 of which is connected to the output of the shaper 2.

The device further comprises an analysis and control unit 32 connected to the pulse duration converter 14, which comprises a gate circuit 33, a counter 34 and a trigger circuit 35. The input 36 of the gate circuit 33 is connected to the counter 30, while the input 37 of the counter 34 is connected to one circuit 38 of the trigger circuit 35 is connected via the switch 11 to one output of the decoder 9, while the second input 39 of the circuit 35 is connected to the output of the decoder 28 and its output is connected to the control input of the counter 30. 40.

In the device for measuring parameters of the indicator diagram of piston machines, the gate circuit 33 (Fig. 2) - when measuring the maximum pressure in a cylinder of an internal combustion engine - comprises a former 41 for an output pulse for analog-to-digital conversion, to which the input 42 of the former 41 is connected. the output of the converter 14. The shaper 41 is connected to an input 44 of a coincidence circuit 43, the second input 45 of which is connected to a code comparison circuit 46 and the output of which is connected to the input 48 of a main register 47 and the input 50 of an additional register 49. One input of the circuit 46 51 is connected to the output of the register 49, while the other inputs 52 and 53 of the register 49 and the register 49, respectively, are connected to the counter 34 of the unit 32. The second input 54 of the register 47 constitutes the input 36 of the circuit 33 (Fig. 1).

The device for measuring parameters for the indicator diagram of piston machines further comprises - when it is intended to measure the average indicator pressure in a cylinder of an internal combustion engine - an OR gate 55 (Fig. 3), the output 56 of which is connected to the input 37 of the counter 34. , an additional coincidence circuit 57, an additional reversible counter 58 and an additional trigger circuit 59. The inputs 60 and 61 of the circuit 57 are connected to the inputs 20 and 19 of the circuit 18, respectively, while its input 62 is connected to the output 63 of the trigger circuit 59.

The second output 64 of the trigger circuit 59 is connected to the input 65 of the circuit 18, while the input 66 of the trigger circuit 59 is connected to the output of the decoder 28. One input of the OR gate 55 8002162-9 10 15 20 25 30 35 8 67 is connected to the output of the circuit 18 and its second input 68 is connected to the output of the counter 58, the input 69 of which is connected to the circuit 57.

In said measuring operating state, the gate 33 comprises a decoder 70 for change signals for the equal operating volume increases of the cylinder and a decoder 71 for signals for the equal operating volume increases of the cylinder, which decoders 70, 71 inputs 72 and 73, respectively, are connected and connected to the counter 30. The decoder 70 is connected to the input 74 of the trigger circuit 59, while the decoder 71 is connected to the input 55 of the AND gate 16. The inputs 75, 76 and 40 of the counters 34, 58 and 30 are connected and connected to the trigger circuit 35.

The device for measuring parameters for the indicator diagram of piston machines further comprises - when it is intended to measure the average indicator pressure in a cylinder of an internal combustion engine at a constant speed of the crankshaft - a generator 77 (Fig. 4) for generating the angular position pulses with adjustable delay, the input 78 of which is connected to the output of the former 2, and an additional AND gate 79, one input 80 of which is connected to the former 3. AND the second input 81 of the gate 79 and the input 7 of the counter 6 are connected and connected to the generator 77, while the output of the AND gate 79 is connected to the input 8 of the counter 6.

The device for measuring parameters for the indicator diagram of piston machines works as follows.

In the Angle Marking Sensor 1 (Fig. 1), a signal corresponding to equal changes in the angle of rotation of the crankshaft emits a signal corresponding to the upper dead center of one cylinder (not shown) of the piston machine. The angular position pulses of the crankshaft 2 and the pulses of the upper dead center pulse 3 give the said signals of the sensor 1 the shape which ensures normal operation of the subsequent circuits of the device.

The instantaneous rotation angle counter 6 of the crankshaft is reset by each signal from the former 2 and counts angular mark pulses from the former 2. This means that the state of the counter 6 determines at any time the crankshaft not shown. instantaneous position relative to the top dead center of one of the cylinders. The necessary determination accuracy for the rotation angle of the crankshaft is characterized, in this case, by the time interval (pause) between two adjacent angular position pulses for the crankshaft emitted by the sensor 1.

As the pistons pass through the upper dead points, pulses arise across n and outputs of the decoder 9 for signals for the upper dead points. Depending on the position of the switch 11 selected by the operator in accordance with the cylinder in the piston machine to be indicated, the trigger circuit 35 of the analysis and control unit 32 is set by a pulse for the upper dead center of the selected cylinder. The one position of the trigger circuit 35 presets the adding operating state of the reversible counter 30.

In this state, the angular dead center angular position pulses following the pulse for the upper dead center are added to each other in the reversible counter 30, the state (position) of the counter 30 corresponding to the instantaneous angle of rotation of the crankshaft relative to the upper dead point of the cylinder to be indicated. The state of the counter 30, which corresponds to the lower dead center of the cylinder indicated, is decoded by the lower dead center signal decoder 28. The output signal of the decoder 28 resets the trigger circuit 35.

The zero position of the trigger circuit 35 presets the subtraction state of the counter 30, the angular position pulses following the crankshaft following the pulse of the lower dead center being subtracted from each other within the range from the lower dead point to the upper. Because the angular position pulses are uniformly distributed, the number of pulses in the interval between the upper dead point and the lower one is equal to the number of pulses in the interval from the lower dead point to the upper one, so that in the counter 30 during time interval between the upper dead center point and the lower: the stored pulses are subtracted from each other during the interval between the lower dead point and the upper dead point so that the subtraction result is equal to zero.

This means that the position of the trigger circuit 35 and the reversible counter 30 at any time presets the instantaneous position of the crankshaft relative to the top dead center of the cylinder indicated, the position of the trigger circuit 35 determining the sign relative to the top dead center of the cylinder. , which is indicated, while the position of the counter 30 presets the instantaneous rotation angle relative to the top dead center of the cylinder.

In accordance with the cylinder selected for indication, the signal from the pressure sensor in the cylinders is transmitted over the switch 11 to the amplifier converter 12 for the pressure signal. In this case, one can use transducers 10 of any of the types (for example piezoelectric, inductive, etc.), which ensure the normal operation of the transducer under the operating conditions in question.

The amplifier converter 12 gives the output signal of the sensor 10 the shape required to trigger the pulse duration converter 14. The trigger time of the transducer 14 is determined by the measuring operating condition of the device. The converter 14 emits an output pulse, the duration of which is proportional to the instantaneous pressure in the cylinder of the piston machine. This output pulse is applied to the input 19 of the main coincidence circuit 18, the second input 20 of which is supplied with pulses from the reference oscillator 21. The output pulses from the circuit 18 are applied to the input 37 of the counter 34.

During a single conversion cycle of the analog pressure value to code, the pulses transmitted from the output of the circuit 18 are stored in the counter 34, the state of which will correspond to the instantaneous pressure.

The measurement is started by resetting the counters 6, 25, 30, 34 and the trigger circuits 23, 35. After the device has been reset by the first pulse of the lower dead center of the cylinder indicated, the trigger circuit 23 is set to one, which thereby allows the pulse duration converter 14 to be triggered via the AND gate 16. The cycle duration counter 25 counts the predetermined number of cycles, resets the trigger circuit 23 and keeps it in the zero position, whereby the measurement is terminated.

The gate 33 of the unit 32 processes information regarding the momentary pressure in the cylinder as well as information regarding the instantaneous angle of rotation of the crankshaft.

The mode of operation of the device for measuring the maximum pressure in the cylinders of internal combustion engines is described in more detail below.

In this measuring operating state, the pulse duration converter 14 (Fig. 2) is triggered by the pulses from the former 2 via AND gate 16. The cycle duration counter 25 must be transferred to the position at which it counts a single operating cycle of the engine.

The counter 34 is reset each time the analog-to-digital conversion cycle is started, with per single triggering of the converter 14 the number corresponding to the instantaneous pressure in the cylinder for the instantaneous angle of rotation of the crankshaft relative to the upper dead center of that cylinder being stored in the counter 34. , which is indicated. Information regarding the instantaneous rotation angle is stored in the counter 30, while the list is stored in the trigger circuit 35. The code in the counter 34 is compared - in the code comparison circuit - with the code in the additional register 49.

If the code for the number stored in the counter 34 at the end of the conversion exceeds the code stored in the register 49, a signal is generated across the output of the comparison circuit 46 which allows the instantaneous pressure value from the counter 34 to be read into the register. 49, and the instantaneous angular value of the crankshaft from the counter 30 is read into the main register 47.

The state signal from the output of the comparison circuit 46 is applied to the input 45 of the coincidence circuit 43, the second input 44 of which is supplied with the pulse for the end of the analog-to-digital conversion from the former 41 for the pulse for the end of the analog-to-digital conversion. The output pulse of the coincidence circuit 43 reads the instantaneous pressure value and the instantaneous angular value of the crankshaft in registers 49 and 47. At the same time as the measuring cycle ends, the maximum pressure value is stored in register 49 in the cylinder during a single cycle, while in register 47 the angle of rotation of the crankshaft in relation to the upper dead center of the cylinder indicated is indicated, which angle of rotation corresponds to the time when the pressure in the cylinder becomes as high as possible.

The mode of operation of the device according to the invention is now described below, as this is intended to measure the average indicator pressure in the cylinder of an internal combustion engine.

In this measurement operating condition, the device performs the following algorithm for calculating the average indicator pressure. where P is the mean indicator pressure; V1 the instantaneous value of a coordinate in compression; obtain the instantaneous value of a coordinate upon expansion; P9 instantaneous pressure value at reading points at compression; Pçë instantaneous pressure value at reading points on expansion; Generate the element volume increase of the working space in the cylinder, via which the pressure value P is read; ÅV2 the elemental volume increase of the working space in the cylinder in the vicinity of the upper dead center, via From which the pressure value P is read; K = -ÄVå- the ratio between the element volume increases Avl and AV2 of the working space in the cylinder (integer).

The counter 34 was used in a reversible operating condition. The decoder 71 for equal volume increase signals in the cylinder workspace presets the volume increase times for the cylinder workspace (element volume increases AVI and A V2) while the decoder 70 for change signals for equal volume increases in the cylinder workspace presets the time 10 15 20 25 30 35 8002162-9 13 points, when moving from the volume increases Åví to the volume increases, AV2. The pulse duration converter 14 is intended to be triggered by a signal from the decoder 71.

The transducer 14 is intended to convert the instantaneous pressure P? , Py, to pulses which act so that the pulses from the reference gear generator 21 are transmitted over the AND gate 18 or the AND gate 57 depending on the position of the trigger circuit 59.

In the vicinity of the upper dead center of the cylinder indicated, where the calculation is carried out at volume increases A V2 below Å V1 and equal to A V2 = íiX1_, the trigger circuit 59 is set via the input 74 with a signal from the decoder 70, whereby the pulses from the reference generator 21 are transmitted over the circuit 57. After the second signal from the decoder 70, the trigger circuit 59 is reset, which results in the pulses from the generator 21 being transmitted over the circuit 18. The signal from the decoder 28 confirms via the input 66 of the trigger circuit 59 that the trigger circuit 59 is reset. At the volume increases Å V2, the pulses from the reference generator 21 are divided by K in the extra reversible counter 58, these pulses being pressed on the counter 34 via the OR gate 55.

At the volume increases «5 V1 of the working space of the cylinder, the pulses are transmitted from the generator 211 to the counter 34 via the circuit 18 or the OR gate 55 without further division.

The trigger circuit 35 transmits the counters 58 and 34 to the subtraction or addition state during the time interval between the lower dead center and the upper and during the time interval between the upper dead center and the lower, respectively.

When the measurement is completed, the number proportional to the mean indicator pressure P is stored in the counter 34.

AND gate 79 (Fig. 4) and generator 77 help to increase the measurement accuracy of the average indicator pressure P, as the crankshaft rotates at a constant speed.

This is achieved by correcting the position of the signals for equal volume increases in the working space of the cylinder. 8002162-9 10. 14 The position of these signals in relation to the upper dead center of the cylinder being indicated largely determines the measurement accuracy of the average indicator pressure.

The invention makes it possible to more efficiently measure the parameters of multi-cylinder piston machines when these machines are tested.

The invention further makes it possible to eliminate the need to shut down the machine when switching to measuring the parameters of the indicator diagram over a second cylinder, so that the device according to the invention can be used in operational control of multi-cylinder machines, diagnosing their condition and automating the control of the operating condition of the machine.

Claims (6)

A device for measuring parameters of an indicator diagram of piston machines, which device comprises on the one hand an angle marking sensor (1) with markings uniformly distributed over a rotation axis of a crankshaft and a marking for a upper dead point, the respective outputs of the sensor (1) being connected to the input (4) of a shaper (2) for the angular position pulses of the crankshaft and the input (5) of a shaper (3) for a pulse for the upper dead point, partly_ n sensor (10) for sensing the pressure in the cylinders of the piston machines, the output of the pressure sensor (10) corresponding to the cylinder selected for indication being connected to the input (l3) of an amplifier converter (12) for a signal concerning the pressure in the cylinder of the piston machine, partly a pulse duration converter (14), one input of which is connected to the output of the amplifier converter (12), and partly a main coincidence circuit (18), one input (20) of which is connected to a reference generator (21) u and the second input (19) of which is connected to the output of the pulse duration converter (14), and on the other hand an analysis and control unit (32), which comprises a trigger circuit (35), which is operatively connected to the crankshaft angular position pulser (2) and the former (3) for the pulse for the upper dead center, and a counter (34), one input (37) of which is connected to the main coincidence circuit (18), characterized in that it comprises an output of, on the one hand, a counter (6) for the instantaneous rotation angle of the crankshaft. , one input (8) of which is connected to the output of the shaper (3) for the pulse for the upper dead point and the other input (7) of which is connected to the output of the shaper (2) for the angular position pulses of the crankshaft, and one output to the counter (6) decoder (9) for signals for the upper dead points, one output of the decoder (9) corresponding to the cylinder selected for indication, via a switch (II) being connected to an input (38) of the analysis and control unit (32) trigger circuit (35), the other of which enters time (39) is connected to an output of a decoder (28) for signals for the lower dead points, while the output of the trigger circuit (35) is connected to a control input (40) of a reversible counter. (30), the count input (31) of which is connected to the output of the angular position pulse shaper (2) and the output of which is connected to the input (29) of the decoder (28) for signals for the lower dead spots, and a cycle duration counter (25), whose input (27) is connected to the output of the decoder (28), and a main trigger circuit (23), one input (24) of which is connected to the output of the cycle duration counter (25) and whose other input (26) is connected to the decoder (28). 28) output, and on the other hand an AND gate (16), one input (22) of which is connected to the output of the main trigger circuit (23) and the other input (17) of which is connected to the output of the former (2) and whose output is connected to the pulse duration converter. (14) second input (15), the counter (25), the trigger circuit (23) and the AND gate (16) being series superimposed with each other, while the analysis and control unit (32) further comprises a control gate (33), one input (36) of which is connected to the output of the reversible counter (30), the angular marking sensor (1) being uniformly distributed over the angle of rotation of the crankshaft. was used to determine the signals for the upper and lower dead spots. Device according to Claim 1, characterized in that the control gate (33) of the analysis and control unit (32) is provided with a second input connected to the counter (34) and another input connected to the pulse duration converter (14). . Device according to claim 1 or 2, characterized in that the control gate (33) comprises a shaper (41) for a pulse for the end of the analog-to-digital conversion, a coincidence circuit (43) and a main register (47) in series, and an additional register (49), one input (53) of which is the input of the control gate (33) and the other input (50) of which is connected to the output of the coincidence circuit (43), and a code comparison circuit (46) connected to the register (49), output is connected to an input (45) of the coincidence circuit (43), one input (52) of the code comparison circuit (46) being connected to one input (53) of the additional register (49) 8002162-9 17 and connected to the output of the counter (34), while the second input (51) of the code comparison circuit (46) is connected to the output of the auxiliary register (49). Device according to claim 1, in which an OR gate (55) is connected between the output of the main coincidence circuit (18) and one input (37) of the counter (34), which is constituted by a reversible counter whose second input (75) is connected to the output of the trigger circuit (35) of the analysis and control unit (32), the second input (68) of the OR gate (55) being connected to the output of an additional reversible counter (58), one input (76) of which is connected to the output of the trigger circuit (35) and the second input (69) of which is connected to the output of a second additional coincidence circuit (57), one input (60) of which is connected to the input of the main coincidence circuit (18) to the reference generator (21). 20) and whose second input (61) is connected to the second input (19) of the main coincidence circuit (18) connected to the pulse duration converter (14), while the third input (62) of the circuit (57) is connected to one output (63). ) of an additional trigger circuit (59), the second output (64) of which is connected to a third input (65) of h the main incidence circuit (18), that the control gate (33) is provided with an output connected to the input (74) of the additional trigger circuit (59) and a second output, which is connected to the second input (17) of the AND grinden (16). Device according to claim 4, characterized in that the control gate (33) comprises a decoder (70) of the cylinder working space and a decoder (71) for signals for GV, sensing, for change signals for equal volume increases of equal volume increases of the cylinder. workspaces, which inputs (72 and 73, respectively) of both decoders are interconnected and constitute the input of the control gate (33). Device according to claim 4 or 5, characterized - generator (77) for generating with adjustable delay is output and the second input (7) is characterized in that one of the angular position pulses of the crankshaft is connected between the instantaneous rotation angle of the former (2) and is connected between form the counter (6) for the crankshaft of an additional AND gate (79) of the output (3) of the counter (3) and one input (8) of the counter (6), the other input (81) of the AND gate (79) ) is connected to the output of the generator (77) for the angular position pulses of the crankshaft with adjustable delay.