NO170557B - POSE FOR USE IN LEAK TEST OF VACUUM PACKAGES - Google Patents

Description

In the applicant's European patent application no. 85.200.130.4, corresponding to US patent document 4.593.554, there is described a method for rapid detection of any leakage in vacuum seals. According to a preferred embodiment in said application, a flexible clock is placed in a rigid clock. The vacuum seal is placed in the flexible bell which consists of flexible, elastic foil, after which a pressure differential is created between, on the one hand, the space between the vacuum seal and the flexible bell, and on the other hand, the space between the rigid bell and the flexible bell, to bring the flexible bell foil to close tightly around the vacuum seal.

The pressure in the small remaining space between the vacuum seal and the flexible bell is kept higher than the pressure in the vacuum seal. In the event of a leak, air will flow from the small remaining space into the vacuum seal. Consequently, the pressure in this small space will decrease. This reduction can be measured in a very precise way.

The above-mentioned preferred embodiment is shown in figure 3 of the above-mentioned European application and is a (e.g. rubber) bag having approximately the same shape as the vacuum seal to be tested.

It is an object of the present invention to arrive at a significant simplification of the leakage testing method and apparatus by means of a special construction of the bag.

According to the present invention, a bag is provided for use in leak testing of vacuum seals in which leak testing a vacuum seal is placed in the bag, a pressure differential is then arranged between the outside and inside of the bag whereby the bag is made to conform to the contours of the seal, and finally the pressure variation in the remaining space is monitored between the seal and the bag after such shaping, the bag being made of elastic flexible foil and open at one end for the introduction of the vacuum seals and is otherwise largely of the same shape as the seal to be tested is characterized by the fact that it

is double-walled with the space between the inside and outside of the bag

walls closed at the open end of the bag due to the fact that the inner and outer walls merge into each other at this point

point,

is provided with a dimensionally stable frame between

the walls of the bag, of largely the same shape as the bag, and

is provided with an inlet for introducing compressed air into the space between the bag walls.

The invention shall be described in connection with the accompanying drawing, as it is assumed that the vacuum seal is introduced "from below", i.e. that the rigid bell and the bag are "up/down". The rigid bell (e.g. of metal) is shown at 1. The bag, denoted by 2, has such a shape that a double wall is formed between which a rigid frame 3 is arranged which has largely the same shape as the gasket which must be tested. A part 4 of the frame 3 is e.g. designed as a tube with an external screw thread. With the help of a nut 5, a rigid connection can be formed between the rigid bell 1 and the frame 3. For increased security, an O-ring 6 can be arranged between the bottom of the bag 2 and the bottom of the frame 3, which at this point can be provided with a groove to accommodate the O-ring.

The testing takes place as follows. To simplify the introduction of the vacuum seal, a partial vacuum can be created in the space 9 between the double wall of the bag 2 by opening a valve 7 and through a channel 8. Consequently, the foil of the bag 2 will lie down on the inner wall of the frame 3. This means that the space 10 becomes somewhat larger to enable simple introduction of the vacuum seal (not shown). The watch 1 is provided with a cam 11. A cover 12 rotates around a pivot pin 13 which is also attached to the watch 1. The cover 12 is designed at its edge with a short slot which, when the cover 12 is turned around the pivot pin 13, occupies the cam 11. The rigid clock is now closed. By means of a valve 14, an excess pressure is produced in the space 9 between the bag's 2 walls. Consequently, part A-B of the bag will lie down on the cover 12, and part B-C will shape itself according to the contours of the package. The part A-D of the bag 2 will lie down on the inside of the bell 1. During this "inflating" of the bag, the valve 15 should of course be open.

It will be clear that many constructive solutions are possible for mounting the cover and that the cover can have many different shapes. One condition is of course that the shape of the cover 12 and the "mouth" (open end) of the bag 2 must be adapted to each other so that when the bag is inflated a good seal is achieved.

The pressure is measured with the gauge 16. For further details, reference is made to European patent application 85.200.130.4.

The double bag can e.g. be made by immersing an aluminum mold of the desired shape in a latex bath and vulcanizing the latex layer that adheres to the aluminum after removal of the mold from the bath. If the opening at the bottom of the outer wall of the bag is sufficiently large, it will be possible, if desired, to utilize the stretchability of the rubber, to remove the aluminum mold and replace it with a plastic frame 3. Of course, it is also possible to make the double bag by injection molding between two molds.

Claims (1)

Bag for use in leak testing of vacuum seals, in which leak testing a vacuum seal is placed in the bag, a pressure differential is then arranged between the outside and inside of the bag whereby the bag is made to conform to the contours of the seal, and finally the pressure variation in the remaining space between the seal and the bag is monitored after such shaping, in that the bag, which is made of elastic flexible foil and is open at one end for the introduction of the vacuum seals and is otherwise largely of the same shape as the seal to be tested, is characterized by the fact that it is double-walled with the space between the inner and outer walls of the bag closed at the open end of the bag due to the fact that the inner and outer walls merge at this point, is provided with a dimensionally stable frame between the bag walls, of largely the same shape as the bag, and is provided with an inlet for introducing compressed air into the space between the bag walls.