DE102022000038A1 - Test device for checking gas tightness of a component, and method for checking gas tightness - Google Patents

Abstract

The invention relates to a testing device (10) for testing the gas-tightness of a component (12), having a gas feed opening (14) for feeding gas into the testing device (10) and having a gas outlet opening (16) for feeding gas into the component (12 ) via a component opening (18), the testing device (10) having a screwing device (20) which, after gas has been discharged into the component (12), closes the component opening (18) by means of a screwing element (22) in the testing device (10) closed. The invention also relates to a method for checking the gas tightness of a component (12).

Description

The invention relates to a testing device for testing the gas-tightness of a component. The invention also relates to a method for testing the gas-tightness of a component.

Filling adapters are already known from the prior art, which are placed on the components during a leak test and remain there and seal them. The component opening is subsequently closed, in which case the closure on the component then has to be checked separately. This subsequent closing of the component opening usually requires an additional station in which the component opening is tightly closed, for example with a screw. In addition, another leak test system is required to check the closure for leaks. This increases the space required in the production line, the investment outlay and the ongoing operating costs.

The DE 323 91 90 A1 describes a method of controlling fluid delivery to a patient, delivered intravenously or intra-arterially.

The DE 10 2014 217 977 A1 describes an energy storage device comprising one or more energy storage devices and an outer housing housing the one or more energy storage devices. The outer case includes a communication part that defines a passage that allows communication between an interior and an outside of the outer case, and the communication part includes a functional membrane that allows gas passage and prevents liquid passage.

The object of the present invention is to create a testing device and a method by means of which a leak test of a component can be carried out with reduced effort.

This object is achieved by a testing device and by a method according to the independent patent claims. Advantageous embodiments are specified in the dependent claims.

One aspect of the invention relates to a testing device for testing the gas-tightness of a component, having a gas supply opening for supplying gas into the testing device and having a gas outlet opening for discharging gas into the component via a component opening.

Provision is made for the testing device to have a screwing device which, after gas has been discharged into the component, closes the component opening by means of a screwing element in the testing device.

In particular, a combined filling and screwing adapter is therefore provided which combines the work steps of filling and screwing. Thus, a lower space requirement and a lower investment outlay can be realized and the ongoing operating costs can be reduced.

For example, it is provided that in a first step the component, which can also be referred to as the test object, is filled with the test gas via the test device. After the test pressure has been reached, the test device remains over the opening so that the pressure is maintained. In a second step, an internal spindle closes the component opening with a screw. After the component opening is closed, the testing device is swiveled away. The closed component opening is then integrated into the overall test process. This completes the leak test, further assembly or test steps are no longer necessary.

According to an advantageous embodiment, the screwing device has a threaded spindle.

It is also advantageous if the testing device is designed like a bell.

In a further advantageous embodiment, the test device has a further gas supply opening, via which flushing gas can be introduced into the test device.

A further aspect of the invention relates to a method for checking the gas-tightness of a component using a testing device according to the preceding aspect. The test device is arranged over a component opening of the component. The component is filled with gas via the component opening using the test device. The component opening is closed under pressure by means of a screw element of the test device by a screw device of the test device and the test device is removed from the component.

Advantageous configurations of the testing device are to be regarded as advantageous configurations of the method. For this purpose, the test device has in particular physical features in order to be able to carry out a method.

Further advantages, features and details of the invention result from the following description of a preferred exemplary embodiment and from the drawing. The features and combinations of features mentioned above in the description and the features and combinations of features mentioned below in the description of the figures and/or shown alone in the single figure can be used not only in the combination specified in each case, but also in other combinations or on their own, without the frame to abandon the invention.

The only figure shows a schematic sectional view according to an embodiment of the testing device.

• 1 zeigt eine schematische Schnittansicht gemäß einer Ausführungsform einer Prüfvorrichtung 10. Die Prüfvorrichtung 10 ist zum Überprüfen einer Gasdichtigkeit eines Bauteils 12 ausgebildet. Die Prüfvorrichtung 10 weist eine Gaszuführöffnung 14 auf, welche zum Zuführen von Gas in die Prüfvorrichtung 10 ausgebildet ist. Ferner weist die Prüfvorrichtung 10 eine Gasausführöffnung 16 zum Ausführen von dem Gas in das Bauteil 12 über eine Bauteilöffnung 18 des Bauteils auf.

Elements that are the same or have the same function are provided with the same reference symbols in the figure.

• 1 shows a schematic sectional view according to an embodiment of a testing device 10. The testing device 10 is designed to test the gas tightness of a component 12. FIG. The testing device 10 has a gas supply opening 14 which is designed to supply gas into the testing device 10 . Furthermore, the testing device 10 has a gas discharge opening 16 for discharging the gas into the component 12 via a component opening 18 of the component.

It is provided that the testing device 10 has a screwing device 20 which, after gas has been discharged into the component 12 , closes the component opening 18 by means of a screwing element 22 in the testing device 10 .

In particular, it can be provided that the screwing device 20 has a threaded spindle 26 . Furthermore, it is shown that the testing device 10 is essentially bell-shaped. Furthermore, it can be provided that the testing device 10 has a further gas supply opening 28 via which flushing gas can be introduced into the testing device 10 .

The figure also shows that the testing device 10 can be applied to the component 12 in a sealing manner via a sealing element 30, which can be designed in particular as an O-ring. Furthermore, it can be provided, for example, that the screwing device 20 can have a corresponding screw bit 32 at one end of the screwing device 20 in order to be able to screw in the screwing element 22 . Furthermore, it can also be provided that the testing device 10 can have a further seal 34 in order to also be able to seal the bell of the testing device 10 or the threaded spindle 26 .

In particular, the test device 10 can thus be proposed, which fills the component 12 with the test gas in a first step. After the corresponding test pressure has been reached, the test device 10 remains over the component opening 18 so that the pressure is maintained. In a second step, the threaded spindle 26 closes the screw device 20 with the screw element 22, the component opening 18. After the component opening 18 is closed, the testing device 20 is pivoted away. The closed component opening 18 is then integrated into the overall test sequence. The gas tightness test is thus completely completed, further assembly or test steps are no longer necessary.

Reference List

10

testing device

12

component

14

gas supply port

16

gas outlet opening

18

component opening

20

screwing device

22

screw element

26

lead screw

28

further gas supply opening

30

sealing element

32

screw bit

34

seal

QUOTES INCLUDED IN DESCRIPTION

This list of documents cited by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent Literature Cited

• DE 3239190 A1 [0003]
• DE 102014217977 A1 [0004]

Claims (5)

Testing device (10) for checking the gas tightness of a component (12), with a gas supply opening (14) for supplying gas into the testing device (10) and with a gas discharge opening (16) for discharging gas into the component (12) via a component opening (18), characterized in that the test device (10) has a screw device (20) which, after gas has been discharged into the component (12), closes the component opening (18) by means of a screw element (22) in the test device (10). . Testing device (10) after claim 1 , characterized in that the screwing device (20) has a threaded spindle (26). Testing device (10) after claim 1 or 2 , characterized in that the testing device (10) is designed like a bell. Testing device (10) according to one of the preceding claims, characterized in that the testing device (10) has a further gas supply opening (28) through which flushing gas can be introduced into the testing device (10). Method for checking the gas tightness of a component (12) by means of a testing device (10) according to one of Claims 1 until 4 , having the steps of: - arranging the testing device (10) over a component opening (18) of the component (12); - Filling the component (12) with gas via the component opening (18) by means of the testing device (10); - Closing the component opening (18) under pressure by means of a screw element (22) of the test device (10) by a screw device (20) of the test device (10); and - removing the testing device (10) from the component (12).

Images