SU1357740A1 - Method of determining value of liquid leakage through seals - Google Patents

Abstract

The invention relates to means of monitoring seals for leaks and improves accuracy by testing seals with different expected leakage values on one stand. Set the seal on the stand. The volumetric modulus of elasticity of the measuring part of the test bench is established from the condition of providing the same rate of pressure drop in the measurement part of the test bench for seals with different expected leakage values. A test pressure is created in the measuring part of the test bench, the pressure drop in it is determined during the holding time. By the magnitude of the pressure drop, a leak tightness is determined. 2 Il. I (L oo SP 4

Description

The invention relates to a testing technique and permits sealing seals to be tested.

The purpose of the invention is to improve the accuracy of testing seals with different expected leakage values on a single stand by providing a predetermined rate of pressure drop.

FIG. 1 shows a leak calibration chart; in fig. 2 is a leak diagram.

The method for determining the magnitude of fluid leakage through a seal is implemented as follows.

According to the regulatory document, for each type of seal, the specific leakage q through the seal is determined and the number n of double strokes of the simulator rod is set, in which the test seal with a length L of double stroke is installed. Know the radius R of the simulator stem, according to the formula

Q 2nRLng (l)

calculate the expected Q leakage through the seal.

Then, the volumetric modulus of elasticity of the measuring part of the stand is established from the condition of providing the necessary rate of pressure drop in the measuring part of the stand for seals, with the expected leakage value calculated by the formula (1). The volumetric modulus of elasticity of the measuring part of the stand can be varied by varying one or several of the following parameters: simulator volume, pipeline volume, attached volume, gas volume, gas content of the working fluid, material of the pipelines, type of the working fluid. Having checked the measuring part of the stand with a fixed brush for airtightness, they create a limiting value of pressure and gradually reduce it by draining the working fluid into a measuring container. The pressure drop and the amount of outflowing fluid are simultaneously recorded and a calibration chart of leakage Q (P) is established.

Before starting the testing of the seals, the required pressure is created in the measuring part of the stand, and the liquid is cut off, after which, with a moving rod of the simulator, the pressure drop in the differential pressure and the number n of double strokes are recorded.

The calibration diagram is used to determine the magnitude of the leakage Q and, substituting it into form 10

20

on a scale of an exemplary manometer at 25 MPa, and the value of the expected leakage calculated by the formula (1), Q is 0.942 cm. To ensure a given pressure drop rate, select the value of the variable parameters determining the volumetric elastic modulus of the measuring part of the test bench. So, at the specified pressure drop, it is necessary that the simulator volume is equal to 25 m of pipelines — 10 cm, attached volume — 600 cm, seal volume — 9.1 cm, gas volume — 12 cm, gas content in the working fluid — 0.005 with brass pipeline material rubber sealing material and mineral oil working fluid

15 I-20A. After constructing the calibration curve (P) (Fig. 1), the test is performed at a pressure of 15 MPa and the number of double strokes is recorded, over which the pressure drops by 0.5 MPa. For this case, it was 64 double turns. According to the calibration schedule, we determine the leakage value, 2 cm and, substituting the obtained result into the formula (1) for the given test conditions, find the specific leakage through

25 seals, 083. The tests are repeated for all operating pressures and a diagram of the actual specific leakage through the seal (P) is plotted (Fig. 2).

By adjusting the volumetric and stiffness characteristics of individual elements of the stand, one can obtain the necessary reduced volumetric modulus of the measuring part of the stand and ensure that the specified pressure drop rate is obtained based on the energy and labor costs for testing, as well as the possibility of testing seals with different geometrical dimensions on one stand. size and performance characteristics provided high reliability 4Q of the results.

Claims (1)

Invention Formula The method of determining the amount of fluid leakage through the seal by installing 45 seals on the bench, creating seals on one side in the test pressure measuring part of the test bench, determining the pressure drop in it during the holding time and determining seal leaks on it, distinguishes 30 35 Moulo (1), find the true value of the specific, in order to increase the exact leakage of YI. The test is repeated for all operating pressures and a diagram of the actual specific leakage through the seal is provided for any pressurized pressures (P). So, for example, at, 5,, mm, mm pressure drop when the rod has reached the specified number of double strokes, 5 MPa To test the seals with different expected leakage values on one bench, prior to the creation of test pressure, the volumetric elastic modulus of the measuring part of the bench is established on the condition that the pressure drop in the measuring part of the stand for seals with different expected leakage values is the same. 0 0 on a scale of an exemplary manometer at 25 MPa, and the value of the expected leakage calculated by the formula (1), Q is 0.942 cm. To ensure a given pressure drop rate, select the value of the variable parameters determining the volumetric elastic modulus of the measuring part of the test bench. So, at the specified pressure drop, it is necessary that the simulator volume is equal to 25 m of pipelines — 10 cm, attached volume — 600 cm, seal volume — 9.1 cm, gas volume — 12 cm, gas content in the working fluid — 0.005 with brass pipeline material rubber sealing material and mineral oil working fluid 5 I-20A. After constructing the calibration curve (P) (Fig. 1), the test is performed at a pressure of 15 MPa and the number of double strokes is recorded, over which the pressure drops by 0.5 MPa. For this case, it was 64 double turns. According to the calibration schedule, we determine the leakage value, 2 cm and, substituting the obtained result into the formula (1) for the given test conditions, find the specific leakage through 5 seals, 083. The tests are repeated for all operating pressures and a diagram of the actual specific leakage through the seal (P) is plotted (Fig. 2). By adjusting the volumetric and stiffness characteristics of individual elements of the stand, one can obtain the necessary reduced volumetric modulus of the measuring part of the stand and ensure that the specified pressure drop rate is obtained based on the energy and labor costs for testing, as well as the possibility of testing seals with different geometrical dimensions on one stand. size and performance characteristics provided high reliability 4Q of the results. Invention Formula The method of determining the amount of fluid leakage through the seal by installing 45 seals on the bench, creating seals on the one side in the measuring part of the test pressure test bench, determining the value of the pressure drop in it during the holding time and determining the seal leaks on it, differs from five In order to increase the accuracy of testing seals with different expected leakage values on one stand, before creating the test pressure, the volumetric elastic modulus of the measuring part of the stand is established, provided that the same pressure drop rate in the measuring parts of the seal stand with different expected leakage values. j y | lr Ik l f J5 Cjj jj 2J5 g, 5 5.0 7.5 1Z, 5 75.0 cpuz.1  2ff, 0 22.5 Z5.0 PM / 7a 0.08 0, gz ABOUT Editor V. Danko Order 5503/39 Tehred I. VeresKorrektor A.T sko Circulation 776 Subscription VNIIPI USSR State Committee for Inventions and Discoveries P3035, Moscow, F - 35, Raushsk nab. 4/5 Production and printing company, Uzhgorod, ul. Project, 4 7015 CPU2.2 20 25 P, Compiled by L. Wichl Tehred I. VeresKorrektor A.T sko Circulation 776 Subscription