SE513486C2 - Testing seal in hollow space in test object - Google Patents

Abstract

A valve arrangement (17) is used in conjunction with the flow meter (15) so that medium passage is allowed through the flow meter or past it in parallel coupled conduit (18). By means of the vacuum producer (V) using the passage (18) past the flow meter (15) a vacuum is produced in the test object (A) hollow space. After achieving a predetermined vacuum, the flow meter is coupled between the vacuum producer and the test object, and by monitoring, recording and/or calculating of the volume of air or gas which has required to be removed for maintaining the predetermined vacuum in the test object hollow space, the degree of seal in the test object is determined.

Description

15 20 25 30 35 513 486 2 In cavities in test objects, water formed by condensed humidity can remain, which can also affect the reliability of the measurement result.

Object of the invention The object of the invention is to provide a method of leak-proofing objects without the result being affected by irrelevant factors such as temperature change and humidity.

Summary of the invention The invention is based on new thinking, which goes against known ideas and more precisely means that one virtually eliminates the test medium, but uses a test device, which in many respects corresponds to that according to Swedish patent 8902284-2.

An essential feature of the invention is that instead of using a pressure source, a device for providing a vacuum is used, that the vacuum device is connected to the test object and allowed to provide an almost complete vacuum therein and that when this has been connected a flow meter, arranged to register and the amount of air that needs to be drawn from the interior of the test object in order to maintain the vacuum obtained.

This gives the advantage that the test is completely unaffected by temperature changes because no test medium, which can be affected by the temperature, is found inside the test object. Nor can residual moisture in the test object's interior from the beginning give rise to incorrect values. It is the case that water in liquid form is evaporated at ever lower temperatures as the vacuum increases and this means that when using the invention, any remaining water will be evaporated, whereby the formed water vapor is disposed of together with the rest of the air.

As an illustration of the difference between currently used methods and devices and the method and device according to the invention, it can be mentioned that in a known system utilizing pressurization of the test object and measurement of required supplied air volume occurs at 2 bar abs. and a temperature change amounting to 0.02 ° C, in the interior of the test object a pressure change of 10 Pa / 1. When using the new method and the device, an equal pressure change of 10 μl / l is achieved and at 1 mbar abs. only at a temperature change of 30 ° C, which gives an idea of the insensitivity to temperature changes of the device for the new method.

Description of exemplary embodiments The invention will in the following be described in more detail with reference to the accompanying drawing, in which the system construction of a device for carrying out the method according to the invention is schematically illustrated.

In the drawing, A denotes the position of a test object (not shown) and, more specifically, an object provided with an internal cavity, the tightness of which is to be tested. V denotes a vacuum pump (not shown) connected to the test device.

The device according to the invention is according to the diagram, which shows a preferred embodiment constructed in the following manner.

From the connection point 1 for the test object A a line 2 extends, via a filter 3 with branch lines to a pressure switch 4, and a vacuum meter, which indicates to the test staff whether the device is in operation, to a two-way valve 5. At the valve 5 a line is connected. 6 to the device in general, and on the other hand a line 8 provided with filter 7, through which the test object A can be refilled with atmospheric air after testing.

The line 6 runs in a four-way connection 9 together partly with a line 10, which via a valve 11 is connected to a variable or adjustable choke 12, by means of which, for test or calibration purposes, a controlled inflow of atmospheric air to the system can be effected by a filter 13, partly with a line 14 10 15 20 25 30 35 513 486 4 to a flow meter 15, from which a line 16 continues to a changeover valve 17.

From the four-way connection 9, a line 18 also goes directly to the changeover valve 17 past the flow meter 15.

Between the changeover valve 17 and the vacuum source V there is a line 19, to which a manometer 20 showing the test vacuum and a pressure switch 21 are connected and the line passes a pressure or rather vacuum regulator 22, which regulates the vacuum generated in the vacuum source V and operated in the system. and the test object A.

The mode of use and operation is as follows It is assumed that the vacuum generator A is running, the influence of the pressure regulator 22 a predetermined pressure will prevail in the line 19, through the changeover valve 17 and the line 18 and the line 6 up to the changeover valve 5. Of course the line section 10 up to the valve 11 whereby, on the other hand, through the same vacuum in the changeover valve 5 stands until the test is started in its position open towards the pressure equalization or pressure recovery pipe 8.

As the changeover valve 5 is reversed, the vacuum in the system will result in a sample object A connected to the coupling 1 being emptied of air until an equilibrium position in relation to the vacuum determined by the pressure regulator is reached. During this evacuation stage, the valve 17 is in its open position towards the line 18, which means that the air sucked from the object will pass completely past the flow meter 15 and not affect it.

In order to avoid, for example, metal particles and other contaminants being sucked into the device, the filter 3 is arranged in the line 2 next to the connection 1.

When the meters show that equilibrium in the system prevails, ie that the desired vacuum has been reached in the test object, the valve 17 is reversed, whereby the connection via the bypass 18 is interrupted and any - caused by leaks in the test object - additional extraction of air from the test object will take place through the flow meter 15, which in this case accurately indicates the size of the additional extracted volume.

When the test period - usually about five seconds - has ended, the valves 17 and 5 are reversed, whereby vacuum will remain past the flow meter 15 all the way to the valve 5 and the vacuum in the test object is eliminated by refilling atmospheric air via the filter 7 and line 8.

During the test period, any necessary suction of air from the test object is registered, ie air that enters from the outside due to leakage.

It can be noted that even between the test periods vacuum is maintained in the system all the way to the changeover valve 5.

To enable calibration of the flow meter 15, the adjustable choke 12 is used in the line 10 beyond the valve 11. By setting 'the' choke 12, when the valve 11 is opened, leakage of a certain volume of air will take place via the filter at 13 and this known volume. was used as a reference when calibrating the flow meter.

Claims (4)

10 15 »2O 25 30 (5115 4136 PATENT REQUIREMENTS A method of leak testing cavities in a test object (A) using a flow meter, wherein a line (2) to a vacuum generator (V) and a flow indicator characterized by the measures are connected to an opening in the otherwise closed cavity. arranging at said line a valve arrangement (17) and a flow meter (15), in such a way that the valve arrangement (17) enables media passage either through the flow meter (15) or past it in a line (18) connected thereto in parallel, that by means of the vacuum device (V ) using the passage (18) past the flow meter (15) to create a vacuum in the cavity of the test object (A) and, after reaching a predetermined vacuum, to connect the flow meter (V) and the test object (A) in order to detect, register and / or calculate determine the volume of air (15) between the vacuum device or gas which, in order to maintain a predetermined vacuum in the cavity of the test object, is to be removed therefrom; degree of tightness of the test object. 2. A method according to claim 1, characterized by the measures of arranging means (10, 11) between the flow meter (15) and the connection point (1) for the test object (A) for closing the passage (2, 6) against the test object (A) and opening the passage (10) from the surrounding atmosphere or the like, adjustable choke (12) arranged for calibration purposes, 3. after adjusting the choke (12) to flow volume, while the passage (6) towards the test object (A) as well as the bypass (18) (15) open the inflow line (10) (12) in the direction of the flow meter (15), and calibrate the air volume (15) in the direction of the known flow direction (V) and the flow meter. desired through- at the flow meter are closed, through the choke towards the vacuum source A method according to claim 1, that a sufficiently complete vacuum is provided in the internal cavity of the test object. 1st 11 e 1st <: k r a t of the measures a close Device for leak testing of test objects (A) as machine components with an internal cavity, comprising connectors (1) for connecting the device to the test object, means for sensing a flow caused by leakage of the test object, means for producing a pressure difference between and pressure difference between the environment and means for eliminating this pressure difference, the means for sensing a flow meter (15) known per se, the means for effecting the pressure difference. consists of a vacuum generator (V) set up. to provide the test object with a near-complete vacuum and the means flow to eliminate the pressure difference caused by the vacuum consists of a valve-filled backfill line (8), after completion of the test, openable to the environment, characterized in that between the connection point (1) for the test object (A) and the flow meter (15) are arranged a valve (5) so arranged that the line system (6, 14, 16, 18, 19) including the flow meter (15) between this valve (5) and the vacuum source (V) is kept delimited and under vacuum during periods between testing of object (A) and that between the connection point (1) of the test object (A) (V) parallel to the flow meter one in and the vacuum source (15) is past or arranged instead of 10 15 20 25 30 513 486 g. flow meter connectable (15) line (18) enabling evacuation of air or gas present in the test object past the flow meter (15) and that the flow meter is arranged to be connected instead of no said line (18) only when testing begins.