Gasketing, bonding and potting with the dynamicLine
The high-performance mixing head is based on over 40 years of experience in multi-component low-pressure metering and features a unique valve technology. Functions such as rinsing of the mixing system with water as standard, without the need for a environmentally harmful solvent, controlled opening and closing of the mixing system, and high-precision metering are setting new standards in the market.
Your partnership with DOPAG
- One contact for the entire system solution: from the dynamic mixing head and automation to service
- Competent support, design and process automation
- A dedicated technical centre for testing and customer training
- Contract production: sampling, prototypes, small volumes and large-scale production
- Close collaboration and regular communication with material manufacturers
- Decades of experience in metering and mixing technology
- Global distribution and service in over 40 countries
The new dynamic mixing system guarantees accurate results
DynamicLine was developed for the precise processing of highly reactive gasketing, adhesives and pottingcompounds based on polyurethane and silicone – especially when rapid mixing and application are required. Depending on the application, one of the two processes below is used in gasketing.
FIPFG: formed-in-place foam gaskets
When gasketing with FIPFG technology, reactive polymer materials are metered precisely, mixed andthen automatically applied on a component along a contour or a level surface. After a certain reaction timedependent on the material and other factors (temperature, humidity), the material foams up and bonds firmlyto the component. Foam gasketing has many advantages compared to cut or manually applied gasketing.The start and end point of the gasket are connected practically seamlessly. They bond without any additionaladhesive tape and there is considerably less waste.
FIPG: formed-in-place gaskets
DynamicLine is also perfect for FIPG (formed-in-place gaskets). Here, non-foaming, highly reactive sealingsystems that cannot be processed using a static mixing system are metered, mixed and applied.
Dynamic Mixing System for Gasketing/FIPFG
With the dynamicLine, DOPAG offers an efficient solution for series production of PU foam gaskets in all industries.
For the automated application of PU gaskets to control cabinet doors, DOPAG provides a dynamic mixing system in combination with a linear robot and shuttle sliding tables.
With the dynamicLine from DOPAG, customers will be able to implement gasketing and bonding applications with just one system.
Order your FIPFG sample card for free
Would you like to convince yourself of the quality of our PU gaskets? We would be pleased to send you a sample card with an exemplary applied PU gasket. The foam bead was applied with our dynamic mixing head. In combination with a linear or industrial robot it forms the dynamicLine - the efficient and reliable solution from DOPAG for gasketing using the FIPFG process (Formed-In-Place-Foam-Gasket).
Convince yourself of the quality of our dynamicLine!
Order your free FIPFG sample card now:
Phone: +49 621 3705-500
For efficient production processes
With dynamicLine, all production steps are not only reproducible, but also cost-efficient in particular. DynamicLine offers numerous benefits compared to manually applied or inserted gasketing. The automated production enables shorter cycle times, while the potential for error is very low. The high precision of dynamicLine also ensures a high level of reproducibility. Compared to punched or cut gasketing, foam gasketing is significantly more cost-efficient and higher in quality. There is also practically no waste and the system is rinsed only with water, with no need for solvent. This ensures an overall more sustainable production process.
Bonding and potting applications are also cost-effective and efficient with dynamicLine. Various automation modules, such as a linear robot and shuttle sliding tables or a 6-axle articulated robot, ensure rapid handling of components and enable short cycle times.