RU139008U1 - DEVICE FOR DETERMINING THE TECHNICAL CONDITION OF THE PUMP - Google Patents

Abstract

A device for determining the technical condition of the pump, containing a closed circuit, which includes a pump, inlet and outlet nozzles, an adjustable throttle; a liquid temperature sensor at the pump inlet, pressure sensors at the pump inlet and outlet, a flow sensor at the pump outlet, a comparator, an indicator, a cycle counter and a computing device, characterized in that a reservoir is included in the composition of the closed hydraulic circuit, the capacity of which is selected in accordance with pump performance, while the closed hydraulic circuit along with the tank is thermally insulated; the device is equipped with a prohibition unit included between the control unit and the computing device connected to the display unit; temperature, flow and time sensors are also connected to the prohibition unit.

Description

The device relates to hydraulic engineering and can be used to assess the technical condition of pumps both in bench conditions and in diagnostic systems for power and power plants for various purposes.

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

The disadvantage of the described device is the lack of diagnostic accuracy associated with a slight change in the measured temperature difference.

It is also known a device that implements a method for diagnosing the technical condition of the pump, including the inlet and outlet nozzles interconnected by a bypass with an adjustable choke, a liquid temperature sensor at the pump inlet, pressure sensors at the pump inlet and outlet, and a flow sensor at the pump outlet, a comparator , indicator, cycle counter and computing device (SU 1513196, publ., 10/07/1982).

The disadvantage of this device is that high-power pumps heat a fixed volume of liquid to the maximum permissible temperature values quickly enough, which does not allow the pump to reach the specified mode. In addition, heat losses to the environment are not taken into account, which reduces the accuracy of diagnosis. Another disadvantage of this device is the lack of information, since it does not allow to separate the fraction of volumetric energy losses from the total sum of hydraulic and volumetric losses.

The objective of the claimed utility model is to increase the accuracy and information content of diagnosing the state of the pump when using the device. To achieve this task, a reservoir is included in the composition of the closed hydraulic circuit, the capacity of which is selected in accordance with the pump capacity, while the closed hydraulic circuit together with the tank is thermally insulated; the device is equipped with a prohibition unit included between the control unit and the computing device connected to the display unit; temperature, flow and time sensors are also connected to the prohibition unit.

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 includes a closed circuit 1, containing the test pump 2, input 3 and output 4 nozzles, an adjustable throttle 5 and a reservoir 6. A temperature sensor 7 and a pressure sensor 8 of liquid at the inlet to pump 2 are installed on the inlet pipe 3 and at the outlet pipe 4 there is a liquid pressure sensor 9 at the outlet of the pump 2 and a flow sensor 10. The device is equipped with valves 11 and 12, valve 11 is used to fill a closed hydraulic circuit with a fixed volume of liquid before testing pump 2, valve 12 - to drain the liquid after the test. The outputs of the pressure sensors 8 and 9 are connected to the comparator 13, which in turn is connected to the indicator 14 and the control unit 15. The outputs of the temperature sensor 7, the flow sensor 10 and the time counter 16 are connected to the prohibition unit 17. The output from the prohibition unit is connected to the computing device 18, to which, in turn, an indication unit 19 is connected. A closed hydraulic circuit 1, including a test pump 2, input 3 and output 4 pipes, an adjustable choke 5 and a tank 6 are coated with a heat-insulating material. The capacity of the tank 6 is selected in accordance with the performance of the investigated pump.

The device operates as follows.

At the scheduled times, tests of pump 2 are carried out sequentially. Before each test, the closed hydraulic circuit of the pump is filled with a fixed volume of liquid, then the pump 2 is pumped a fixed volume of liquid through the closed hydraulic circuit 1. In all tests, the pressure difference ΔP = P created by pump 2 is the same ₂ -P ₁ using an adjustable throttle 5, the control of a given pressure drop is carried out according to the indications of indicator 14. In this case, the pressure measurement pressure at the inlet and outlet of the pump is carried out by pressure sensors 8 and 9, the pressure difference is calculated using a comparator 13, the signal from which is fed to the indicator 14 and to the control unit 15. When the specified pressure drop ΔР is reached, the control unit 15 gives an enable signal to the unit prohibition 17, providing the passage of signals from the temperature sensor 7, the flow sensor 10 and the time counter 16 to the computing device 18. The computing device 18 operates in a mode of continuous registration of signals from the temperature sensor (T) 7, yes flow meter (Q) 10 and time counter (Δτ) 16, as well as measuring temperature changes (ΔТ), the total volume of pumped liquid (Q · Δτ), the number of pumping cycles N. The number of pumping cycles N is determined by the measured values of the fixed volume (v ) and the total fluid flow rate (Q · Δτ):

,

,

where N is the number of cycles;

Q is the fluid flow rate;

v is a fixed volume of liquid;

Δτ is the time.

After reaching the specified number of pumping cycles N, signals are sent to close the prohibition block 17 and to the display unit 19 (to turn off the pump). The display unit also displays the results of processing the measured data: temperature changes (ΔТ), the number of pumping cycles N, the time during which the liquid passes the specified number of cycles (Δτ) and (or) the current fluid flow rate (Q _i ).

The total losses (total efficiency of the pump) are estimated by changing the temperature of the pumped liquid over a certain number of cycles of pumping it in a closed circuit, and the volume losses (volumetric efficiency of the pump) are estimated by the time during which the liquid passes the specified number of cycles or the value of the current fluid flow rate.

The difference between the values of the temperature change after a given number of pumping cycles determined during the first diagnosis (for a new pump) and subsequent diagnoses will characterize the change in the total losses of the pump during operation.

The difference between the values of the flow rate or the pumping time of a given number of cycles determined during the first diagnosis (for a new pump) and subsequent diagnoses will characterize the change in the volumetric losses of the pump during operation.

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 current costs for maintenance and repair of the pump by improving the accuracy and information content of the diagnosis.

Claims (1)

A device for determining the technical condition of the pump, containing a closed circuit, which includes a pump, inlet and outlet nozzles, an adjustable throttle; a liquid temperature sensor at the pump inlet, pressure sensors at the pump inlet and outlet, a flow sensor at the pump outlet, a comparator, an indicator, a cycle counter and a computing device, characterized in that a reservoir is included in the composition of the closed hydraulic circuit, the capacity of which is selected in accordance with pump performance, while the closed hydraulic circuit along with the tank is thermally insulated; the device is equipped with a prohibition unit included between the control unit and the computing device connected to the display unit; temperature, flow and time sensors are also connected to the prohibition unit.

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