SU918546A1 - Apparatus for diagnostics of pump units - Google Patents

Description

(5k) DEVICE FOR DIAGNOSING PUMP UNITS

Claims (1)

The invention relates to the technical diagnostics and can be used for in-place diagnostics of pumping units. A device for diagnosing pumping units is known, comprising an electric motor with a power sensor, a pump with flow sensors and discharge pressure and suction unit, a diagnostics parameter generating unit connected by inputs to pressure sensors and through integrators to flow sensors and power computing unit connected by inputs with a unit for generating a diagnostic parameter, with a unit for reference information and setting units of time and pump unit number, and an output with a printing unit 1. A disadvantage of this device is the low accuracy of diagnostics, since it only allows to determine the constant value of the exponent of the function of changing the parameter of diagnostics. The aim of the invention is to improve the accuracy of diagnosis. This goal is achieved in that the device is equipped with a correction unit for calculating the current value of the exponent of the diagnostic parameter change function having four inputs and one output, and a buffer register for fixing the current diagnostic parameter values having two inputs and one output, the correction unit being connected by inputs to the outputs of the diagnostic parameter formation unit, the time master, the reference information block and the buffer register, the inputs of which are connected to the time master inputs and forming diagnosing unit parameter and the output correction unit, connected to the input of the computing unit. 391 The drawing shows a diagram of a device for diagnosing pumping units. The device contains a diagnosed object consisting of an electric motor 1 and a pump 2 connected to a flow sensor 3 by a suction pressure sensor 4 and a discharge pressure sensor 5, an electric motor power sensor 6, integrators 7 and 8, a diagnostic parameter generating unit 9 connected to suction pressure sensor k, discharge pressure sensor 5 and integrators 7 and B., extraction unit 10 connected to reference information unit 11, printing unit 12, time setting device 13, used by a pump unit, back Atchik And the numbers of the pump unit, the buffer register 15 and the block 16 correction. The signals of sensors 3 and 6 through the integrators 7 and 8 and the sensors and 5 enter the diagnostics parameter parameter block 9. Unit 9 averages the value of the sensor signals and 5 pressure on suction and discharge, determines the differential at pump 2, and generates a complex diagnostic signal, for example, by the specific energy consumption, which Rahgen, E E QuP-electric power consumption; - liquid consumption; DR is the differential pressure; however, AR Rn-P8, where PH is the discharge pressure; Pg is the suction pressure. In the computational unit 10, the initial information entered from the driver and the reference information storage unit 11, as well as in the previously calculated current values of the diagnosed parameter, determines the residual life of the diagnosed pumping unit T-H, D-An // L tocmi Lop C rifte) -Ij. , h i, i - the current value of the exponent of the function function of the parameter being diagnosed over time; Ter actual time in hours on an accrual basis, worked out by the pump; ser n f n the initial, limit and current value of the diagnostic parameter. The summary information is printed in print block 12. A and A as input information are inputted from the reference information storage unit 11, Tcr is assigned by the setting unit 13 of the time worked by the pump unit. BUT; determined by block E, as described above / j-i is determined by correction block 16 as follows. The current value of the diagnosed parameter A / enters the buffer register 15 and the correction block 16. The buffer register 15 stores the current values of A, the entire diagnostic cycle. The signal of the setpoint 13 of the time spent by the pump unit from the buffer register 15 into the correction block 16 rewrites the current values of A accumulated by this moment, which in the correction block 16 calculates the current value of the exponent of the change function of the diagnostic parameter. At the end of the computation, the current values of i and AJ are received by the computing unit 10. P; and the first measurement of the residual life of the diagnosed pump unit, when the current values of A are not yet in the buffer register, the computation unit 10 transmits the value cL calculated in the previous diagnostic cycles from the reference storage unit 11 to the correction unit 16. As a result, the device provides high accuracy of diagnosing and predicting the state of pumping units, as it allows determining the current values of the exponent of the function of changing the diagnostic parameter from the measured current values of the diagnosed parameter. Apparatus of the Invention A device for diagnosing pumping units comprising an electric motor with a power sensor, a pump with flow and pressure sensors for pumping and suction, a forming unit, a diagnostic parameter, connected by inputs to pressure sensors and through integrators to sensors consumption and power, the computing unit associated with the inputs of the diagnostic parameter setting unit, the reference information unit and time setting and pump number of the unit 5, and the output with the printing unit, different in that, in order to improve the diagnostic accuracy, it is equipped with a correction unit for calculating the current value of the exponent of the change function parameter of the diagnostic parameter, having four inputs and one output, and a buffer register for fixing the current values of the diagnostic parameter, having two entrances and one exit, and / J / 7 the correction unit is connected by inputs to the outputs of the diagnostic parameter formation unit, the time master, the reference information block and the buffer register, the inputs of which are connected to the time master inputs and the diagnostic parameter programming unit, and the output of the correction block are connected to the input of the computing unit. SOURCE1 of information taken into account in the examination 1, USSR Author's Certificate in Application No. 27 052 / 25-06, cl. F 15 B 19/00, 1979. / / gg /