DE1203499B - Device for determining cavities within the annular edge section of the opening of a glass container - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

GOIn

German KL: 42 k -46/07

Number: 1203 499

File number: O 7439IX b / 42 k

Filing date: May 27, 1960

Opening day: October 21, 1965

The invention relates to a device for determining cavities within the annular Edge portion of the opening of a glass container or the like with a table receiving the container and a light source which can be rotated relative to one another, the light source being an optical one Has a system to generate a beam incident obliquely on the edge section, and with a photosensitive element which, upon impact, emanates from the cavities Beam generated a signal.

A certain type of error occurs in the manufacture of containers from glass or similar materials frequently, namely the so-called bladder defects. Especially when pressing or blowing a blank to form a container with an opening, the small ones present in the jar have Blow a tendency to deform and expand in length. If such bubbles in the When the rim or surface of an open container is so present, they are generally axial to the container in the form of mostly cylindrical cavities either in the wall or on its surface. In certain cases, these cavities also extend over the top edge of a side wall. In any event, these flaws prevent an effective seal when a Closing device placed with a seal or a sealing material located therein will. If the flaw is on the surface of the edge, then it can be between the sealing material and air enter the surface. If the fault is below the surface, then it is possible in due course for it to open and extend to the surface and thus forms a possible leak on the seal of the container. It is obvious that careful Examining the edges is important in order for such containers to be located and removed can be.

There are known devices which cracks and wrinkles in the container rim thereby detect are capable of ^N that a reflected through these defective locations light beam is used. A light-sensitive cell is positioned opposite the primary light beam so that its line of sight lies in the angle of reflection of the primary light beam from a reflective surface. The angle between the primary light beam and the line of sight of the photocell differs in these known devices and is 90 ° in one case and 70 to 110 ° in another.

Device for determining cavities
within the annular edge portion of the
Opening a glass container

Applicant:

Owens-Jllinois, Inc., Toledo, Ohio (V. St. A.)

Representative:

Dr.-Ing. H. Negendank, patent attorney,

Hamburg 36, Neuer Wall 41

Named as inventor:

Benny Bert Mathias, Toledo, Ohio (V. St. A.)

Claimed priority:

V. St. v. America May 29, 1959 (816 765)

The invention is directed to finding a fault entirely different from that for which Finding the known devices are suitable. With these latter is supposed to be a jump or a Crease is detected which extends essentially radially over the opening edge of the container, this type of flawed spot reflects the light at the same angle by falling onto the surface hits.

In contrast, the invention is based on the object of a previously described bladder defect ascertain. Such errors can not be determined with the known devices, since they not only reflect light, but also refract it. Hence, the primary ray of light, as it is with the known devices is used, is not deflected at such an angle that it is within the line of sight of the photocell when a cavity enters the primary light beam.

The invention is directed to the detection of a fault in which the photocell is at an angle must lie outside the reflection angle of the primary light beam in which they are to the Receives refracted and totally reflected light. Although the known devices and the are similar to the invention in that they serve to detect defects in container edge sections, however, is the type of bug that is found

509 718/226

should be completely different from each other. Each device according to FIGS. 1, 4, 5 and 6 of the devices works according to a completely referenced turntable 20, onto which the described principle and each indicative holder 10 are placed one after the other. Differences in the mode of operation and arrangement The turntable 20 can be moved upwards, the parts on, so that they are not interchangeable with one another around the edge 11 of the container 10 with a head. This means that each type of device only 21, which is rotatably arranged in a table 22, has to be brought into contact in order to locate a very specific type of defect. A light source 23 is pre-appropriate and not seen to detect a fault, which can be used on a table 22 which is arranged with the other plate 24. The light beam is detectable against the device. directed io a mirror 25 which is arranged in a on the plate on which the invention underlying task 22 housing 26 is mounted, the light position is achieved in that which is lichtempfind- bunch into a spot S (F i GF3) on the Liehe element is arranged so that it focuses the inside of the rim 11 of the container, by total reflection and refraction at the cavity misalignment receives deflected light bundles. Bladder defect refracted and totally reflected light One embodiment of the invention is shown on and collects it in the area of the photoelek hand of the figures. It shows Irish cell to generate an image. The plate F i g. 1 is a perspective view, partly in FIG. 28, in the vicinity of the container 10 on the table section and partly in a schematic illustration, 20 22 is arranged.

2 shows the beam path and the positional relationship. In FIGS. 1 and 5, there is light source 23

of the various elements to each other, from a cylindrical housing 30, which tele-

Fig. 3 is a perspective partial representation of a scope-like received in a tube 30α.

Container edge during the test, the tube 30 a rests on the table 22. The pipe

FIG. 4 is a plan view of part of FIG. 25 30 with the aid of a ball joint 31 to 39

Fig. 1 shown device, the plate 24 is mounted. On the top of the

F i g. 5 an incomplete section according to line 5-5 housing 30 is a lamp holder 40 with a glow

the F i g. 4, lamp 41 arranged. In the path of the beam of light

Fig. 6 is an incomplete section along line 6-6 arranged converging lenses 42 and 43 bundle the

4, 30 light which with the help of the flat mirror 25

Fig. 7 is a vertical section through the edge against the inner surface of the edge 11 in a pointed

of a glass container with a bladder defect. Angle to the radial plane through the respective

In the F i g. 1 and 3, an edge section to be tested is straightened.

holder 10 is shown, which is provided with a rim II. As shown in FIG. 6, there is photocell vision is that an opening, i. H. the open, generally 35 arrangement 27 consists of a housing with a lower one common circular upper end limited. The cylindrical section 45 and an upper cone to be found Flaw, called a bladder defect, is in the frustum-shaped section 46. The lower cylindrical one shown on an enlarged scale in FIG. In Fig. 7 section 45 carries a mirror housing 47 in which If the defect is completely within the edge, a flat mirror 48 is arranged. The mirror-11 and has the shape of a cylindrical cavity 40 housing 47 has an opening 49 through which 12, which is mostly parallel to the axis of the container in which the broken and total length of a bladder defect is pulled. reflected light reaches the mirror 48. Housing section 45 becomes two converging lenses Fig. 2 easily understandable, in which the container 50,51 received, which the light on an am 10 is shown in plan view. The one arranged by a light 45 upper end of the housing section 46 Source 15 of incoming light will focus on the inside photocell 52. In the area of the photodes Edge 11 directed and through converging lenses 16 cell 52 is a plate 53 provided with an opening focused on the wall, preferably arranged on.

the inside of the wall. The container 10 is also provided with polarizing filters 54, 55.

rotated its own axis so that the light spot 50 can see the amount of light supplied to the photocell

the sections of the edge 11 are scanned one after the other. _to control and thereby variations in the recom-

If a bubble defect is in the area of light sensitivity between a photocell and a

Bündeis occurs, then part of the radiation will compensate for the other. The converging lenses 50, 51

Bündeis broken by the fault and totalreflek- collect the light in the plane of the opening

animals. Outside the container 10 is a light-sensitive plate 53. The plate 53 is provided with an opening.

Sensitive element 17, for example a photocell, see plate 53 delimits the field of view of the

arranged, the line of sight with the direction of the photocell on the test surface and thereby improved

The bundle of rays in the direction of the edge 11 is the ratio of the amount of light emitted by an end

Forms angles of 125 to 175 °. The part of the product scattered without bladder defects and the photo

the defect totally reflected or refracted 60 cell is supplied to the amount of light emitted by

The light beam is collected by lenses 18, refracted to the photocell and a bubble defect

is totally reflected in a plane in the area of the light-sensitive.

As shown in FIG. 5, the lamp 41 is preferably of the element 17 a gap 19 is provided, provided with a horizontal filament. The area around the viewing area of the element 17 on the position of the light bulb is set so that the area to be touched is limited. Because of this single spot S is rectangular and extending its longest orientation, a blistering defect extends the photosensitive strain substantially parallel to the axis of the element 17. Container 10, as shown in FIG. the

Plate 53 also has a right-angled opening which is oriented so that the light portion detected by the photocell 52 corresponds to the portion of the Edge 11 corresponds to that is to be considered.

During operation, the container 10 is arranged on the turntable 20. This is moved upwards, the edge 11 coming into contact with the head 21. The turntable 20 is then rotated so that the light spot S scans the edge 11. If there is a bubble defect, the light will be refracted by the defect to the photocell 52 and totally reflected.

In the presence of a bubble defect, the photocell 52 is energized. This signal will then go through amplifies an amplifier 60 and causes a delay device 61 to be actuated. If the Container 10 has left the turntable 20 and is moving along a different section of its path, an ejector 62 is actuated by the delay device to eject the container 10.

It can thus be seen that the invention provides an apparatus for quick and easy retrieval has been created by bladder defects.

Claims (1)

Claim: Device for determining cavities within the annular edge portion of the Opening of a glass container or the like with a table and a table holding the container Light source that can be rotated relative to one another, the light source being an optical system to generate a beam incident obliquely on the edge portion, and with a photosensitive element which, when one of the cavities struck Beam generated a signal, characterized in that the light-sensitive Element (17, 52) is arranged such that it is due to total reflection and refraction Light bundles deflected at the cavity by an angle of 5 to 55 ° with respect to the direction of incidence receives. Considered publications:
French Patent No. 919 087;
U.S. Patent No. 2,481,863. 1 sheet of drawings 509 718/226 10.65 © Bundesdruckerei Berlin