DE19822550C2 - System for measuring the wall thickness of glass containers with a continuous circumferential course - Google Patents

Description

The invention relates to a system for measuring the wall thickness of glass containers constant circumferential course, consisting of a the system spaced from one conveyor belt running parallel to it, above the level of the conveyor belt of the projecting measuring head, which responds to the wall thickness of the glass container, and one, extending parallel to the measuring head, opposite the measuring head, revolving, the glass container by means of a rotary movement through the measurement area transporting drive belt with the possibility of adjustability between the measuring head and the drive belt in accordance with the diameter of the the type of glass container to be subjected to measurement. One such system is US-A 3,797,632 refer to.

In such systems, glass containers such as mason jars, jam jars and the like checked whether their wall thickness is within its circumference the permissible tolerances. Appropriate control mechanisms are involved created the possibility of glass containers with out of tolerance Separate wall thickness deviations automatically. The known systems for Measuring the wall thickness of such glass containers, however, leaves only the control of completely round glass containers, but not the control of a constant al However, the glass container does not have a completely round circumferential course, so the glass container with oval circumference.

Based on the prior art, the invention was based, the gat so forming system for measuring the wall thickness of glass containers ten that glass containers were also subjected to a measurement or inspection on the system can be, in particular a deviating from the full circumferential course have an oval circumferential course.  

The task is carried out with a generic system for measuring the wall thickness of Glass containers with a constant circumferential course solved in such a way that the belt drum opposite the measuring head is separated by a rule the pulleys for the drive belt extending under tension lying sliding plate made of spring steel is trapped on the on the measurement head facing away from the sliding plate at regular intervals stretched starting position mediating, against the inherent spring force deflection of the sliding plate towards the side facing away from the measuring head allow buffers to act.

Embodiments of the invention result from subclaims 2 to 8.

In the drawing, the invention is in a very schematic manner, including the Representation of a wall thickness measuring system according to the prior art explained. Show it:

Fig. 1 shows such a plant according to the prior art in top view,

Fig. 2 shows such a system embodied according to the invention also in plan view,

Figure that designing the system according to the invention Component on a larger scale also on top view,  

Fig. 4 shows a cross section through the measuring section designed according to the invention.

The system 31 shown in FIG. 1 according to the prior art is attached to a conveyor belt 11 , 11 ', on which the glass container 21 to be checked is transported in and out in the direction of arrows A, A', which the area of the system 31 on one of the conveyor belt 11 , 11 'bounded on a platform 12 extending through the system, supporting platform. The heart of the system is the so-called head station 311 with which the platform 12 on the longitudinal edge facing it is limited measuring head 312 , on which the glass container 21 to be checked under the effect of a component of the opposite drive block 32 is formed, parallel to the measuring head in a diameter of the glass container 21 passing through the system, corresponding distance B from the measuring head 312 , in the direction of arrow C ( FIG. 2) rotating drive belt 321, perform a rotary movement in the direction of arrow D ( FIG. 1). The length of the measuring head 312 ensures the wall thickness check of the glass container 21 over its entire circumference. Designed to take account of the height of the glass container 21 to be checked, the measuring head 312 is then also provided with a plurality of measuring strips 313 , 313 'which are assigned to it and extend over and extend at a distance from one another. , , provided ( Fig. 4). The system can be adjusted to the diameter of the type of glass container to be checked by moving the head station 31 in the direction of the double arrow B '. With 33 a singling unit is designated, which ensures that the glass container 21 to be checked passes through the system at a distance, with 34 the ejection unit, possibly activated by the head-end station, for sorting out determined glass containers with wall thickness ranges deviating from the permissible tolerances. The known system, however, only allows a round glass container to be subjected to a wall thickness check, but not glass containers with a continuous but not completely round circumferential course.

In order to be able to also check glass containers with a continuous but not completely round circumferential course on such a system, the known system was designed in the manner shown in FIGS. 2 to 4, with which the run 321 ′ interacting with the glass containers passing through the system. of the drive belt 321 an adjustment mobility in the sense of the double arrow E in Fig. 2 is conveyed. For this purpose, the removable element 41 from FIG. 3 was developed and integrated into the drive block 32 . The element 41 consists of a support 42 to be installed in the drive block 32 with a guide rail 43 projecting from it, on the pneumatic cylinder 44 , 44 '. , , spaced with the possibility of changing the distance between the cylinders (double arrow F in Fig. 3) are mounted, the plunger 441 protrude beyond the carrier 42 . The plungers 441 are supported on a plunger side extending over the length of the carrier 42 , guided around deflection rollers 46 , 46 'and under tension 47 by spring steel strip 48 . In the state of the element 41 installed in the drive block 32 in the manner shown in FIG. 2, the spring steel strip 48 catches the strand 321 'of the drive belt 321 which interacts with the glass containers 21 ' passing through the system. The adjustability of the speed of the spring steel strip 48 and thus also that of the run 321 'of the drive belt 121 in the sense of the double file E opens up the possibility of continuous adjustment of the distance B "( FIG. 2) between the measuring head 312 and the run 321 ' of the drive belt 321 to the different radii or diameters of glass containers 21 'passing through the system with a continuous but non-circular circumferential profile, and thus also the checking of such glass containers for their wall thickness.

A drive belt, the surface of which comes into active engagement with the glass containers or is covered with a suitable foam, on the one hand, and a measuring strip 313 , 313 'assigned to the measuring head 312 and forming over the length of the measuring head and forming part of the measuring head. , , strips 314 of rubber or the like, which also extend over the length of the measuring head and protrude slightly beyond the measuring strips, on the other hand ensure that the glass containers 21 'are provided with the required rotational movement while passing through the measuring section defined by the measuring head 312 .

Claims (8)

1.System for measuring the wall thickness of glass containers ( 21 ') with a constant circumferential course, consisting of a spaced apart from a conveyor belt ( 11 ) passing through the system, which projects parallel to the wall thickness of the glass container ( 11 ) and projects over the level of the conveyor belt ( 11 ). 21 ') responsive measuring head (312) and, extending parallel to the measuring head (312), the measuring head (312) opposite, circumferential, the glass container (21') through the intermediary of a rotational movement through the measurement area transporting belt (321) with the possibility the adjustability of the distance between the measuring head ( 312 ) and the drive belt ( 321 ) in accordance with the diameter of the glass container type to be subjected to the measurement, characterized in that the belt drum ( 321 ') opposite the measuring head ( 312 ) moves from one between the deflection rollers ( 322 , 322 ') for the drive belt ( 321 ) extending slide under tension tplate ( 48 ) is made of spring steel, on which on the side facing away from the measuring head ( 312 ) the sliding plate ( 48 ) at regular intervals mediates its extended starting position, against the inherent spring force a deflection of the sliding plate ( 48 ) after that of the measuring head ( 312 ) buffers ( 44 , 44 '. , .) act. 2. Plant according to claim 1, characterized by a distance between the conveyor belt ( 11 ) and measuring head ( 312 ) bridging platform ( 12 ). 3. System for measuring the wall thickness of glass containers according to claim 1 or claim 2, characterized in that the buffers 44 , 44 '. , .) Pneumatic cylinders with adjustable spring force. 4. System for measuring the wall thickness of glass containers according to claim 3, characterized characterized that the pneumatic cylinder at a common pressure container.   5. System for measuring the wall thickness of glass containers according to one of claims 1 to 4, characterized in that the buffers ( 44 , 44 '...) On a common carrier ( 42 ) with the possibility of changing the distance between the buffers ( 44 , 44 '...) Are stored. 6. System for measuring the wall thickness of glass containers according to one of claims 1 to 5, characterized by a drive belt ( 321 ), the surface of which comes into active engagement with the glass containers ( 21 ') is roughened. 7. System for measuring the wall thickness of glass containers according to one of claims 1 to 5, characterized by a drive belt ( 321 ), the surface of which comes into active engagement with the glass containers ( 21 ') is covered with foam. 8. System for measuring the wall thickness of glass containers according to one of claims 1 to 7, characterized in that the measuring head ( 312 ) with at least one over the length of the measuring head ( 312 ) extending, resilient strip of rubber or the like ( 314 ) Projection is assigned over the measuring strips ( 313 , 313 '...) Projecting from one another from the front of the measuring head ( 312 ) at a distance from one another.