RU2392595C1 - Tightness control method - Google Patents

Abstract

FIELD: test equipment. ^ SUBSTANCE: in tightness control, item is arranged in closed envelope for its cavity to be filled with control substance to preset pressure and held for preset time. Response of leak detector to said control substance is revealed and tightness is defined by comparing leak detector with reference concentration of control substance. Note here that item mock-up placed in said envelope is used that completely simulates controlled item not filled with control substance and held in said envelope for time interval equal to that of holding the item. Leak detector response to background content of control substance and material gas release in additional closed envelope are defined, while item leakage is defined from the formula specified in invention claim. ^ EFFECT: higher accuracy and validity of tightness control. ^ 2 dwg

Description

The invention relates to the field of testing equipment, in particular to testing products for leaks, and can find application in those areas of technology where high demands are placed on the reliability of products.

A known method of leak testing, in which the product is enclosed in a closed shell, fill the product with a control substance, accumulate it in the volume of the shell, measure its concentration with a leak detector, and leak tightness is judged by the rate of change in the concentration of the control substance in the closed shell (ed. USSR No. 214851, publ. 03/29/68).

The disadvantage of this method is the relatively low reliability of the measurement, due to the fact that the gas evolution of the materials used in the construction of the product and the shell, as well as the background content of the control substance in the atmosphere affect the leak detector reaction.

Closest to the proposed technical solution is the method of testing products for leaks according to the patent of the Russian Federation No. 2295710 (publ. March 20, 2007), which consists in the fact that the product is placed in a sealed test chamber, the background concentration of the control gas in the chamber is measured, the cavity of the product is filled control gas and withstand a certain time, and the tightness is judged by the change in the concentration of the control gas in the chamber compared to the background concentration contained in the additional chamber, and before filling Leah recorded calibration gas and equalize the background control gas content of the test and further chambers after holding the product register value of the background in the additional chamber and the leakage calculation is made according to a known relation.

The objective of the present invention is to improve the accuracy and reliability of the results of the tightness control by eliminating the influence of the background of the control substance and the gas evolution of the materials included in the product and closed shells.

To achieve this technical result, in the method of tightness control, the product is enclosed in a closed shell, the cavity is filled with a control substance to the required pressure, maintained for a certain time, the leak detector response to the control substance accumulated in the closed shell is determined, and the tightness is judged in comparison with the reaction leak detector on the reference concentration of the control substance, according to the invention use enclosed in an additional closed shell model of the product, fully A test simulating a controlled, but not filled with a control substance, is held for a certain time equal to the exposure time of the product, the response of the leak detector to the background content of the control substance and the gas evolution of materials in an additional closed shell are determined, and the leakage of the product is calculated by the following ratio:

where Q _And - leakage of the product, g / s;

C _K - the value of the reference concentration of the control substance, g / l;

α _And - leak detector reaction to the concentration of the control substance in a closed shell with a filled product, μA;

α _{G + F} — leak detector response to the background content of the control substance and gas evolution of materials in a closed shell with an unfilled product model, μA;

α _K — leak detector response to a reference concentration of a control substance, μA;

α ₀ - compensated indication of the leak detector, µA;

V ₀ - free volume in a closed shell, l;

τ _B is the exposure time in a closed shell, s.

The difference between the proposed method and similar methods is that it uses the same product (layout) made of the same materials and using the same technology as the controlled substance, but not filled with the control (working or trial) substance, and enclosed in the same volume accumulation (additional closed shell). Registration of the background content of the control substance and gas evolution of materials in the additional volume of accumulation and their accounting in the calculation of tightness allows to increase the accuracy and reliability of the control.

The method is illustrated in the drawing, which shows a diagram of the control of tightness, which shows: 1 - product; 2 - valve; 3 - a device for supplying a control substance; 4 - a closed shell on the controlled part of the product; 5 - controlled part of the product; 6 - probe of the leak detector; 7 - leak detector; 8 - product layout; 9 - a closed shell on the controlled part of the product layout; 10 - controlled part of the product layout.

Figure 1 presents the control circuit of the product.

Figure 2 presents the control circuit layout of the product.

The method is as follows.

In the manufacture of the product at the same time make a model, which is an exact copy of the product (or its controlled part). The product (or part thereof) is enclosed in a closed shell and at the same time the model of the product (or part thereof) is enclosed in another same closed shell.

Then, in the cavity of the product 1, a control (test or working) substance is supplied under pressure and maintained for the necessary time to accumulate the control substance through leaks in the closed shell 4. The control substance is not supplied to the model 8. The accumulation time (exposure time) of the control substance in closed shells with the product and the layout should be equal. The signal α _{Г + Ф of the} leak detector 7 is recorded in the closed shell 9 on the controlled part of the layout 10, then the response of the leak detector to the content of the control substance in the closed shell 4 of the product part 5 is α _AND .

The response of α _{to the} leak detector 7 to the reference concentration is determined by one of the existing methods, for example, a calibrated leak or a container with a pre-prepared concentration of the control substance can be applied (not shown in the drawing).

The leakage of the product is evaluated by the ratio (1).

The proposed method has been tested in practice during the control of the tightness of the butt joints of the product.

Closed shells were made from a film of polyethylene terephthalate metallized with adhesive tape sealing.

As the second stage of sealing the butt joints of the product, the AN-4 sealant was used.

The internal cavities of the product system were filled with a working substance - coolant LZTK-2 - to working pressure. At the same time, a butt joint mock-up was made, fully copying the butt joint of the product, its sealing was carried out using the same technology and the same sealant. The butt joint of the product and its layout were enclosed in identical closed shells and the same accumulation time of 30 minutes was maintained. The free volume of each closed shell amounted to V ₀ ≈4.7 cm ³ . To record the leaks of the working substance and gas evolution of materials, a TP-3 plasma leak detector was used, which reacts to many test substances (electronegative gases, halogens, solvents, etc.).

The leak detector response was:

- the content of the working substance in a closed shell at the butt joint of the product α _And = 68 μA,

- on the background content of the working substance and gas evolution of materials in a closed shell on the model of the butt joint of the product α _{G + F} = 9 μA,

- on the reference concentration (C _K = 7-10 ^-3 g / l) of the working substance α ₀ = 0 μA,

- the compensated value of the leak detector α ₀ = 0 μA.

In this case, if the leak test of the butt joint of the product is carried out without taking into account the gas evolution of the sealant and materials, then the leak of the product will be determined by the ratio:

Then the leakage calculated by the relation (2) will be:

If we take into account the reaction of the leak detector to the background content of the working substance and the gas evolution of the sealant and materials in the model of the butt joint α _{Г + Ф} = 9 μA, then the leak from the butt joint of the product, calculated according to relation (1), will be:

Thus, not taking into account the reaction of the leak detector to the gas evolution of the sealant and materials, the leakage value of the product is 15% higher than the actual value. Taking into account the effect of gas evolution of the sealant and materials allowed to increase the reliability of the tests.

The method improves the reliability and accuracy of determining leakage, because possible gas evolution of materials used in the manufacture or assembly of the product is taken into account when determining the leakage value.

Claims (1)

The method of tightness control, in which the product is enclosed in a closed shell, fill its cavity with the control substance to the required pressure, stand for a certain time, determine the leak detector response to the control substance accumulated in the closed shell, and the leak is judged in comparison with the leak detector response to the reference the concentration of the control substance, characterized in that the method uses a mock-up of a product enclosed in an additional closed shell that completely imitates the control mine, but not filled controlling substance is maintained for a predetermined time equal to the time delay product, determine the reaction of the leak detector on a background control substance content and outgassing materials additional closed shell, and the calculation is carried leakage products according to the following relationship:

,
where Q _And - leakage of the product, g / s;
With _K - the value of the reference concentration of the control substance, g / l;
α _And - leak detector reaction to the concentration of the control substance in a closed shell with a filled product, μA;
α _{G + F} — leak detector response to the background content of the control substance and gas evolution of materials in a closed shell with an unfilled product model, μA;
α _K — leak detector response to a reference concentration of a control substance, μA;
α ₀ - compensated indication of the leak detector, µA;
V ₀ - free volume in a closed shell, l;
τ _In - the exposure time in a closed shell, C.

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