Abstract: Apparatus for inspecting non-round annular containers includes elongated capacitive sensors, cooperating oscillators, which convert the sensor signal to a voltage corresponding thereto, and an electronic processor which receives the voltage and determines thickness. A displaceable electromechanical member is operatively associated with the sensor and emits an electrical signal corresponding to the degree of displacement of the sensor by a container being inspected. The electronic processor corrects the thickness determination by an adjustment of container diameter at the specific location where thickness is being monitored in order to compensate for container diameter variations due to the non-round characteristic of the container. In a preferred embodiment, linkage members secured to the rear of the sensor at a plurality of locations cooperate with a single displaceable element which converts the mechanical displacement of the sensor into a corresponding electrical signal.

Abstract: Apparatus and method are provided for inspecting finish dimensions of and detecting finish defects on containers moving sequentially in a predetermined path. More than one container can be inspected simultaneously. The apparatus includes one or more inspection gauges suspended above the container path. A transport system is provided for aiding in moving containers through the gauges and simultaneously axially rotating the containers about a vertical axis. Rotation of the containers allows the inspection gauges to inspect the entire circumference of the containers at one or more levels on the container simultaneously. Defective containers are detected when the relative separation distance between the gauge plates of the inspection gauge falls outside predetermined limits. If a defective container is detected, a rejection assembly may be activated to physically remove the defective container from the container path.

Abstract: Apparatus for measuring or monitoring the diameter of rod-shaped workpieces comprises two driven and interdigitating pinion rollers for rotating the workpiece about its longitudinal axis and at least one pair of mutually opposite measuring gages adapted to be urged against the workpiece and connected to an electronic evaluating device. To permit a rapid measurement of the workpieces which is independent of the attention and carefulness of an operator, the workpiece is fed via an inclined trough to the pinion rollers so that the workpiece engages an axial stop. The workpiece is then urged against the pinion rolls by a pressure-applying roller, which is radially movable into and out of engagement with the workpiece. By spring force and/or a pressure fluid the measuring gages are jointly moved into and out of engagement with the workpiece when the latter lies on the pinion rolls and is axially located by the axial stop.

Abstract: The present invention relates to inspection devices for containers such as glass bottles. In prior art inspection devices, it has been a problem to automatically inspect bottles with concave side panels for sunken or bulged panels. The present invention provides an inspection device (10) that includes an optical gauging device (24) for automatically gauging the side panels of a container (74); and a digital signal actuates an ejector actuator (54) for ejecting defective bottles from a conveyor (12). The optical gauging device (26) includes a light beam detector (28), and a transducer (30) that is optically interposed between a light source (48) and a photoelectric sensor (50) of the light beam detector (28). The transducer (30) is connected to a mechanical contactor (32) that is actuated into contact with a concave side panel either with or without stopping movement of the conveyor. Principle uses include inspection of flat and concave side panels of glass bottles and other containers.