Latest Projects
A look inside some of our work - from tailored automation systems built for clients to R&D initiatives developed in-house.
A look inside some of our work - from tailored automation systems built for clients to R&D initiatives developed in-house.
Expanding Fuse 1+ Automation with Optical and Sensor Maintenance
2025
3D Printing Automation
Expanding Fuse 1+ Automation with Optical and Sensor Maintenance
2025
3D Printing Automation
Expanding Fuse 1+ Automation with Optical and Sensor Maintenance
2025
3D Printing Automation
Expanding Fuse 1+ Automation with Optical and Sensor Maintenance
2025
3D Printing Automation
SLS 3D Printing Automation with Formlabs Fuse 1+ 30W
2025
3D Printing Automation
SLS 3D Printing Automation with Formlabs Fuse 1+ 30W
2025
3D Printing Automation
SLS 3D Printing Automation with Formlabs Fuse 1+ 30W
2025
3D Printing Automation
SLS 3D Printing Automation with Formlabs Fuse 1+ 30W
2025
3D Printing Automation
Fully Automated Resin Model Production for Clear Aligner Manufacturing
2025
3D Printing Automation
Robotics
Fully Automated Resin Model Production for Clear Aligner Manufacturing
2025
3D Printing Automation
Robotics
Fully Automated Resin Model Production for Clear Aligner Manufacturing
2025
3D Printing Automation
Robotics
Fully Automated Resin Model Production for Clear Aligner Manufacturing
2025
3D Printing Automation
Robotics
Automated Filament Management for 3D Print Farms
2025
3D Printing Automation
Proof of Concept
Automated Filament Management for 3D Print Farms
2025
3D Printing Automation
Proof of Concept
Automated Filament Management for 3D Print Farms
2025
3D Printing Automation
Proof of Concept
Automated Filament Management for 3D Print Farms
2025
3D Printing Automation
Proof of Concept
Spool Swapping Automation for Lights-Out 3D Print Farms
2025
3D Printing Automation
Proof of Concept
Spool Swapping Automation for Lights-Out 3D Print Farms
2025
3D Printing Automation
Proof of Concept
Spool Swapping Automation for Lights-Out 3D Print Farms
2025
3D Printing Automation
Proof of Concept
Spool Swapping Automation for Lights-Out 3D Print Farms
2025
3D Printing Automation
Proof of Concept
Resin 3D Printing Automation with Formlabs Form 4
2025
3D Printing Automation
Robotics
Resin 3D Printing Automation with Formlabs Form 4
2025
3D Printing Automation
Robotics
Resin 3D Printing Automation with Formlabs Form 4
2025
3D Printing Automation
Robotics
Resin 3D Printing Automation with Formlabs Form 4
2025
3D Printing Automation
Robotics
3D Print Farm Automation
2024
3D Printing Automation
Case Studies
3D Print Farm Automation
2024
3D Printing Automation
Case Studies
3D Print Farm Automation
2024
3D Printing Automation
Case Studies
3D Print Farm Automation
2024
3D Printing Automation
Case Studies
Formlogic: How a Startup Scaled High-Mix CNC with Full Factory Automation
2019
CNC Automation
Case Studies
Custom Workcells
Formlogic: How a Startup Scaled High-Mix CNC with Full Factory Automation
2019
CNC Automation
Case Studies
Custom Workcells
Formlogic: How a Startup Scaled High-Mix CNC with Full Factory Automation
2019
CNC Automation
Case Studies
Custom Workcells
Formlogic: How a Startup Scaled High-Mix CNC with Full Factory Automation
2019
CNC Automation
Case Studies
Custom Workcells
Switzerland’s First Fully Automated Vertical Farm
2019
Case Studies
Robotics
Switzerland’s First Fully Automated Vertical Farm
2019
Case Studies
Robotics
Switzerland’s First Fully Automated Vertical Farm
2019
Case Studies
Robotics
Switzerland’s First Fully Automated Vertical Farm
2019
Case Studies
Robotics
3D Printed Plastic Jaws for Pneumatic Grippers
2018
3D Printing Automation
3D Printed Plastic Jaws for Pneumatic Grippers
2018
3D Printing Automation
3D Printed Plastic Jaws for Pneumatic Grippers
2018
3D Printing Automation
3D Printed Plastic Jaws for Pneumatic Grippers
2018
3D Printing Automation
GOT A QUESTION?
GOT A QUESTION?
GOT A QUESTION?
GOT A QUESTION?
FAQ
We’ve gathered all the important info right here. Explore our FAQs and find the answers you need, or drop us a line.
What does DHR Engineering specialize in?
We design and build custom automation systems for hardware companies — including robotic cells, CNC machine tending, and 3D printer farm automation. Our focus is on scalable, real-world solutions that improve throughput, reduce manual work, and speed up production.
Do you work with early-stage startups or established manufacturers?
Both. We work with different stage VC-backed startups: companies that brainstorm their first automated cell, or scale their first production line or later stage that are building their third factory. We're also working with established manufacturers looking to modernize and automate existing processes.
Can you build custom automation for my specific use case?
Yes. We specialize in custom solutions tailored to your production needs - from robotic CNC machine tending to automated quality assurance and lights-out 3D printing workflows.
What industries do you work with?
We support companies in aerospace, metalworking, 3D printing, casting, robotics and mining - especially those working with complex hardware and short timelines.
Do you integrate with existing machines and software?
Yes. We work with a wide range of equipment and software stacks. Our approach is platform-agnostic — we integrate with what you already have and avoid locking you into rigid ecosystems.
What’s your process for starting a project?
We start with a technical review of your current setup, define clear goals, and propose a phased automation plan. From there, we build and deploy fast, often in short iterations.
How quickly can you deliver an automation system?
It depends on project scope, but most of our automation solutions are designed, built and deployed within 14 weeks. We move fast and build iteratively.
Where is DHR Engineering based and do you work internationally?
We're based in Bulgaria and California and work with clients across U.S. and EU. On-site setup and support are always available within 24 hours for our customers.
What does DHR Engineering specialize in?
We design and build custom automation systems for hardware companies — including robotic cells, CNC machine tending, and 3D printer farm automation. Our focus is on scalable, real-world solutions that improve throughput, reduce manual work, and speed up production.
Do you work with early-stage startups or established manufacturers?
Both. We work with different stage VC-backed startups: companies that brainstorm their first automated cell, or scale their first production line or later stage that are building their third factory. We're also working with established manufacturers looking to modernize and automate existing processes.
Can you build custom automation for my specific use case?
Yes. We specialize in custom solutions tailored to your production needs - from robotic CNC machine tending to automated quality assurance and lights-out 3D printing workflows.
What industries do you work with?
We support companies in aerospace, metalworking, 3D printing, casting, robotics and mining - especially those working with complex hardware and short timelines.
Do you integrate with existing machines and software?
Yes. We work with a wide range of equipment and software stacks. Our approach is platform-agnostic — we integrate with what you already have and avoid locking you into rigid ecosystems.
What’s your process for starting a project?
We start with a technical review of your current setup, define clear goals, and propose a phased automation plan. From there, we build and deploy fast, often in short iterations.
How quickly can you deliver an automation system?
It depends on project scope, but most of our automation solutions are designed, built and deployed within 14 weeks. We move fast and build iteratively.
Where is DHR Engineering based and do you work internationally?
We're based in Bulgaria and California and work with clients across U.S. and EU. On-site setup and support are always available within 24 hours for our customers.
What does DHR Engineering specialize in?
We design and build custom automation systems for hardware companies — including robotic cells, CNC machine tending, and 3D printer farm automation. Our focus is on scalable, real-world solutions that improve throughput, reduce manual work, and speed up production.
Do you work with early-stage startups or established manufacturers?
Both. We work with different stage VC-backed startups: companies that brainstorm their first automated cell, or scale their first production line or later stage that are building their third factory. We're also working with established manufacturers looking to modernize and automate existing processes.
Can you build custom automation for my specific use case?
Yes. We specialize in custom solutions tailored to your production needs - from robotic CNC machine tending to automated quality assurance and lights-out 3D printing workflows.
What industries do you work with?
We support companies in aerospace, metalworking, 3D printing, casting, robotics and mining - especially those working with complex hardware and short timelines.
Do you integrate with existing machines and software?
Yes. We work with a wide range of equipment and software stacks. Our approach is platform-agnostic — we integrate with what you already have and avoid locking you into rigid ecosystems.
What’s your process for starting a project?
We start with a technical review of your current setup, define clear goals, and propose a phased automation plan. From there, we build and deploy fast, often in short iterations.
How quickly can you deliver an automation system?
It depends on project scope, but most of our automation solutions are designed, built and deployed within 14 weeks. We move fast and build iteratively.
Where is DHR Engineering based and do you work internationally?
We're based in Bulgaria and California and work with clients across U.S. and EU. On-site setup and support are always available within 24 hours for our customers.
What does DHR Engineering specialize in?
We design and build custom automation systems for hardware companies — including robotic cells, CNC machine tending, and 3D printer farm automation. Our focus is on scalable, real-world solutions that improve throughput, reduce manual work, and speed up production.
Do you work with early-stage startups or established manufacturers?
Both. We work with different stage VC-backed startups: companies that brainstorm their first automated cell, or scale their first production line or later stage that are building their third factory. We're also working with established manufacturers looking to modernize and automate existing processes.
Can you build custom automation for my specific use case?
Yes. We specialize in custom solutions tailored to your production needs - from robotic CNC machine tending to automated quality assurance and lights-out 3D printing workflows.
What industries do you work with?
We support companies in aerospace, metalworking, 3D printing, casting, robotics and mining - especially those working with complex hardware and short timelines.
Do you integrate with existing machines and software?
Yes. We work with a wide range of equipment and software stacks. Our approach is platform-agnostic — we integrate with what you already have and avoid locking you into rigid ecosystems.
What’s your process for starting a project?
We start with a technical review of your current setup, define clear goals, and propose a phased automation plan. From there, we build and deploy fast, often in short iterations.
How quickly can you deliver an automation system?
It depends on project scope, but most of our automation solutions are designed, built and deployed within 14 weeks. We move fast and build iteratively.
Where is DHR Engineering based and do you work internationally?
We're based in Bulgaria and California and work with clients across U.S. and EU. On-site setup and support are always available within 24 hours for our customers.