Of course we only manufacture Industry 4.0 ready machines and machinery. We have implemented our pre-installed data aggregation platform in our machinery. It is also available for installations on existing machinery. In addition, we can create the data distribution network both in the cloud and in the office, near the company datacenter, so that your system can query the aggregate data of our system via MySql without having to spend many resources to recover realtime data from production. , or, in cases where only visual analysis of the data graphs is required for immediate reading, it is possible to use the control panel which is complete with functions suitable for the purpose such as 2D and 3D graphs of various types. Through our panel in addition it is possible to make all those operating adjustments of the line that do not affect the safety functions. We also have 3D graphics operation simulation software for our palletizing machine. It is planned to extend the functionality of the simulation and programming platform to all the robots we are going to produce. We are working to be able to apply artificial intelligence to our control and programming software in order to make the creation of robot work tasks that normally requires programming with cam software or on board the machine with gcode language much simpler, more intuitive and faster.
Certainly we can carry out research and development for particular customer needs, as long as it is possible to use our robots or others proposed by us. For us, research and development is an enrichment in terms of skills that otherwise we could hardly acquire. So if you have a research and development project for problems related to your production, do not hesitate to contact us.
We can make packaging lines. For the machines that create the packaging, unless it is possible to create it with our robots, we buy machines with proven experience also from outside the EU area. We then take care of adding the devices we produce and our robots by supplying a complete, documented line with warranty and assistance - spare parts. Often the spare parts come from our workshops even if they are purchased machines, this with a view to continuity (we know that after 10 years many manufacturers no longer make spare parts available even in shorter times).
Our job is to provide complete palletizing lines. We produce the palletizing robot, the conveyor belts or roller conveyors, the general control panel. Any machines for forming the boxes or closing the boxes are purchased and arranged in line according to the project. And for filling the boxes? This is why we normally use delta robots of the K1 series, but sometimes the Krv4 multi-tool palletizer can both fill the boxes and put them on the pallets. We also use other robots to fill the boxes. For wrapping the pallet with stretch film we offer excellent machines with low costs.
It would take too long to fully answer this question. But perhaps a concise answer is possible: we don't buy and install robots, WE REALIZE THEM FROM ZERO. We can therefore modify or customize every single component and movement if the customer or the project makes it necessary. All software in use, such as those for vision systems, motion control, data analysis, interfaces and others, with the exception of on-board PLCs, is made by us. Written in standardard languages, for the most part in C / C ++, it is easy to maintain, update and customize, which we are used to doing for each new customer.
we approximate a lot to explain better: a vision system is composed of a sensor (camera of various nature) that collects the light and an intelligent logic (pc) with algorithms that allow to filter and process the received light. To understand the paths of light on your objects, think of making the cameras of flashlights: everything that your flashlights illuminate the camera can collect, everything that your flashlight does not illuminate or worse puts in the shadows, cannot be collected and processed. These are essential physical limits of vision systems, while on the software side, everything is possible.
we approximate a lot to explain better: a vision system is composed of a sensor (camera of various nature) that collects the light and an intelligent logic (pc) with algorithms that allow to filter and process the received light. To understand the paths of light on your objects, think of making the cameras of flashlights: everything that your flashlights illuminate the camera can collect, everything that your flashlight does not illuminate or worse puts in the shadows, cannot be collected and processed. These are essential physical limits of vision systems, while on the software side, everything is possible.
we approximate a lot to explain better: a vision system is composed of a sensor (camera of various nature) that collects the light and an intelligent logic (pc) with algorithms that allow to filter and process the received light. To understand the paths of light on your objects, think of making the cameras of flashlights: everything that your flashlights illuminate the camera can collect, everything that your flashlight does not illuminate or worse puts in the shadows, cannot be collected and processed. These are essential physical limits of vision systems, while on the software side, everything is possible.
we approximate a lot to explain better: a vision system is composed of a sensor (camera of various nature) that collects the light and an intelligent logic (pc) with algorithms that allow to filter and process the received light. To understand the paths of light on your objects, think of making the cameras of flashlights: everything that your flashlights illuminate the camera can collect, everything that your flashlight does not illuminate or worse puts in the shadows, cannot be collected and processed. These are essential physical limits of vision systems, while on the software side, everything is possible.
we approximate a lot to explain better: a vision system is composed of a sensor (camera of various nature) that collects the light and an intelligent logic (pc) with algorithms that allow to filter and process the received light. To understand the paths of light on your objects, think of making the cameras of flashlights: everything that your flashlights illuminate the camera can collect, everything that your flashlight does not illuminate or worse puts in the shadows, cannot be collected and processed. These are essential physical limits of vision systems, while on the software side, everything is possible.
we approximate a lot to explain better: a vision system is composed of a sensor (camera of various nature) that collects the light and an intelligent logic (pc) with algorithms that allow to filter and process the received light. To understand the paths of light on your objects, think of making the cameras of flashlights: everything that your flashlights illuminate the camera can collect, everything that your flashlight does not illuminate or worse puts in the shadows, cannot be collected and processed. These are essential physical limits of vision systems, while on the software side, everything is possible.