Cognex ID Readers – the right mix for complete part traceability

By deploying the DataMan 7500, DataMan 100 ID Readers as well as the In-Sight 5110 vision systems from Cognex, Borg Warner Turbo Systems in Germany took the quality control of their turbocharger production in a new direction. When they implemented a traceability project with a principal objective of using Cognex ID Readers – the DataMan 7500 and the DataMan 100 - to identify the individual code on a component they were able to create seamless traceability through the production process and beyond.

Tracking 3.5 million products…
Some 3.5 million turbochargers a year leave the BorgWarner Turbo Systems production plant every year. More than 2,000 staff look after products, markets and development. In early 2006, an innovative team of specialists first launched their data traceability project with the aim of tracking data using core assembly coding. The core assembly is the first production state of the turbocharger and it is to this that all remaining components are fitted.  Turbochargers are the small power stations which have advanced the diesel engine more than almost any other technology, especially in cars. Being exposed to temperatures of up to 1050 °C and pressures of up to three bar, perfect production quality is essential.  One of the project objectives was to use Cognex ID Readers – the DataMan 7500 and the DataMan 100 - to identify the individual code on a component. After several test runs, it was decided to use an adhesive label with a 2D matrix code printed on it so components could be coded quickly and easily. Also - the code can easily be read, even when dirty.

Cost saving traceability
From the first steps of assembling parts to the final inspection, all important production parameters are detected, inspected and the results stored in the central database at BorgWarner for further processing. This not only minimizes errors in production, but if defects were subsequently detected, the data biography of the turbocharger reconstructs the production conditions preventing any future disputes arising from claims by automotive manufacturers and limiting the investigation to a minimal number of items. The constant validation of these steps using data already collected from prior steps likewise contributes to error prevention, making the data traceability system a proactive tool. This represents an enormous cost saving to the automotive supplier.

Read every code at any stage…
A PC is installed at every workstation and at each one, operators use the DataMan 7500 to scan the code. The data created can then be accurately assigned to the current core assembly.  The data system specifies working steps and inspection criteria and once work is complete, decides whether to approve the component.  At another point, the DataMan 100 inspects the operational balance to ensure that the turbocharger is guaranteed to run concentrically.

… even in tough production conditions
Finally the turbo charger rating plates are marked with a Data Matrix code in accordance with the customer classification.  Within a fraction of a second, a Cognex In-Sight 5110 tests the Data Matrix code for code quality so that even after the adhesive labels have been destroyed by thermal action during production, the setting and assembly values detected can still be linked to the turbo charger number via the database years after it was manufactured.

Reading and verification of codes

Automotive parts : signed, sealed and delivered with 100% traceability

Being one of the biggest constructers and suppliers of automotive parts, Borg Warner cannot afford to make mistakes. They needed to guarantee the quality of a new high added value component and to be able to trace the product from cradle to grave.

They decided to turn to Cognex whose vision sensors already figure on many of their production lines and machines. The resulting project was directed by Alema Automation, a Cognex Partner System Integrator (PSI) for the south west of France.

The challenge: Each piece needs to be marked, the precision and quality of the marking needs to be verified. Finally, it needs to be confirmed that each piece has gone through the necessary quality and safety controls before being delivered.
The solution: VisionPro from Cognex along with the In-Sight 5110, Cognex Partner Product ESO’CR from Esox, another Cognex PSI as well as micro percussion marking machines from Technifor, another trusted partner of Cognex.

Marked for Life
Once off the production line each piece is marked with micro percussion: 2 lines of alphanumerical characters indicating the product reference, the batch number, the team identity and the manufacturing date.

Following this a first vision station consisting of an 8500 card and VisionPro (the library of vision tools from Cognex), reads the characters thanks to the software ESO’CR. The information is then transferred to a Technifor engraver who converts them to Datamatrix and this code is marked on the other side of the piece. The ESO’CR software has proved to be of added value to the automobile industry. It has allowed us to stay within our budget and our time frame.” Explained Olivier Skalinski, project leader at Alema.

In order to avoid any error and to guarantee the staying power of the marking, an In-Sight 5110, installed beside the micro percussion machine, verifies the content and the quality of the marking.

How can you be sure that each piece has been inspected?
Once marked, the piece then undergoes a series of hydraulic testing with 8 points of inspection. Once out of the testing phase, the piece then passes to a second In-Sight 5110 vision station where it needs to be established that the piece has successfully undergone all the necessary tests. Not an easy task.

Reliable reading regardless of the environment
The pieces that arrive at the second vision post may be dry and clean or they may still be oily from the testing process. Despite the fact that the lighting and legibility conditions are completely different to those of the first reading station, the In-Sight 5110 is perfectly capable of reading the code on each piece without any extra configuration.

Alema was also obliged to take up another challenge: ensure that the In-Sight can communicate with the factory data base containing the results of the testing phase. Alema developed a unique interface with this in mind enabling In-Sight to deliver a verdict for each piece: suitable (or not) for delivery.

Faulty pieces which are reparable are sent back to be fixed while the pieces that have been successfully checked and verified are directed to the packaging zone. For maximum security, Alema has installed a third In-Sight 5110 system at the entrance to the packaging area, which performs a final check and verification of the piece.

Record timing
The application has been developed and installed by Alema in record time: 2 days to confirm that the system worked correctly on prototype pieces, then one week to install at the factory site, including personnel training in use and maintenance.

A winning combination
The robustness of the In-Sight vision sensors, their ability to cope with environmental changes in lighting and position allowed for the same material to be used on different work posts and also allowed Borg Warner to greatly reduce the amount of spare part stock kept at hand.

Another benefit, was the commitment of Alema Automation to the project in its entirety, (reading, marking and verification) thus avoiding any conflicts of interest between different suppliers.

“Thanks to the comprehensive nature of the Cognex solution and to their partner network, we have a high performance, cost-effective solution at our disposal” concluded Stéphane Laval at Borg Warner..

Following the success of this solution, Borg Warner aims to adapt other production lines and deploy the same solution in order to optimise this traceability throughout their production processes.

Optimised inspection means complete product confidence

Optimised inspection means complete product confidence

When SAT needed to improve quality control and eliminate defects, they turned to Primeconcept, a Cognex vision partner who helped them to deploy DVT vision sensors on their production lines. With fully automated stamping lines and quality control machines –inspection using vision systems for material and for stamped parts is essential.

SAT, an Italian company based in Sicily and in Morocco, has been producing mechanical parts for the automotive industry since 1983. In 1985 the company diversified into producing lead frames for electronic devices for the electronics and automotive industry and in 2007 founded their specialist tool making department. Their speciality knowledge plus their highly trained staff makes SAT a valued, strategic supplier of global industries and their major players. Important international customers with applications in automotive, consumer and telecommunications rely on SAT to supply lead frames, plates for electronic engines, crimps and lugs (used for electrical connectors) and spare parts for stamping tools for design and construction.

SAT can’t afford to disappoint their customers, who have important applications in the automotive, consumer and telecommunications sectors among others and rely upon SAT products to be in perfect condition.

SAT had tried vision systems before. Having experimented with several suppliers, it was only when Primeconcept, a trusted Cognex partner, recommended DVT vision systems from Cognex that they found the solution they were looking for.

Cognex vision systems provided the necessary range of vision tools for SAT’s varied applications.  After testing, they found that the Cognex products guaranteed them reliable inspection and solutions at a lower overall cost even when considering installation, system set-up and maintenance.

A reliable, fast solution
Prior to installing Cognex vision sensors, SAT relied on the press operator to carry out the visual inspection. As well as this a statistical control was performed using a profile projector. This last inspection has two disadvantages when compared with using a vision system. Firstly, being statistical, it is time consuming and secondly it uses up valuable human resources.

Inspect surfaces, dimensions, positions while maintaining a high production turnover
DVT cameras are installed along the automated line that is stamping lead frames at a speed of up to 600 strokes per minute. The DVT range provides different models which are used in this application at various points. The DVT cameras, depending on the type of the defect, can manage the scrap of the defective pieces, or in the worst case, stop the line alerting the operator.

The DVT 540 is used to perform all the feasibility study on new products, as well as for dimensional inspection after the stamping tool and before the packaging line.

The DVT 554C is used for inspection of dimension and the positioning of plated areas and the DVT 552C is deployed to ensure there are no oxidation stains or plating blurs.

They are also now capable of performing complete surface inspection of 64 HiQuad lead frames, a complicated package for applications in the automotive industry.

In this application the vision systems treat up to 700 images per minute with a minimum dimension FOV of 14×10.5mm and a maximum dimension FOV of 60×45 mm allowing SAT to maintain their maintain a fast lead frame production line with high turnover dedicated to mass production.

Benefits and results – satisfied customers, optimised resources
SAT has been able to achieve an almost zero rate of rejected pieces while maintaining fast lead frame production. This has meant improved customer relations, reduced customer support. As well as this they have been able to optimise their use of human resources.

About SAT Group
SAT, an Italian company based in Sicily and in Morocco, has been producing mechanical parts for the automotive industry since 1983. In 1985 the company diversified into producing lead frames for electronic devices for the electronics and automotive industry and in 2007 founded their specialist toll making department. Their speciality knowledge plus their highly trained staff makes SAT a valued, strategic supplier of global industries and their major players. Important international customers with applications in automotive, consumer and telecommunications rely on SAT to supply lead frames, plates for electronic engines, crimps and lugs (used for electrical connectors) and spare parts for stamping tools for design and construction.

About Primeconcept
Primeconcept is specialized in hi-tech solutions for industrial automation. We are partner of global leading manufacturers like Cognex, for whom we work as distributor and automation solution provider. Our main commitment consists of offering reliable products and support services to our customers.
We use to give priority to technological innovation, but we only deal with products which may guarantee long-term robustness and availability. At Primeconcept we cooperate with a qualified network of partners and system integrators to supply our customers with tailored turnkey solutions. We base our job on a deep know-how of factory automation processes and expert personnel, able to support our customers during any step of a project deployment, taking special care to minimize time-to-market. Our staff involves both sales and technical engineers with over 20 years collective machine vision experience, especially on Cognex Vision systems.

Quality control and assembly verification for automotive lines using Vision Sensors

Cognex vision standard solution on automotive assembly lines

For ThyssenKrupp Krause GmbH based in Bremen, Germany , a company competing on a global scale, using vision to optimise quality control throughout the production line creates key advantages in terms of quality and cost-efficiency.

The company has a successful track record as a supplier of complex automation technology developing and manufacturing assembly lines for the automotive industry. Thyssen knew they would have to create an added value on their production lines in order to satisfy their customers and maintain global success. They decided to turn to vision technology. Why did they choose Cognex as their supplier?

Quality comes first: a chain is only as strong as its weakest link
The automotive industry and its suppliers have strict requirements with respect to the reliability, cost-efficiency and quality of production facilities. If recommending the integration of technologies such as vision to the production line from the start, ThyssenKrupp needs to be sure that the quality control they are deploying down the line is 100% reliable. The result is an optimised quality assurance system throughout the assembly line (Integrated Quality Assurance, IQA) which integrates relevant company communication and database management. Based on the idea that “a chain is only as strong as its weakest link”, the IQA requirements are very strict.

Vision technology has become a central element of the quality assurance system and an important factor in the optimisation of different production steps.
When choosing a vision supplier ThyssenKrupp Krause wanted to satisfy 3 major criteria:
-100% reliable vision tools and algorithms
-User-friendly operation and installation
-Quality, global technical support

Cognex vision: the global solution
When they chose Cognex, the company found a globally-oriented partner who was able to meet these requirements far more effectively than any competitors. “This company has already installed hundreds of thousands of systems throughout the world, is extremely experienced and offers an highly efficient international support program”, notes Dr. Trittin, who was involved in the decision to select Cognex as a supplier.

Six years of successful vision solutions and more to come
Between 2001 and the end of 2006, more than 320 vision sensors from the In-Sight product family and around 24 PC-based systems with VisionPro were integrated at the Bremen site. In 2007 alone, the Bremen site will have installed a total of 120 In-Sight sensors. For example, several in-Sight vision sensors are placed on robotic arms on the assembly line in order to verify engine motor assembly.

Why does this company place so much trust in one single supplier of vision sensors?

A vision solution for any application in challenging industrial environments
Complex production lines demand a wide range of vision tasks to be reliably carried out. These tasks are largely concerned with quality control. The working environment can prove challenging and so robust vision systems that could withstand variable lighting conditions or a dusty atmosphere were required. Cognex can supply a reliable vision solution for almost any task based on their library of vision tools including powerful software such as PatMax™. PatMax is integrated into both the new In-Sight vision sensors and PC-based VisionPro systems. PatMax uses the basic geometric structures of objects such as edges, dimensions, shapes, angles, curves and shading to localise them. By analysing the geometrical data of features and their spatial relationship to each other Patmax can define the position of an object while coping with changes in the position, orientation or scale. Other Cognex vision tools are based on this technology including PatInspect™ , PatFlex™ and OCVMax™ - a system for advanced character verification. This base of proven, precision tools are part of a range of Cognex products guaranteeing advantages that are easy for the customers of ThyssenKrupp Krause to understand.

Product-focused flexibility
ThyssenKrupp needs be able to accommodate the wide variety of different product models manufactured by their customers. Therefore the vision system must also be flexible. The company maintains an in-house vision laboratory where staff produce feasibility studies and develop solutions for difficult tasks that require advanced vision applications. Throughout the process chain, all vision applications are connected as part of the quality assurance system allowing requirements for complete traceability to be met. Product traceability is, however, only one part of the quality management system. 2D code readers are used on a production line to trace which part was installed while other readers are used to determine the correct part for assembly. For example, injection pumps of a particular kind are matched to the corresponding injection nozzle control module. This prevents production errors further down the production line.

Ease-of use
Staff at the plant are not machine vision experts. The vision systems must therefore be easy to operate. Cognex applications and their parameters can be easily adapted by means of simple set-up. The development environment is intuitive and the vision tools are integrated with the production controllers. The In-Sight Explorer development environment is a reliable, convenient solution for programming networks of vision sensors and integrating them into the automation process and into company communications. The fact that they communicate via an integrated Ethernet interface makes them easy to use and is familiar ground for users.

A global network
Customers of ThyssenKrupp Krause are based all over the world and may also have subsidiaries in different countries. It is not uncommon to have a system integrator working on site. As a result, the global aspect and easy integration of the vision system supplier is critical. Cognex has a diverse network of system integrators based all around the world adding security to a customer investment and ensuring the same vision hardware and software products are used everywhere. Components can be replaced at any time improving flexibility and cost-efficiency.

Building on vision success: next stop – aircraft assembly
Cognex vision products are now standard offerings on all assembly lines delivered to customers. Thanks to their experience in developing complete production lines with IQA for the automotive industry ThyssenKrupp Krause now intends to use its expertise and technical capabilities in other industries. For a year, the company has been working on projects for the aviation industry with the aim of developing production lines for the complete assembly of aircraft segments. The integration of a quality management system and the corresponding organisational structures are also important factors. The company has also developed and produced complete systems for logistics companies which are able to carry out fully automated unloading of containers.

Defect-free parts in 360 degrees

A demanding market place needs the right vision systems for quality inspection
Meccancotecnica Umbra manufactures seals for pumps for the circulation of the anti-freeze liquid in combustion motors. The production cycle runs at about 3 turns per every 8 hours. The automotive sector is a demanding one. Parts destined for the marketplace need to be 100% without defect and capable of standing up to difficult working environments. Meccanotecnica Umbra realised that they needed a reliable and confirmed quality control solution for the inspection of their parts while in the production phase. After trying various vision suppliers they finally found the solution they needed in the In-Sight 5000 range from Cognex.

The search for the right vision solution
In the automotive sector every component must be capable of withstanding difficult environmental conditions (vibrations, variations in temperature, wind, rain, etc.) Generally different types of pump are used which need to support about 3 bars worth of pressure in order to guarantee the perfect workings of the entire vehicle.  So, it makes sense that manufacturers would seek a top of the range quality inspection before the pieces leave the factory floor.  Meccancotecnica Umbra decided to use a vision sensor in order to satisfy the demanding standards of quality required by the market.

Having chosen a particular vision company they started testing vision sensors. After an initial testing phase it was necessary to admit that for various reasons including system limitations and a lack of support from the supplier led to it never getting past the testing phase. The quality inspection of the production cycle was thus continued manually by personnel with all of the limitations this kind of manual inspection can imply.

In-Sight 5400 for the inspection of automotive components
Luckily, soon after, technical experts at Meccancotecnica participated in a Cognex vision seminar and afterward explained their requirements to Cognex asking for a feasibility study for a potential project for quality inspection to check each product passing through their production lines. The solution was developed by TEC, a partner system integrator (PSI) of Cognex for central Italy. The PSI network is specially selected and trained by Cognex to deliver turnkey solutions for vision and identification applications. They proposed they use the In-Sight 5400 from Cognex as well as 2 Cognex In-Sight 5401 readers.

Every seal; depending on the type and the dimension, is made up of 9 components of a different nature such as carbon, steel springs, silicon, etc. which are then mechanically assembled on an automated line.  After the assembly phase, before the pieces are sent to be stacked for distribution, they are sent to 3 different inspection stations.

A 360° inspection in just a few seconds
At the first inspection station, an In-Sight 5400, takes 24 snapshots of each fully rotating piece in only 2 seconds in order to verify the external profile of the seal in a complete 360° inspection.

The second inspection post continues the inspection of the still rotating piece using ten snapshots learned by the camera checking the surfaces of the various parts that make up the seal and verifying their functional aspects.

The third station performs 2 inspections on the seal which is no longer rotating. In the first, the internal part of the same seal is inspected in about 250 milliseconds and in the second, it is checked whether the product is properly stamped with the model number, the lot number, the company logo and the production date. This is done in less then 600 milliseconds.

Quickly installed and easy to use
The application was developed and installed by TEC in record time; in only 20 days it had been confirmed that the system was capable of working correctly on the prototypes. The installation in the factory was done within a week plus the time it took for the training of the personnel in the use and maintenance of the entire system.

In-Sight readers for optimal production inspection
The reliability of the In-Sight vision systems, their capacity to adapt to the varying environmental conditions as well as the powerful vision tools available for Cognex vision sensors allowed TEC to establish a long lasting relationship with the client.  Considering the advantages, Meccanotecnica has already shown their intention to adopt similar solutions to optimise the quality of other productive processes.
About Meccanotecnica
Meccanotecnica Umbra was founded in 1966 and in October 1992 took the legal form of a joint stock company.  Since its conception, its production has been based almost exclusively on the manufacture of mechanical face seals for electro-pumps, initially for home appliances and for diverse and light industrial appliances. A few years later, MTU entered into the automotive field, manufacturing seals for pumps for the circulation of the anti-freeze liquid in combustion motors. The development of the company over time has been characterised by the continuous growth of its production and exports. For several years, the percentage of exports has been around 40% of total revenues, distributed throughout 50 countries, where high-level competitive recognition was attained for the products in an increasingly global market.

New In-Sight Micro boosts automotive suppliers’ production

New In-Sight Micro boosts automotive suppliers’ production

…. “Using the new Cognex In-Sight Micro vision sensor with its compact size and high performance, has ensured our customer can build their parts safe in the knowledge that there will be no product defects due to appliqué clipping.”  Visteon, based in Portugal, is using the new In-Sight Micro from Cognex as recommended and installed by Cognex specialist partner integrator Alphr Technology, based in the UK, to optimize the production of automotive control panels.

Wanted – pinpoint precision Visteon is a leading supplier to the top automotive manufacturers in the world. With their business covering a number of key areas including Climate Control, Electronics, Interiors and Lighting, there is no room for error in product delivery. Amongst an impressive product range within their electronics business, Visteon supplies instrument panels for many executive car models across Europe. One vital element of the panel involves the appliqué, a plastic sheet incorporating the speedo and tacho markings. Each appliqué must be clipped into position with pinpoint precision; otherwise the vibration from driving the car could make the appliqué move, resulting in the incorrect speed and revs being shown.

High volume production requires a powerful vision solution
To ensure accurate assembly verification, it was time to bring in a powerful vision system which could not only could cope with Visteon’s high-volume panel production but also fit within the confines of the allocated space.

The partner of choice
Ensuring the most capable and cost-effective vision system would be used; Visteon called upon its trusted vision technology supplier Alphr Technology Ltd. Based in the UK, Alphr Technology has been working with Visteon for a number of years and had previously installed similar lines at their plant in Portugal, as well as other factories across Hungary, Mexico and India. Offering a complete solution, Alphr would design, build, programme and retro-fit the system on-site at their facility in Portugal.

Precision inspection with the In-Sight Micro
Having assessed the project requirements, Alphr selected Cognex’s brand new high-performance In-Sight® Micro to achieve the required inspection rates. Launched earlier this year and measuring just 30mm x 30mm x 60mm, the In-Sight Micro is a unique and powerful vision system, specifically designed to offer outstanding performance as well as fit within confined areas, a common issue in many production facilities.

This new system would also complement two existing Cognex In-Sight 1000 cameras, successfully inspecting pointer alignment for the speedo, tacho, fuel and temperature gauges on each instrument panel.

The production line
To cope with customer demand, two identical production lines were required, running simultaneously in three x 8 hour shifts, 5 days a week, producing 2000 parts per day. Two In-Sight Micro vision sensors are fitted per production line and are mounted onto a FlexLink frame with LED spot lights mounted alongside the cameras.

Both production lines assemble the PCB with the necessary plastics and LCDs and fully test the parts. Using PatMax®, Cognex’s industry-leading geometric pattern matching technology, the cameras search for two plastic pips positioned at 3 o’clock and 9 o’clock on each appliqué’s white circle. If these pips are obscured, the appliqué is sitting on top of the clip rather than behind it and is therefore not affixed correctly. The power of the PatMax software ensures each feature is located despite any process variation.

Each part is manually loaded onto the rig by an operator and then removed once the inspection is complete. Results are viewed on a PC monitor using a test program written in Visual Basic 6. Failure tickets are printed for the operators and all results are sent to a factory CIM system to monitor performance. Any defective parts are manually removed from the rig, once the operator has pressed the ‘reject acknowledgement’ key.

Success breeds success!
Speed of production has been unaffected despite the new inspection requirement; as the In-Sight Micros inspect each appliqué in a fraction of a second, ensuring production and optimum throughput remains constant. Declan McCabe, Applications Engineer at Alphr Technology was responsible for the electrical design, software development and installation. “Visteon was so impressed with the success of this project; they have requested a quotation for an identical system on another production line.”

Assembly line upgrade boosts profitability

Cognex In-Sight® sensors checking the quality of laser welds at Renault - Sandouville

Cognex Corporation (NASDAQ: CGNX), the world’s leading supplier of vision systems, sensors and bar code readers presents an application of industrial vision in the automobile industry. Operating at Renault’s factory at Sandouville, this application involves checking laser weld imperfections that sometimes cause an assembled vehicle to be sent to the scrapyard. Here is an example of what can be obtained by using industrial vision to do quality checks before adding value to parts on a production line.

The Renault LHA factory is located in the Haute Normandie region, in the town of Sandouville, and more precisely in the port and industrial estate of Le Havre (in the Seine-Maritime Department). This sizeable bodywork-assembly plant is specialised in the manufacture of top-of-the-range vehicles: the Laguna line of automobiles, the Vel Satis and Espace IV. As the main production plant for these vehicles, it occupies a total surface area of 152 hectares, 60 hectares of which is built on, and employs nearly 6000 people.

The site includes four manufacturing departments: pressing, sheet metal, paintwork and assembly, along with eight departments and sections carrying out support functions. The production capacity is 1900 vehicles per day. The Sandouville factory was the Renault Group’s first bodywork-assembly plant to receive ISO 14001* certification in December 1998.

The vision application presented here was set up in the pressing workshop. This workshop produces sheet metal parts that make up the body shell of the vehicles. It mainly comprises cutting lines, assembly and sheet welding points, as well as sheet presses which make up the various bodywork components. The pressing workshop supplies the sheet metal workshop which carries out the assembly of the various parts of the body shell. This then passes on to the paint shop before final assembly.

The vision system installed is designed for checking the right and left sides of the body shell of the Laguna cars. The same installation is therefore able to check four different parts.

Each side of the body shell is made up of two parts which have been assembled by laser welding. It is around the weld that defects can appear and need to be detected. While the various pressing operations – which give the part its shape – are being carried out, clear or partial breaks can be produced. As the parts are stored manually at the end of the line, those parts showing such faults are easy to spot and remove.

It is not so easy to spot when the faults are small holes, some of which can measure less than 3/10th of a millimetre, which form along the bead of the weld. If the presence of these holes is not detected at the end of the line, and if the part is not removed, breaks can be produced during shaping, causing numerous problems which can have serious effects on the productivity of the assembly line. Sometimes minute holes are enough to give the bodywork an unsightly appearance after the paintwork has been done.

If these defects are not detected before the vehicle is assembled, the consequences can be financially very expensive as it is very difficult to repair…and sometimes there is no other choice but to send the chassis to the scrapyard.

Checking the welding was previously done by several operators who had to struggle to handle parts of a considerable size and weight: the sides of the body shell measure around 3.4 metres in length, 1.6 metres wide and weigh nearly 30kg. To carry out the operation, they used to place a light source on one side of the part and check from the other side that the light did not pass through, showing breaks or holes in the part. This form of control, even when it was done in the optimum way, cannot highlight holes of a very small diameter.

Numerous defective parts passed through these checks, so a solution had to be found which was capable of putting a stop to this situation while carrying out a continual and reliable check of the lower body shells.

At Renault Sandouville, Patrice Dumont is the Automated Systems Manager. He is part of the DIVD (the decentralised vehicle engineering department) Pressing Section, attached to the Renault Technocentre at Saint Quentin in Yvelines.

Some time before, Patrice Dumont had the opportunity to attend a seminar given by the machine vision company: Cognex. He realised that vision systems, which are used widely in industry were a better alternative to other control procedures, and that they could be the solution to the problem. They reduce the difficulty of certain tasks that are normally carried out by operators. Not being affected by tiredness like the human eye, they continually work guaranteeing quality and improving productivity.

Patrice Dumont decided to evaluate a solution based on industrial vision systems and an integrator of the Renault Sandouville factory was called in. It was necessary to be sure that this type of check could be suitably carried out with a vision system and a prototype could be quickly produced for a first test. Several vision systems manufacturers were called upon. Cognex was the most reactive, and it was the In-Sight® vision sensors range which were chosen for the operation.

In July 2002 the prototype was tested. The trials proved very conclusive: the tests carried out were 100% correct. The Cognex In-Sight vision sensors detected all the faults. Terms and Conditions were drawn up and a first test bench was ordered. It was specified that the system should be capable of detecting holes with a diameter of 3/10th of a millimetre. In reality, the system would demonstrate that it could do better than that.

The first test bench was put into service around mid-2003. A second test bench, with smaller dimensions, was ordered later for checking the side frames of several vehicles (Laguna, Vel Satis and Espace) on another line. Each test bench has 4 Cognex In-Sight vision sensors.

The body shell side test bench

The first test bench is a metal frame around 5 metres long and 2 metres wide, weighing 5 tonnes, with a 5cm thick platform holding the structures on which the parts to be checked are placed, along with a backlighting system with LED indicators. The test bench was put in place by a bridge at the end of the pressing line each time the manufacture of the Laguna lower body shell is started up.

Four Cognex In-Sight 1000 cameras, each placed in protective casing, are positioned at the top, over the platform, on the cross support beam. A control screen is fixed on one side of the test bench, in a box where the control system is also installed. A marking system for defective parts is fitted at the other end.

The parts to be checked – body shell sides – measure around 3.4 metres long, 1.6 metres wide, and weigh nearly 30kg. They are put onto the supports provided for this purpose on the test bench by a robot. There are two areas to be checked. The target areas measure approximately 10 centimetres in length, by 5 centimetres wide, with a covering. Two of the cameras are inclined at 45 °, the part forming a U-shape over the welded area.

The cameras are able to detect very low light levels coming from the backlighting system and passing through any holes, some of which are only a tenth of a millimetre in diameter.

If the part is declared sound, this is displayed on the control screen. If the part is defective, it is also displayed on the screen, a red light comes on at the end of the line for each fault, and finally, the part is marked by a jet of ink which stops it from being used.

The speed of the control carried out on the line was a determining factor of the project: all the operations – positioning the part, capture and analysis of the image, detection and marking could not reduce the production rate in any case. At this stage, the Cognex systems proved their worth: the production rate specified in the Terms and Conditions was 900 parts per hour; the current production rate is 420 parts per hour for the body shell sides and 850 parts per hour for the side frames.

The system is connected to a PC fitted with a hard drive for saving the photos of the defective parts detected over one year. This procedure allows the problems encountered to be analysed at a later date; it contributes in ensuring the traceability of parts and for monitoring the various shifts (days, hours, cameras 1 and 2…).

Simplicity of operation

The aim of this project was to find a method and a system for automating the checking of welds. The principle of the checks relies on the backlighting of the area to be inspected. Resorting to a camera for seeing if rays of light cross through the welded area was logical. However, in order to “industrialise” the solution, there were still several points to be checked: firstly that the tools for processing the images acquired were efficient enough – i.e. precise and reliable – to recognise all the types of faults, including those difficult to detect with the naked eye, and secondly to carry out a 100% check without reducing the speed of production.

“We had to teach the system what faults were to be identified”, stated Patrice Dumont. “That was done progressively, at the same time that we were familiarising ourselves with the system. Once the system had memorised the type of fault, the recognition rate was 99.99%”, he added.

The main concern which had to be overcome concerned the ambient lighting. Because of the existing lighting in the workshop, the layout of the area (glazed surfaces) and the orientation, reflections appearing on the parts occasionally disrupted the operation and showed faults…which were nonexistent. Placing curtains at the end of the line resolved this problem.

The welding checks are now carried out reliably on the whole production (body shell sides and side frames). With the fault recognition rate obtained, the defective parts are very quickly identified and removed at the end of the pressing line. “An end to the time when entire body shells had to be sent to the scrapyard”, stated Patrice Dumont. “The savings made at this stage alone fully justify the investment. The fact that the vision control point is shared by four parts also contributes to the increase in its profitability.”

This method of checking welds with industrial vision tools is of interest to other sites and is likely to be brought into general use. A patent has been registered covering the principle used.

Assembly verification with vision guided robotics

Automobile assembly time reduced by 20% with In-Sight

When they decided to implement a vision guided robot solution based on In-Sight™ vision technology from Cognex, S.A.P. reduced assembly time for an important automotive client by 20%. Cognex distributor Edge Vision recommended In-Sight as a robust solution for their client. Since 1980, S.A.P. (Sistemas Automatizacion Procesos, S.L.) in Barcelona., has been providing solutions and components for the automatisation of industrial processes. With customized facilities the company is in a position to provide “turn-key” solutions such as robotic applications and the resolution of complex problems guaranteeing maximum reliability.

The challenge : 1 automotive part - 70 different points for inspection

SAP found themselves faced with a quality control challenge. One of their automotive customers needed a special machine for the assembly and inspection of certain part for a van. The part concerned resembles an iron tube and is a key element of the internal structure of the van containing 70 different points of inspection such a welded nuts, screws and holes. The industrial environment concerned would be dusty and oily with variable lighting and many of the parts to be inspected were also liable to be oily and dirty which would make them difficult to find and reliably inspect. S.A.P. turned to Edge Vision, a Cognex distributor, seeking a robust and reliable solution. Edge Vision decided on the In-Sight range of vision systems, fully robust and capable of handling an instable and variable operating environment

Take a robot and give it “eyes”

Edge Vision, a Cognex distributor decided to install a vision guided robotic solution. They placed an In-Sight 5100 at the end of the arm of a robot. The position of each point to be inspected is communicated to the robot. The robot « learns » the route to follow and inspects all points using the In-Sight 5100 as « eyes » . Points to be checked include welded nuts, holes, and screws. Cognex vision tool, Patmax™ proved essential. This powerful algorithm, unique to the In-Sight product range played a vital role in part localisation under such conditions. Information is communicated to a user-friendly PC interface. Progress can be easily monitored and results recorded by the operators.

Result

The usual production and assembly time for this particular van is reduced by 20%. The process has been made a lot safer, more reliable, faster and cost-effective . Previously this would have had to been done mechanically. Plus, In-Sight vision sensors were the only products capable of handling a hostile industrial environment thanks to their robustness. As a result, potential faults down the line are reduced to a minimum preventing future costly product recalls.

David Torres from Edge Vision, had this to say – “By implementing this robotic solution based on In-Sight vision systems from Cognex, our client has been able to reduce production cycle time by 20%, thus saving money and boosting productivity in the same manner. In-Sight will be included as a standard option on their machines from now on.”

Multi-point quality inspection for gearboxes

Top performance Saab Automobile gearboxes profit from automatic inspection using Cognex machine vision sensors

Saab Automobile PowerTrain AB is a subsidiary of Fiat-GM PowerTrain and manufactures gearboxes for worldwide export to GM plants. For over 50 years they have been producing gearboxes for Saab cars and today do so at the rate of 700 units a day. The factory also makes gearboxes for the Opel Vectra, Opel Zafira and for Saturn in the US.

At one time Saab Automobile PowerTrain manually made inspections of the gearboxes before their delivery to customer plants. The manual inspection demanded quality control of 60-70 inspection-points on the gearboxes which was time consuming and not fully reliable. The other disadvantage was that many varieties of gearboxes were being manufactured with very subtle differences between them, which is a big challenge when using manual inspection. Customer demands for shorter and shorter lead times created the need for a more efficient and less time-intensive inspection. It became clear that automatic inspection was necessary in order to guarantee product quality.

40 seconds for complete inspection

A complete multipoint inspection of the 60-70 spots on the gearbox is made in 40 seconds with a vision-equipped robot. This means that several inspections are made per second. For the demanding conditions of the inspection application, Saab selected a solution based on collaboration between Cognex and their Partner System Integrator Svedvision Systems AB. This experienced and highly skilled robotics integrator developed a robot guidance and inspection cell that is perfectly adapted to the specifications of the project and is used for the gearbox application. The choice of suppliers for this solution was easy because it was based on the fact that Cognex and Svedvision have real in-depth knowledge of the automotive industry worldwide. Cognex has been pioneering the vision industry for 24 years and Svedvision Systems AB, founded in1988, have a long history of integrating machine vision.

The PatMax® software featured in VisionPro® (the PC-based development environment from Cognex) was integrated into the platform that handles both the robot and vision using a 3D-measurement unit developed by Svedvision using search, edge and ID-tools.

The application consists of:

• Inspecting all mounting parts that are visible from the outside
• Inspecting hole and screw threading
• Checking mounted screws and that they are fastened on the gearbox
• ID-reading on parts
• Gearbox label verification
• Gearbox ID Verification

No customer complaints in 17 months

“Saab needed to eliminate manual inspection, which is an unreliable solution compared to high-performance automated inspection“ says Ulf Svensson, Group Leader of Manufacturing Engineering Saab Automobile PowerTrain. “Automating the inspection process allows Saab to set a standard and demonstrate that money is being invested on improvements that are in keeping with our customer’s needs. In order to stay competitive we have to ensure increasingly shorter lead times and high-quality performance. It is important that we listen to our customers and be reactive to their concerns.”

Ulf Svensson continues: “Through the application a reliable and robust final inspection system of the gearboxes has been implemented. The inspection system adjusts itself to all types of gearboxes that are produced at this plant. The inspection system has been a good reference in the total quality management program that is implemented by Saab. Thanks to the fully integrated solution proposed by Svedvision Systems and Cognex, all gearboxes delivered are inspected and feature zero defects.”

The result of automating inspection at Saab Automobile PowerTrain AB in Gothenburg, Sweden has been no customer complaints in 17 months. This is virtually unheard of in the automotive industry.

There are other examples of vision use at Saab Automobile Power Train such as a vision system in the assembly department to check that critical parts are mounted. At Saab Automobile PowerTrain AB the automation of production is a reality and it is an important competitive element in this day and age. It is clear that the use of vision to check critical issues will be an efficient alternative to ordinary manual checks in the future.