Assembly & handling

To streamline the production of COVID-19 test kits, automated assembly of the tests is necessary. The test kits consist of several components. To automate their assembly, the rotation direction as well as the prone/ spine position of the individual parts must be determined. Only then can the kits be correctly assembled by the machine.

In electronics manufacturing, printed circuit boards (PCBs) are often fastened automatically by robots—for example, in control units, battery packs, or other assemblies. To ensure precision and reliability, the robot needs accurate information about the PCB's position and the exact location of each screw hole. A vision sensor handles this task by confirming the PCB is correctly positioned and providing the robot with precise screw point coordinates.

The upper part of the housing must be screwed to the lower part of the housing. To do this, the sensor must detect the position of the screw holes in the housing top.

In the production of electronic components, components must be screwed together. Automating this process helps screw as many components as possible in the shortest time without compromising quality. To achieve a short cycle time, screwing operations are performed continuously while components move along the conveyor belt, ensuring a fast and efficient process

This process requires millimetre precision so that no spreading or smearing occurs when dispensing lubricants. Lubricant must be accurately applied in sufficient quantity to guarantee proper functioning. If too much lubricant is dispensed, malfunctions will occur.

The quantity of screws required for battery pack assembly is stored in a bunker feed system  and fed from there to the screwing systems accordingly. For smooth production, it is important that misaligned screws are detected by the sensor and only those in the correct position are fed to the screwing system.

In many applications, connector harnesses with colour-coded pin positions are used to make electrical connections between different components.

During the assembly and production of electronic parts, connectors must be attached to printed circuit boards, and wires or cables are inserted in the connectors. The aim of the application is to check whether a connector has been fully inserted into the socket.

During final product control, it is to be checked that the products have a uniform appearance. The aim of the application is to guarantee the correct position of adhesive labels on packaging so that the products appear identical on the sales shelf.

Vibration spiral conveyors can be used for sorting, conveying and transporting a wide variety of small parts and connecting elements.
Springs, screws, nuts, pins, washers, caps and special elements are sorted and made available for automatic further processing. Different batches with different springs can be processed in a vibratory bowl feeder. Getting the wrong springs down the line will result in rejects and/or machine damage. A vision sensor is used to ensure that the correct spring type is fed.

During final product control it is checked that the products are correctly sealed. The aim of this application is to check that closures are fully sealed so that products cannot leak during transport. 

On many PCBs, thermal paste ensures optimal heat transfer between electronic components and a heat sink. Incorrect application of thermal paste can lead to damage to the components. To prevent this risk, a camera should check the thermal paste for presence, position and correct geometry.

Detection of Wooden Panels for Precision Drill Automation

Furniture production often requires drilling numerous holes in different types of wooden panels. To automate this process, the exact positioning of the wooden panels must be accurately identified.

One task in industrial automation is the detection of platelets using an optical sensor. The flakes can be metallic and shiny or black and highly light-absorbing.

The quantity of screws required for battery pack assembly is stored in a bunker feed system and fed from there to the screwing systems individually. For subsequent control of the correct position of the screws , they must be detected at a specific position in the feed system in order to provide a trigger signal.

In modern manufacturing, the need for seamless component traceability (Track-and-Trace) continues to grow. Data Matrix Codes (DMCs) have emerged as one of the most reliable methods for identification and traceability. The goal is to scan the Data Matrix Code on each component, guaranteeing precise product processing and flawless serial number management.

A large number of screws are processed during the assembly of a battery pack. Bunker feed systems are used to stock these screws. In order to avoid an interruption in production, it is important to be informed in good time that screws need to be replenished.

In car door seal production seals of various lengths must be handled with precision. To ensure correct placement, each seal is guided along a conveyor belt. During transport, the end of the seal must be detected so the conveyor can stop at the exact position for the next step. An optical sensor is required to identify the end of the seal in continuous operation and send a signal to the conveyor belt to stop at the correct position. Once the seal is correctly positioned, it can move on to the next production step.

Components for the production process are supplied in load carriers.  The challenge is to position the load carriers as precisely as possible, as this is imperative for a stable, robot-aided handling process. 

During assembly, it is frequently necessary to align two metal sheets as close as possible in the joining process in order to guarantee a good weld seam. The aim of the application is to determine the gap between two metal sheets and to transfer the measured value to the control system. 

Punched, milled or cut holes in metal sheets are checked for dimensional accuracy during assembly. 

High precision is of utmost importance during the application of lubricant. However slight irregularities may occasionally occur, which can compromise the production process. It is therefore important to detect potential errors at an early stage.

In electronics manufacturing, processes often require the handling of very delicate or particularly small components. When placing a control chip, as in this example, no gripper errors may occur, as damage must be avoided under all circumstances.

Painting is an important step in automobile production, which not only fulfills aesthetic but also functional aspects. In this step, the body of the vehicle is coated with paint. An important part of the overall process is the position control of the various body parts after drying with the help of an optical sensor. To do this, all car body components such as the bonnet, trunk lid, and doors must be closed in order to move on to the next step, the assembly.

The battery modules must be screwed into the lower part of the housing. The screw holes are usually located under mechanical devices, which in turn have an opening. The sensor is to be used to detect the position of the screw holes underneath.

During the assembly, packaging and production processes in different sectors, parts must be collected from trays for individual work steps. 

Automated storage and retrieval systems (AS/RS) are essential to today’s high-efficiency intralogistics operations. They enable fast, organized storage and retrieval while maximizing the use of available space. Goods are stored in containers or bins within compact compartments to streamline logistics and increase throughput.
To ensure smooth and error-free operation, these systems depend on accurate compartment positioning and reliable occupancy monitoring. Without proper detection, collisions and storage errors can occur. That’s why a robust optical sensor is needed to determine whether a compartment is empty, partially filled, or fully occupied, helping maintain a safe and efficient material flow.

Bauteile sollen mithilfe eines Doppelgreifers aus einer Maschine entnommen werden. Lichttaster sind erforderlich, um die Anwesenheit der Teile zuverlässig an den Roboter zu signalisieren. Bei einem Greifprozess muss überprüft werden, ob das Objekt korrekt gegriffen wurde. Beim Ablegen kann es vorkommen, dass das Objekt am Greifer hängen bleibt und der Roboter beim nächsten Greifprozess einen Crash fährt. Es werden also zwei Schaltpunkte benötigt. Ein Schaltpunkt, um den korrekten Sitz zu prüfen und ein Schaltpunk, um zu prüfen, ob der Greifer leer ist.

When assembling vehicles, sheet metal parts and / or plastic parts must be connected to one another. These are often assembled with clips which the parts are screwed or plugged together.

In production, components, e.g. sheet metal parts, must be identified. During assembly processes, there is a risk of mixing up similar components. The identification of an incorrect part after installation can have costly consequences

In production, components must be identified. There is a risk of confusion between similar components during assembly. High costs can be incurred if the wrong component is identified after installation.

In glass manufacturing and processing, glass sheets or components often need to be transferred between production steps using robotic handling. To ensure error-free operation, the robot must verify the presence of the transparent glass before each move, which requires a dependable sensor solution.

Almost every electrical component has plug connections with pins. During production, these pins can be bent or incorrectly positioned due to various influences, such as mechanical stress. This can lead to damage to the component. Therefore, careful inspection of the pins for early detection of possible damage is important.

For correct downstream assembly, rollers—such as those from roller or storage boxes—must enter the vibratory conveyor in the proper orientation. If a roller is misaligned, a sensor must reliably detect it and trigger an automatic return to the bunker via reverse air blast.

Millions of objects move along conveyor belts every day, advancing to the next processing step. Before downstream operations can begin, it must first be confirmed that an object is present on the workpiece carrier. A sensor is needed to reliably perform this presence check and keep production lines running smoothly. 

In addition to materials being fed in universal load carriers, high flexibility can be achieved by using a bulk storage bin with a vibrating feeder arrangement. This is particularly suited to transporting small parts, such as mechanical components either plastic or metal.

Utilizing robotic assistance, AGVs can be automatically refueled or recharged. The robot will dock the charging system or fuel port to the AGV, streamlining the process.

A robot is tasked with performing various processing steps on a battery pack, which is transported into the processing cell by an AGV

When screwing the outer casing of the cordless screwdriver together, several parameters must be observed – from the order of the screws to the different tightening torque for the individual screws. The varied positions at which the parts are fed complicates the process step even further.

The flexible use of mobile robots is an attractive solution for machine tending processes. Yet this flexibility can cause robot positions to be comparatively imprecise.

In the production process for transparent films, the films are transported from one station to the next using roller conveyor belts. Optical sensors are used to verify the presence of the films in order to initiate the next production step.

A robot is tasked with picking components from a flexible feeding platform. The position of the objects may vary. A vision sensor can identify and relay the exact position of the part to the robot.

In the manufacturing process of transparent films transported on roller conveyor belts, it is crucial to use optical sensors to verify the presence of the films before initiating the next step in production.

Throughout the production process, a large quantity of data is generated that has to be monitored and checked. The operator must be able to consult, manage and evaluate this data easily in order to identify and implement any necessary modifications to the process.