By working closely with Kunststoff-Zentrum SKZ KTT GmbH, precision sensor manufacturer Micro-Epsilon has developed an inline, non-contact temperature measurement solution for the quality control of injection moulding machines.

Micro-Epsilon’s thermoIMAGER TIM thermal imaging camera is installed in the injection moulding machine in order to detect defective parts. The camera uses the thermal radiation from the workpiece to detect not only visual faults, but also hidden defects within the material itself.

In addition to Micro-Epsilon’s operating software, SKZ also developed control software designed specifically for plastics processing, which visualises the workpiece and compares this to an infrared reference image. SKZ has integrated the thermal camera into the injection-moulding machine to enable users to control and automatically remove any defective parts. The system also ensures rapid, secure machine changeovers, as any newly produced parts are evaluated immediately after changing the mould tools. This continuous quality control is useful to automotive suppliers, where the value of injection-moulded parts increases by several hundred percent as the parts are processed.

Powered and operated via a USB 2.0 interface, the thermoIMAGER TIM 160 is an inline radiometric thermal imaging camera that provides temperature images and profiles of a target area. This plug-and-play unit comes with a full software package (included in the unit price), that enables the user to configure all the parameters of the device, as well as enabling the real time capture and storage of images or video.

Micro-Epsilon’s latest addition to the range is the thermoIMAGER TIM 400 and 450 inline infrared thermal imagers. These cameras capture and store thermal video and images with optical resolution (382 x 288 pixels) at a full frame rate of 80Hz. The cameras are equipped with new detectors, which provide excellent thermal sensitivities. This enables the cameras to detect even smaller changes in temperature.

Micro-Epsilon

T: 0151 355 6070

www.micro-epsilon.co.uk