RU2612684C1 - Device for determining technical state of pump - Google Patents

Abstract

FIELD: mechanical engineering.

SUBSTANCE: device comprises inlet and outlet pipes (2) and (3) of the pump (1), sensors (4), (6) the pressure set at the inlet and outlet (2), (3), a comparator (10), the indicator (11), the block (12) control the counter (13) the time unit (14) ban, a computing device (15) and block (16) indication. The outlet connection (3) of the pump (1) are installed adjustable hydraulic restriction (8) and a sensor (7) temperature, the output of which is connected to the block (14) of prohibition.

EFFECT: reducing the cost of manufacturing by simplifying the design of the device to determine the technical condition of the pump.

1 dwg

Description

The invention relates to hydraulic engineering and can be used to assess the technical condition of pumps in operating conditions.

A device for determining the efficiency of the pump (SU 1101585 A1, 07/07/1984), which contains the inlet and outlet pipes interconnected bypass pipe with a throttle, pressure sensors installed on the inlet and outlet pipes, temperature sensors installed on the inlet pipe and bypass pipeline, as well as comparators, a computing device and an indicator.

The disadvantage of the described device is the lack of diagnostic accuracy associated with an insignificant difference in temperature of the pumped liquid, measured in the inlet and outlet pipes.

Closest to the claimed device is a device for determining the technical condition of the pump, including the pump under study, inlet and outlet pipes, a bypass line with an adjustable choke and reservoir, temperature and liquid pressure sensors installed at the pump inlet, and pressure and flow sensors at the outlet of pump, gate valves in the inlet and outlet nozzles, comparator, indicator, control unit, time counter, prohibition unit, computing device and indication unit (RU 139008 U1, 03/27/2014). The disadvantage of this device is the design complexity.

The objective of the proposed technical solution is to reduce manufacturing costs by simplifying the design of the device to determine the technical condition of the pump.

To achieve this, an adjustable hydraulic choke and a temperature sensor are installed in the pump outlet, the output of which is connected to the prohibition unit, which eliminates the bypass line with the tank and the hydraulic choke, the temperature sensor in the inlet, the flow meter and the cycle counter from the design of the prototype device.

The drawing shows a diagram of a device for determining the technical condition of the pump.

A device for diagnosing the technical condition of the pump 1 has an input 2 and output 3 nozzles. An inlet pipe 2 has a fluid pressure sensor 4 P ₁ at the inlet to the pump 1 and an inlet valve 5, and in an outlet 3 there is a pressure sensor 6 P ₂ and a temperature sensor 7 of the liquid T temperature at the pump 1 outlet, a hydraulic throttle 8 and an outlet valve 9 The outputs of the pressure sensors 4 and 6 are connected to the comparator 10, which in turn is connected to the indicator 11 and the control unit 12. The outputs of the temperature sensor 7, the control unit 12 and the time counter 13 are connected to the inhibit unit 14. The output from the inhibit unit 14 is connected to computing device 15 to mu in turn connected to a display unit 16. The input 2 and output 3 nozzles are covered with insulating material.

The device operates as follows.

At the scheduled time points, the tests of pump 1 are carried out sequentially. In all tests, the pressure difference ΔP = P ₂ -P ₁ created by pump 1 is the same using an adjustable throttle 8, the set pressure drop is monitored according to the readings of indicator 11. In this case, the inlet pressure and the output of the pump is carried out by pressure sensors 4 and 6, the calculation of the pressure difference is performed using a comparator 10, the signal from which is fed to the indicator 11 and to the control unit 12. When the specified differential value is reached, yes ΔP, the control unit 12 provides an enable signal to the inhibit unit 14, allowing signals from the temperature sensor 7, the comparator 10 (through the control unit 12) and the time counter 13 to pass to the computing device 15. The computing device 15 operates in a continuous mode of recording signals from the temperature sensor (T) 7, the comparator (ΔP) 10 and the time counter (Δτ) 13, as well as measuring the temperature change (ΔT). After a predetermined period of time (Δτ), signals are sent to close the prohibition block 14 and to the display unit 16 (to turn off the pump). The display unit displays the differential pressure (ΔP) and temperature changes (ΔT) for a given period of time (Δτ).

The pressure drop (ΔP) is set using an adjustable throttle 8 so as to transfer the operating point of pump 1 to the zone with the lowest possible efficiency, which leads to a significant increase in the temperature of the liquid at the pump outlet due to an increase in hydraulic and mechanical (disk) losses, which in turn, it allows the measurement of a diagnostic parameter — changes in temperature (ΔT) of the pumped liquid over a given period of time (Δτ) - with a sufficiently high accuracy comparable to the accuracy of a device totipa.

Thus, the claimed combination of features, while ensuring the accuracy of the measurement of the diagnostic parameter, similar to the accuracy in the prototype device, allows to simplify the design of the device by eliminating the bypass line with the tank and hydraulic choke, the temperature sensor in the inlet pipe, the flow meter and the cycle counter from the design of the prototype device.

The measured value of the diagnostic parameter is compared with its maximum permissible value. The values of the differential pressure set during the diagnosis and the maximum permissible value of the change in the diagnostic parameter (change in the temperature of the pumped liquid over a given period of time) are determined on the basis of preliminary research work or during commissioning tests.

The pump is operated until the limit value of the diagnostic parameter is reached.

Monitoring the technical condition of the pump serves to timely determine the moment of repair or other type of technical impact. In turn, the timely implementation of technical influences will allow the most complete use of the pump resource and reduce operating costs by reducing the time of non-productive operation of the pump.

Using the proposed device will reduce the cost of its manufacture.

Claims (1)

A device for determining the technical condition of the pump, containing the inlet and outlet nozzles, pressure sensors installed in the inlet and outlet nozzles, a comparator, indicator, control unit, time counter, prohibition unit, a computing device and an indication unit, characterized in that in the pump outlet An adjustable hydraulic choke and a temperature sensor are installed, the output of which is connected to the prohibition unit.

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