DD226392A1 - METHOD OF TESTING RISKS IN GLASS GRAIN CONTAINERS - Google Patents

Abstract

Methods for testing for glass cracks for the presence of cracks are complex devices in which cracks in the form of reflections are detected by a light source. However, these reflexes are also produced by other causes: thickening, inclusions, seams, etc. are recorded and identified as errors, although the container is certainly suitable for its intended use. The invention applies, for the first time, the method known for insulation testing for crack testing in glass containers. Special electrode shapes, such as half-shell brushes and conductive media such as water or gas are proposed.

Description

In turn, this is the invention

The invention finds application after the manufacture of glass containers or before the filling of these containers, for example canned or glass bottles.

Characteristic: the known technical solutions

It is known to inspect glass containers for cracks after manufacture or before filling with items to be preserved or liquids, in order to avoid breakage and loss during thermal treatment or when charged with disbasic acid.

For this purpose, expensive optical-electronic devices are used which, in conjunction with a light source, pick up mirror reflections from hoists and signal these errors. These devices have the disadvantage that even defects in the glass, which are irrelevant for the use value determination, are mixed as cracks- Thus, air bubbles, seams, inclusions or thickening are displayed as Hii3fehler. The microprocessor-controlled evaluation technology of these devices is very costly and prone to failure.

Object of the invention

It is an object of the invention to provide a cheap method for crack testing.

Explanation of the essence of the invention

The object of the invention is to recognize only cracks as such in glass containers and not to react to other errors.

According to the invention, this object is achieved by using the known insulation test system having at least one electrode and at least one counterelectrode, which is arranged relative to the electrode such that the wall of the glass container is located between both electrodes and a high voltage device for applying a test voltage to both electrodes ,

It is also part of the invention that the glass containers to be tested inside or outside with a good conductive medium, such as water, filled or wetted.

Furthermore, it is part of the invention to adapt the inner and outer electrodes of the shape of the Eehältnisses to be tested or to make the retractable into the container electrode as a round brush and form the outer electrode as a ring brush.

embodiment

The invention will be explained by way of example by accompanying drawings.

Show it:

Fig. 1: electrode assembly - half shells

Fig. 2: electrode assembly - inner and outer brushes

FIG. 3J areal electrodes. FIG

Fig. 4; Unroll on elastic electrode.

Allenα all examples is marked with 1 the electrode, with 2 the counter electrode and with 3 the container to be tested.

The operating principle is based on the comparison of the insulation resistance of the wall, z. B- a glass jar with no crack, whose value goes to infinity and the Isölationswiderstand the glass jar to be tested. In the presence of a crack, the insulation resistance is measurably smaller. For this purpose it is necessary to create an electrode from both sides of the wall. Various methods are applicable. By using spatially formed electrodes, it is possible to detect the entire wall with a measuring operation.

For this purpose, the body shape adapted half-shells or specially shaped brushes can be used. For example, in glass cans, the inner electrode can be realized by a cylindrical brush. It is also possible to use conductive media, eg. 3. make water or gas usable as electrodes. A water film applied to both sides of the wall is just as conceivable as filling with water. 7 / asser can also be used to improve the effect of all other electrodes additionally. Water or another conductive liquid has a particularly advantageous effect on flat-bordered electrodes. These include only a certain portion of the entire body surface and must therefore the. scan entire surface one after the other. This can be done by guiding the electrodes over the surface or z. B- by rolling the body on a large-area electrode can be achieved. Other combinations of the mentioned variants are also conceivable.

Claims (3)

Srf indungsansp fuch . ' Process for crack testing in glass containers, characterized by .Anwendung the known isolation. Test systems with at least 1 electrode and at least 1 counter electrode which is arranged relative to the electrode so that the wall of the glass container is located between two electrodes and a Eochspannungseinrichtung for .Anlegen a test voltage to both electrodes. 2. The method according to item 1, characterized in that the glass containers to be tested inside and or outside with a good conductive medium, such as water, filled or wetted. 3- Method according to item 1 and 2, characterized in that the inner and outer electrodes of the shape of the container to be tested is adapted or to make the retractable into the Behältni-sable electrode as a Sund brush and the outer electrode designed as a ring brush becomes.