SU1455072A1 - Method of diagnostics of positive-displacement pumps - Google Patents

Abstract

The invention makes it possible to simplify the process of diagnosing bulk traffic by eliminating dismantling. In the pump (H) 4 make-up, the overflow valve 7 is installed with a drain line. The flow meter 9 is installed downstream of the valve 7, the residual flow rate H4 is measured by it. According to the difference of the residual flow values at idle speed H 4 and under the load of the main H 2 and H 4 volume loss is determined. According to the magnitude of the losses, the technical condition H 2, 4 is judged. 1 Il. sl 4 ate about go

Description

ten

15

I11455072

I The invention relates to the machine | construction hydraulics, namely the field of technical diagnostics of volumetric pumps.

The purpose of the invention is to simplify the diagnostic process by eliminating the dismantling of pumps.

The drawing shows a variant of the device in which the indicated method is implemented.

The device in which it implements: the said method contains a diagnosed pump consisting of a housing: a-hydraulic tank 1, a main pump 2,: a driving electric motor 3, feed booster 4, feed clans koB 5, pump flow control systems (if it is manual) 6, overflow valve 7, hydraulic line 8, and a residual pump flow meter for a feed pump (flow sensor). 9 o All elements of the pump, except the driving motor 3 and the flow meter, are enclosed in the housing 1, which serves simultaneously as a tank for the working fluid; The pump works as follows. : The drive drive motor 3 rotates the shaft of the main pump 2 and the make-up pump 4. The main pump sucks the working fluid from that hydraulic line 8, which is sucking at the moment, and supplies the working fluid. IB pressure line 8 of the closed hydraulic system of the hydraulic drive, i.e. to hydraulic motors (not shown). The feed pump 4 at the beginning of operation fills the main pump 2 with liquid, the hydraulic lines 8 and the entire hydraulic system through valves 5, and during operation the pump 4 compensates for the volume losses in pump 2 by supplying the corresponding liquid 5 through the corresponding valve 5 which is currently

The proposed method for diagnosing pumps 2 and 4 is carried out by measuring and evaluating the residual value under pump 4.

It is known that when the pump is in operation, over time, they wear out of the seals of the working bodies - the gaps increase, and consequently, the leaks, which in general

20

25

proportional to the cube of the gap and the pressure. Increased leakage leads to a decrease in the pumping load under load. Increased volume losses in the pump are compensated for by pumping the working fluid through the feed valve 5 into the hydraulic line in the vania, which leads to a decrease in the residual flow in the pump 4. When the pump is worn out 4 feed it also reduces the feed, thu leads to a decrease in its supply. Consequently, the magnitude of the exact flow of the pump 4 feeds volume losses in the pumps 2 and their technical condition. When required, it can be recalculated into the accepted nas quality indicators - feed rate or volume

30 efficiency.

The process of diagnosing in accordance with the proposed method is as follows.

Determination of the technical condition of the main pump.

Flow meter 9 measures the remaining flow of the feed pump 4 when the main pump 2 is idling at idle x Q, and at a given load Qf, p is the pressure drop (1P) and evaluates the volume loss in pump 2 as the parity of these values

35

40

ABOUT

on

 Qn .., -

Etc

 .., the feed rate of the pump Kr

is suction, and in it the pressure is determined by the discharge lower than the pressure in the pressure line of the pump 4,

the subject

setting of the overflow valve 7. In addition, the supply part of the pump 4 is used to power the control system by supplying 6 the main pump 2 during the period of its change. Excess from pump 4 supply - residual flow - through overflow valve 7, flow meter 9 returns back to 55 pump housing 1. The overflow valve 7 maintains the set pressure in the system of make-up and pressure hydraulic lines of the pump 4.

K - KQ -

ABOUT

op

QH

where QH is the pump flow rate 2 at the load abatement, i.e., at LVR, it is known or measured earlier).

The volumetric losses in the pump 4 in the feed do not change from the load of the primary pump 2. and, therefore, do not affect the determination of the technical condition of the main pump 2.

Determination of the technical condition of the make-up pump.

five

The proposed method for diagnosing pumps 2 and 4 is carried out by measuring and evaluating the residual supply of the pump 4.

It is known that when the pumps operate, over time, the places of seals of the working bodies wear out in them - they increase the gaps and, consequently, the leaks, which in general

0

five

proportional to the cube of the gap and pressure. Increased leakage leads to a decrease in pumping loads under load. The increased volumetric losses in the pump 2 are replenished by supplying the working fluid with the pump 4 through the feed valve 5 to the suction line, which in turn leads to a decrease in the residual flow of the radios 4. When the pump 4 is worn, the feed also decreases, resulting in a decrease in its residual feed. Consequently, the magnitude of the residual feed rate of the makeup pump 4 estimates the volume losses in pumps 2 and 4 and their technical condition. If necessary, it can be recalculated into the adopted quality indicators of the pump - feed rate or volumetric

0 efficiency.

The diagnostic process of the proposed method is as follows.

Determination of the technical condition of the main pump.

Flow meter 9 measures the residual flow of the pump 4 feed when the main pump 2 is at idle Q, and at a given load Qf, p (at first pressure drop / 1 R) and estimate the volume loss in pump 2 as the difference of these values

five

0

ABOUT

on

 Qn .., -

Etc

OP-

 determined by the value of

K - KQ -

ABOUT

op

QH

where QH is pump 2 flow at no load, i.e. at lR O (theoretically, known, or measured previously).

The volume loss in the feed pump 4 does not change with the load of the main pump 2. and therefore does not affect the determination of the technical condition of the main pump 2.

Determination of the technical condition of the make-up pump.

The main pump 2 is set to idle mode (D P O, Q O, if it is adjustable). The flow meter 9 measures the residual feed of the pump 4 feed when it is idling (L P 0) and at a regular pressure P n of the setting of the overflow valve 7 Q c, b and estimate the volume loss in the pump 4 of the recharge 0 as the difference between values

- mpp np., npr

The feed rate of the pump 4 feed can be determined by the expression

Q

TO

np "x.

- Q

Hnf

Lnp

 NPYA.H

Since these measurements are made when the main pump 2 is in idle mode, i.e. in the mode of practical absence and the invariance of its losses (volumetric), its operation does not affect the assessment of the technical condition of the pump 4 feed.

Thus, the proposed method makes it possible to assess the technical condition of each of the pumps separately by their volumetric losses.

Example. Determination of the technical condition of the main pump.

Residual pump flow. 4 make-up when the main pump 2 is idling

About 33.5 l / min p.d

Residual supply of the pump 4 feed during the operation of the main pump 2 with a differential pressure of 40 kgf / cm

d „32,6 l / min

Feed the main pump 2 Q 360 l / min.

  VA - nt, 33,5-32,6

 SP,

0.9 l / min Feed rate

- QO / I - 360 - 0.9

Ka

 Mon

QH

360

0.997

The technical and economic advantages of the proposed method, compared with the known ones, are due to the lack of the need to dismantle the pump from the facility and install it on a specially equipped stationary test bench, since the pump is diagnosed using the proposed method directly at the site of its operation, and also can be diagnosed in one way as the main pump. , and its pump make-up without additional dismantling and devices.

Claims (1)

Invention Formula A method for diagnosing volumetric pumps having a booster pump with a discharge line in which the overflow valve is installed, by measuring the pump flow at idle speed and under load with a flow meter, characterized in that, in order to simplify the diagnostic process by eliminating the dismantling of the pumps, the flow meter is installed in the drain line the feed pump behind the overflow valve, measure the residual flow of the feed pump and the difference in the residual flow values of the feed pump at the chlost running and under the load of the main pump and us feeding meat determined volume loss and their magnitude is judged on the technical state of both the main pump and the charge pump.