Bin Picking industrial robotics application

Bin Picking
for automated exact object positioning

Recognize and remove

Robots perform increasingly complex tasks. Despite all the automation, there are still situations in modern-day production where it is more economical to load boxes or crates haphazardly than to invest time and manpower in loading them neatly. This, however, only shifts the problem from one end of the production line to the other. After all, you still need to unload the chaotically loaded objects and send them to the next station for processing. This takes manpower unless the work is done by singulators such as vibratory bowl feeders.

Interaction between Robots and Camera technology

BIN PICKING is a technology in which a robot, equipped with a 3D camera, takes parts out of a container filled with unorganized, often irregularly shaped pieces and aligns them properly before sending them to the next station. The challenge is to process differently shaped objects held in containers in an entirely random order.

Blumenbecker is a pioneer in this field, specializing in the development of sensor systems for industrial robots and the design of special gripping tools.

Your advantages

  • Precision of part detection is +/-2mm with size of bin 1200x800x500. In case of smaller bin, precision is better, in case of larger bin its worse. 
  • Cycle time is 8-25 seconds. Cycle time will be shorter if we can pick part from bin and directly deliver part to another process. If it’s needed to grab part from another side or rescan part for better identification, cycle time will increase. 
  • One bin picking solution can handle more parts. Gripper of robot might be designed to handle more types of parts or gripper can be exchangeable. 
  • There could be also two bins with two robots under one longer camera portal. These robots could handle different parts. 
  • It’s possible to pick parts also from conveyor belts. 
  • Robot collision free trajectory is computed for entire robot path in advance.

Task areas of the robot application Bin Picking Bin Picking basically involves five tasks:

  1. OBJECT IDENTIFICATION– selecting the right measurement method, camera technology and resolution for different lighting conditions and component surfaces.
  2. OBJECT POSITIONS: Identifying the right algorithms for finding object positions in three dimensions.
  3. MOVEMENT: Identifying the right algorithms for finding object positions in three dimensions.
  4. GRIPPERS: Designing component-specific grippers.
  5. SOLUTION PACKAGE: Combining all these elements into one functioning robotunit.

Vendor-independent solutions from Blumenbecker

One challenge in BIN PICKING is that a vast amount of data must be processed in real time. For example, the robot must identify the part from a vast collection of 3D data. Then, a calculation method is needed to guide the robot axes and the gripper to the selected point. The robot axes can perform various movement sequences in order to reach the desired component. Some sequences, however, would result in a collision with the bin. Blumenbecker has developed a proprietary solution that, before starting a movement sequence, checks for collision hazards, calculates alternatives and then provides a corrected path for the robot system.

Blumenbecker supplies sensors and software supported by all types of robots, but also has its own design department to develop and build the required grippers.

Our services

Consulting

We take time for you

At the start of our relationship, we conduct an in-depth consultation to analyze your requirements of your pallitizing solution and identify any areas with potential for improvement. Next, we design and configure the robot palletizing station to meet your requirements while maximizing their value to you.

Design and planning

End-to-end design - more than hardware

We design not only your specific solution, but also its integration into your production process. This gives you planning certainty at an early stage. Equipped with the latest 3D design software, our engineers will expertly plan and simulate your robot workstations and robot cells.

Feasibility tests

We perform extensive feasibility tests on our equipment. That means we review the machine’s estimated duty cycle in practice and verify that the handling process will not damage your product.

Programming

More than code
We program robots, sensors and PLCs with state-of-the-art software. This includes designing robot work cells in 3D as well as conducting offline simulations prior to production. With this approach, we can design and test production processes in a dynamic 3D environment, define and validate production process sequences with realistic behaviours and optimized cycle times and simulate the initial start-up of production systems. Manufacturing schemes are tested virtually in advance in order to eliminate design flaws early on and verify information flows between the PLC and the robots. All these preparations get your system up and running much sooner.

Our wide-ranging experience in robot programming gives us the tools to tackle complex automation challenges in industrial facilities around the globe.

Learn more about programming

Installation and dismantling

Assembly in the field of industrial robotics requires a high degree of expertise and flexibility. Our large team of skilled workers, masters, technicians and engineers takes care of your needs. If required, we also dismantle or replace your old systems.

Commissioning

End-to-end project management up to commissioning
We will assign you a project manager to coordinate your project from consultation to implementation and beyond. Our experts will install and commission your system under the project manager's supervision.

They monitor the start-up process, test availability and optimize processes to quickly integrate the equipment into your production process. Our services include shift supervision by our engineers as well as operator and maintenance technician training.

Gripper construction

Standard robot grippers often aren’t suited for special applications. Recognising this fact, Blumenbecker set up dedicated design departments early on to develop custom robot end effectors for customers. Today, we have designers working at several different locations to develop the grippers that specific tasks require.

Gripper manufacture

We don’t just design special robot end effectors; we build them, too. That makes us a one-stop shop for robot applications built from components carefully selected and designed to interoperate perfectly. We provide reliable 24/7 after-sales service for our grippers, too.

After-sales service

Keeping everything running smoothly

Our end-to-end service approach ensures high customer satisfaction and excellent machine performance. If you wish, we can provide comprehensive after-sales service for our robotics solutions all over the world. We not only perform routine maintenance, but also supply parts and accessories for mechanical and electrical systems and reprogram or modify machines as required.

Our skilled technicians perform routine maintenance on robots – whether we supplied and installed them or not. We act as a KUKA System Partner in this capacity, for example.

Our services include:

  • Regularly maintaining robots
  • Supplying and installing spare parts
  • Modifying robot designs and features
  • Reprogramming and retooling

Training

We share our knowledge
We offer training and further education courses at training centres in Prague, Bratislava, Katowice, Kiev and Iserlohn to help our customers get the most out of their robotics solutions. Robots are installed in the classrooms to aid learning.

We teach well over 100 courses each year on topics such as: 

  • General operator training for the installed system
  • Robot maintenance training
  • Robot programming training
  • Software training for Blumenbecker robot software

You need an individual solution and professional advice?