IDC develops and builds a semi-automatic inspection system for lenses for a Swiss customer. Based on the Keyence VHX video microscope, the specially designed tripod with motorized XY stage and the specially developed software ScanXpro, a complete system for the automatic scanning of substrates up to 300mm is created. The acquired images are stitched together, classified with the IDC software ClassX and documented with a “Visual Inspection Map”.
IDC is responsible for the project of a fully automated inspection system for semiconductor lasers. With two software developers the entire system is set up, the processes defined and put into operation. A second AOI has now been delivered and is supported by IDC.
IDC develops and manufactures OEM modules for punching solder foils (pre-forms) from coils. Several modules are integrated into the OurPlant series micro-assembly system to form a complete power module assembly system: https://haecker-automation.de/en/power-module-assembly/
In the semiconductor industry, new processes are being launched for the production of IGBTs for power modules. IDC develops and builds innovative modules for the company Haecker Automation, which are used as sintering presses up to 10KN and 300°C or as contacting stations for electrical tests.
The ultra-compact design allows the integration of several modules into a micro assembly system of the OurPlant series: https://haecker-automation.de/ourplant/.
Reading and evaluating the labels on tire sidewalls automatically is a challenge. Especially if the tire is not rotating as usual but is transported on a conveyor belt. Different tire sizes and double-sided scanning impose high demands on software and hardware.
IDC develops and builds a prototype for a large logistics center in Switzerland. We have proven the feasibility of this project with a cooperation partner in Switzerland specialized in 3D data acquisition and analysis.
IDC develops and builds its own internal profile grinding machine, which is unique in the world. Internal helical gears can be produced with complicated corrections and highest accuracy. The heart of the machine is the directly driven hollow shaft with a continuous inner diameter of 400mm.
IDC implements a fully automated turnkey machinery for cast part machining in the automotive supplier industry. The concept is based on a double-portal automation system which moves the workpieces to the machining tools on two stations. The milling movement is carried out by the portal, the drilling movement by the tool heads.
IDC implements a turnkey solution for the automatic testing (optical and tactile) of casted parts as well as marking defective parts. In addition to the tactile test, a visual system for optical quality control is used. The system inspects and measures up to two million parts per year.
In the cross to cross stacking of car tires, the space conditions for a gripper system are always very limited. IDC develops a special solution with a super flat gripper for robot systems. The gripper is fixed to the grey flange on a robot. Small retractable clamping jaws grip the tire from the inside outwards.
This men’s jewellery presents itself as an adjustable buckle in combination with an Italian designer shoe. Small parts with sophisticated mechanics coupled with the Swiss designer’s demands make this project sophisticated and unique. IDC transforms the ideas outlined above into a fully-featured CAD model.
IDC develops together with the customer an automation system for highly dynamic processes. Low manufacturing costs for large quantities are key criteria for the conceptual design. With innovative approaches, a system with very few components has been developed.
IDC develops together with the customer a test stand for measuring turbine blades of radial compressors during operation. This system transfers the highest speeds and power to the test item with two opposing flat belts. A robust steel box (shown in gray in the picture) protects against dangerous damage to the test specimens during operation.
System for scanning the environment from a moving train. The main component consists of two high speed spindles that deflect a measuring laser beam radially. During the ride of the train, a virtual tunnel is scanned in 3D. IDC, together with the customer, takes over the development, builds the prototypes and the special spindles required for the rough operating conditions.