SU1569416A1 - Device for measuring value and time of active travel of plunger pairs - Google Patents

Abstract

A device for measuring the magnitude and time of the active stroke of the plunger pairs, containing a crimping device with a measuring rod rigidly connected to the plunger of the tested plunger couple, and a measuring device including a sensor installed in the housing, made in the form of an LED mounted on the measuring rod, and a photoelectric converter interacting with it, made in the form of a single-line scanistor fixedly mounted on the sensor housing, and a secondary device containing the connected scanner signal processing units, measuring the plunger speed, measuring the active stroke time of the plunger, the display unit and the measuring block of the active stroke of the plunger, whose information input is connected to the output of the scanner signal processing unit, the command input to the output of the speed measuring unit, and the output with a display unit, characterized in that, in order to increase performance and reliability, the sensor is equipped with additional LEDs with optical systems according to the number of tested plunger pairs and about The secondary scanner system, and the secondary device is equipped with additional blocks, measuring the magnitude and time of the active stroke of the plunger according to the number of plunger pairs, equipped with additional control and lining inputs, and a synchronization unit with one input, clock and tiller outputs, and a group of control outputs, the number of which equal to the number of plunger pairs, and the scanner's signal processing unit is provided with an additional clock input, with the synchronization unit being connected to the output of the scanner signal processing unit, and the clock output with its clock input, the zero output of the synchronization unit is connected to the zeroing inputs of the magnitude and time of the active stroke of the plunger, and its control outputs with the corresponding sensor LEDs and the control inputs of the corresponding blocks of the magnitude and time of the active plunger stroke.

Description

The invention relates to engine construction and can be used in testing and diagnosing diesel injection equipment.

The aim of the invention is to increase productivity by introducing

simultaneous measurement of several plunger pairs using a single meter and improving reliability by using a synchronization unit, which allows time sharing of several optical sources

radiation and exclusion of reed switches,

FIG. 1 shows a functional diagram of the proposed device, combined with the structural scheme of the sensor; in fig. 2 shows section A-A in FIG. one; in Fig, 3 is a sequence in time of clock pulses with a given frequency f; Fig 4 is the same as the dual clock pulses on the first measurement channel; in fig. 5 - the same, on the second channel; in fig. 6- - the same, on the N-th channel.

The device for measuring the magnitude and time of the active stroke of the plunger pairs contains (FIG. 1) a testing device 1 including the test plunger pair 2 consisting of the plunger 3 placed in the sleeve 4 with the formation of a sealed cavity 5 filled with process fluid which creates a certain pressure by applying to the plunger 3 an external brush-Q, with each plunger 3 a measuring rod 6 is rigidly connected. The measuring rods 6 are not kinematically connected to each other. The device also contains a measuring device 7, including a sensor installed in the housing 8 (FIG. 2), made in the form of a guide 9 mounted on the measuring rod b, and a photoelectric converter 10 interacting with it, made in the form of a single-line scanner 11 fixedly mounted on the case 8 sensors.

The device contains a secondary device 12, which includes in series interconnected signal processing unit 13 of the scanner 11, speed measuring unit 14 of the plunger 3, block 15 measuring the active stroke time of the plunger 3, display unit 16 and block 17 measuring the active stroke value of the plunger 3. information input 18 of block 17 is connected to the output of block 13 of the signal processing of the scanner 11, the command input 19 of block 17 is connected to the output of block 14 of speed measurement, and the output of block 17 is connected to the first input 20 of block 16 of the display, to the second input 21 of the cat The output of the unit 15 for measuring the time of the active stroke of the plunger 3 is connected.

The sensor of the device is equipped with additional LEDs 9 with optical systems 22 (FIG. 2) according to the number of test plunger pairs 2, which is more than one, and the optical system 23 of Scanstar 11. Secondary device 12 is equipped with additional blocks 17 for measuring the active stroke and blocks 15 for measuring time the stroke of the plunger 3 (Fig. 1,

marked with the index N) according to the number of tested plunger pairs 2. Blocks 17 and 15 are equipped with additional control inputs 24 and zero 25. Secondary

The device 12 is also provided with a synchronization unit 26 with one input 27, a clock output 28 and a zero output 29, as well as a group of control outputs 30, the number of which is equal to the number of tested plunger pairs 2. The signal processing unit 13 of the scanner 11 is provided with an additional clock input 31 Moreover, the synchronization unit 26 with its input 27 is connected to the output of the signal processing unit 13

scanner 11, and the clock output 28 with its clock input 31, the zero output 29 of the synchronization block 26 is connected to the zero inputs 25 of the active stroke amount measuring blocks 17 and the active stroke time blocks 15 of the plunger 3, with its control outputs 30 the corresponding sensor LEDs 9 of the measuring device 7 and the control inputs 24 of the respective active stroke measurement blocks 17 and blocks 15 for measuring the active stroke time of the plunger 3.

The device works as follows.

In the synchronization unit 26, clock pulses are generated with a given frequency f (Fig. 3), which control the operation of the signal processing unit 13 of the scanner 11, and time-separated pulses with a frequency

f / 2N, where N is the number of test plunger pairs (Fig. 4-6), alternately including LEDs 9 and blocks 17, 15, respectively, measuring the magnitude and time of the active stroke of the plunger 3 test plunger

par 2.

Block 13 signal processing scanner 11 for each clock pulse produces the determination of the coordinates of the light zones generated by optical systems

23 and 22 of alternately switched on LEDs 9, relative to the beginning of the working area along the linear photosensitive surface of the single-line scanner 1, with two measurement cycles per cycle of operation

each LED 9 (Fig. 3-6).

Under the action of normalized forces Q, generated by loading mechanisms (not shown), plungers 3 are driven in. motion. In this case, the light zones of the LEDs 9, corresponding to the moving lunzers 3, enter the working area of the scanner 11, and at the output of the signal processing unit 13 of the scanner 11, during the operation phases of the respective LEDs 9, the coordinates of the light zones are outputted This demonstrates the beginning of a measurement cycle for a given plunger pair 2.

The synchronization unit 26 fixes the time of the occurrence of the specified information for the corresponding LEDs 9 and, on the zeroing output 29, outputs a pulse to the zeroing inputs 25 of the quantity measurement units 17 and the time units 15 for measuring the active stroke of the plungers. This impulse brings only those blocks 17 and 15, to the inputs 24 of the control of which the synchronization unit 26 is issued an enabling signal, which prepared them for a new measurement cycle.

At the same time, the information about the coordinates of the light zones from the signal processing unit 13 of the scanner 11 enters the speed measuring unit 14 of the plungers 3 relative to the sleeves 4. When the inlet window of the sleeve 4 closes with the end face of the plunger 3 in the cavity 5 of the tested plunger pair 2, the pressure increases sharply, which causes a significant a decrease in the speed of movement of the plunger 3 (the beginning of the active stroke of the plunger). In this case, the block 14 measuring the speed of movement of the plungers 3 issues to the command inputs 19 of the blocks 17 and 15 a signal about the beginning of the active stroke in one of the tested plunger pairs 2, and the synchronization block 26 supplies the enabling signal to the control inputs 24, resulting in fixing the coordinate of the beginning the active stroke and the time count begins. Similarly, the beginnings of the active strokes of the remaining plunger pairs tested on the bench are determined.

In the case of an open gentle plunger 3 of the inlet port of the sleeve 4 in the test plunger pair 2, a sharp drop in pressure occurs in the cavity 5, which

causes a significant increase in the speed of the plunger. At the same time, on command from the speed measurement unit 14, the unit 1 7, corresponding to the operating LED, fixes the coordinate of the end of the active

the plunger stroke and automatically subtracts from it the coordinates of the beginning of the active stroke, resulting in the absolute value of the active stroke of the plunger 3 of the tested plunger pair 2, and the corresponding block 15 stops counting time.

The received information from blocks 17 and 15 comes in the corresponding decades.

display unit 16, where it can be read by the operator. Similarly, the measurement of the magnitude and time of the active plunger strokes of the remaining 1 plunger pairs is made.

The proposed device allows to increase the performance and reliability of determining the magnitude and time of the active stroke of plunger pairs.

fuel injection pumps due to the inclusion of additional LEDs, optical systems and a synchronization unit, which allows simultaneous automatic measurement

magnitude and time of active stroke for several plunger pairs.

&-BUT

FIG. 2

Claims (1)

DEVICE FOR MEASURING THE VALUE AND TIME OF THE ACTIVE STROKE OF PLUNGER COUPLES, containing a device for crimping. with a measuring rod rigidly connected to the plunger of the tested plunger pair, and a measuring device including a sensor mounted in the housing, made in the form of an LED mounted on the measuring rod, and a photoelectric transducer interacting with it, made in the form of a single-line scanner, fixedly mounted on the housing a sensor, and a secondary device containing serially connected units for processing the signal of the scanner, measuring the speed of the plunger, measuring the time of the active stroke a plunger, an indication unit and a unit for measuring the active stroke of the plunger, the information input of which is connected to the output of the scanner signal processing unit, the command input - with the output of the speed measuring unit, and the output - with the indication unit, characterized in that, in order to increase productivity and reliability, the sensor is equipped with additional LEDs with optical systems for the number of plunger pairs tested and an optical scanner system, and the secondary device is equipped with additional blocks for measuring the value and time of the active the plunger’s full stroke in terms of the number of plunger pairs equipped with additional control and zeroing inputs, and a synchronization unit _Λ with one input, clock and 5 zeroing outputs and a group of control outputs, the number of which is equal to the number of plunger pairs, and the scanner signal processing unit is equipped with an additional clock input, moreover, the synchronization unit is connected by its input to the output of the scanner signal processing unit, and by the clock output - with its clock input, resetting the output; the synchronization unit is connected to the zeroing inputs of the unit measurement of the magnitude and time of the active stroke of the plunger, and its control outputs with the corresponding LEDs of the sensor and control inputs of the corresponding units for measuring the magnitude and time of the active stroke of the plunger. 1569416 AG