I love that a software upgrade can increase productivity - not just on your computer but your printer as well. Check out this video showing how the latest software upgrades for HP SitePrint can elevate your site layout process. Another advantage of partnering with HP Construction Services. #HPSitePrint#SitePrint
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Next generation of construction layout⁉️
Robot-powered tools for the modern construction workforce…#BIM driven layout
✅ Lay Out Up To 10x faster than traditional methods & eliminate rework
✅ reduce schedule time
✅ rework costs through accurate, full-scale floor layout
✅ autonomously print a full-scale model onto the construction surface
❓How tidy has the side to be so the robot can move
Helping framers build precise walls 📐 ✅ and avoiding rework with real-time printing directly from the cloud BIM 🖥️
By Dusty Robotics, source: Bashar Audi#robotics#construction#automationAlfredo Pastor TellaMathias BehounekMarco PrueglmeierGérôme Stemmer
The Joint Jogger function in NX Mechatronics Concept Designer (NX-MCD) provides an intuitive way for designers to control and position robotic systems. By allowing direct manipulation of each joint within a robot's kinematic structure, the Joint Jogger offers precise control over the robot’s movement. Designers can easily rotate or translate joints to specific angles or positions, making it simple to fine-tune the robot's posture for various tasks. This hands-on control not only speeds up the design process but also enhances the accuracy of robotic simulations, ensuring that robots will perform as intended in real-world applications.
In addition to improving efficiency, the Joint Jogger function enables designers to visualize and validate robotic motion in real-time. As they adjust the joints, they can immediately see the effects on the robot's overall configuration, making it easier to identify and correct potential issues. This interactive approach is particularly useful when working on complex robotic systems with multiple degrees of freedom, where small adjustments can have significant impacts on the robot's behavior. By streamlining the process of positioning and configuring robots, the Joint Jogger function in NX-MCD helps designers create more reliable and optimized robotic systems.
Visit our website to explore our PLM solutions and inquire about scheduling a test drive today!
https://lnkd.in/gFD_r3Bs#APS#Siemens#Innovation#Engineering#NX-MCD #Mechatronics#VirtualCommissioning#Simulation#MachineSimulation#Roboticshttps://lnkd.in/gezJh2vW
Siemens NX-MCD stands at the forefront of innovation in the realm of virtual commissioning, showcasing remarkable capabilities in robotics integration and pick-and-place operations seamlessly fused with advanced vision inspection technology. This cutting-edge software solution enables engineers to simulate and validate complex manufacturing processes with unparalleled precision and efficiency. With its robust robotics integration, NX-MCD empowers users to design, program, and optimize robotic systems for diverse industrial applications, ensuring seamless interaction and synchronization between robotic components and other machinery. Moreover, the incorporation of vision inspection cameras adds a layer of sophistication, allowing for real-time monitoring and quality control during the pick-and-place operations. By seamlessly integrating these technologies, Siemens NX-MCD not only streamlines the commissioning process but also enhances productivity and quality assurance in manufacturing environments.
One of the standout features of Siemens NX-MCD is its ability to capture and save images during simulation, providing invaluable insights and data for analysis and optimization. This functionality revolutionizes the virtual commissioning process, enabling engineers to visualize and evaluate the performance of robotic systems and pick-and-place operations with unprecedented clarity. By recording and storing images at key stages of the simulation, users can identify potential bottlenecks, fine-tune parameters, and refine algorithms to optimize efficiency and accuracy. Furthermore, this image capture capability facilitates comprehensive documentation and analysis, enabling continuous improvement and knowledge sharing across teams. In essence, Siemens NX-MCD not only revolutionizes virtual commissioning but also sets a new standard for innovation and excellence in the field of manufacturing simulation and automation.
Visit our website to explore our PLM solutions and inquire about scheduling a test drive today!
https://lnkd.in/gFD_r3Bs#APS#Siemens#Innovation#Engineering#NX-MCD #Mechatronics#VirtualCommisioning#Simulation#VisionInspection#VisionSimulationhttps://lnkd.in/gpKUSz4Q
👉 Introducing: The FX10 - Markforged's fifth generation industrial printer 💥
The most versatile tool for the factory floor. Built on years of Markforged innovation to deliver strong and precise carbon fiber parts, the FX10 is a highly automated platform with a modular architecture designed for now and the future.
With built-in quality assurance sensors in a modular architecture and automated print routines, the FX10 takes your production to a new level.
With the same process security and reliability, the FX10 produces all components even faster and larger.
✅ Vacuum-sealed print bed
✅ The heated build chamber (up to 60℃)
✅ Turbo mode (twice as fast as the X7).
✅ Build volume of 375mm x 300mm x 300mm.
✅ Material drawer
✅ Precise movement system
Learn more about FX10 here: https://lnkd.in/evudE7-z#3dprinting#3dprintingtechnology#additivemanufacturing#innovation#mechanical engineering #additivemanufacturing#robotics#supplychain#markforged
📃Scientific paper: Design Considerations for 3RRR Parallel Robots with Lightweight,
Approximate Static-Balancing
Abstract:
Balancing parallel robots throughout their workspace while avoiding the use
of balancing masses and respecting design practicality constraints is
difficult.
Medical robots demand such compact and lightweight designs.
This
paper considers the difficult task of achieving optimal approximate balancing
of a parallel robot throughout a desired task-based dexterous workspace using
balancing springs only.
While it is possible to achieve perfect balancing in a
path, only approximate balancing may be achieved without the addition of
balancing masses.
Design considerations for optimal robot base placement and
the effects of placement of torsional balancing springs are presented.
Using a
modal representation for the balancing torque requirements, we use recent
results on the design of wire-wrapped cam mechanisms to achieve balancing
throughout a task-based workspace.
A simulation study shows that robot base
placement can have a detrimental effect on the attainability of a practical
design solution for static balancing.
We also show that optimal balancing using
torsional springs is best achieved when all springs are at the actuated joints
and that the wire-wrapped cam design can significantly improve the performance
of static balancing.
The methodology presented in this paper provides practical
design solutions that yield simple, lightweight and compact designs suitable
for medical applications where such traits are paramount.
Discover the rest of the scientific article on es/iode ➡️https://etcse.fr/9ze
Siemens NX-MCD is a powerhouse software solution that redefines the landscape of virtual commissioning, showcasing its prowess in seamlessly integrating robotics into manufacturing processes. With its advanced capabilities, NX-MCD enables engineers to simulate and validate intricate robotic systems with unparalleled accuracy and efficiency. A standout feature is its seamless compatibility with robot joint control, allowing for precise programming and optimization of robotic movements within the NX environment. Engineers can seamlessly design, simulate, and validate complex robotic workflows, ensuring seamless interaction between KUKA robots and other machinery. This integration not only streamlines the commissioning process but also empowers manufacturers to achieve optimal performance and productivity in their operations.
The incorporation of robot joint control within Siemens NX-MCD opens up a realm of possibilities for engineers and manufacturers alike. By leveraging the power of virtual commissioning, users can fine-tune robot movements, optimize trajectories, and identify potential issues before deployment, ultimately reducing time-to-market and minimizing costly errors. Moreover, the intuitive interface of NX-MCD simplifies the programming and simulation process, allowing users to focus on refining their robotic workflows for maximum efficiency and precision. With Siemens NX-MCD, the future of manufacturing is within reach, where virtual commissioning with KUKA robot joint control sets new standards of innovation and excellence in the industry.
Visit our website to explore our PLM solutions and inquire about scheduling a test drive today!
https://lnkd.in/gFD_r3Bs#APS#Siemens#Innovation#Engineering#NX-MCD #Mechatronics#VirtualCommisioning#Simulation#Robotics#KukaRobot#Automation#RobotControlhttps://lnkd.in/gXCJge-Y
Precision Testing with the igus GmbH DLE-RG-001 Linear Robot 🤖
In this application, the room linear robot, the DLE-RG-001, takes center stage in conducting crucial tests on printed circuit board components. What sets this robot apart is its extraordinary precision, boasting a remarkable repeat accuracy of 0.2mm.
The DLE-RG-001 ensures that each part is meticulously inspected, contributing to the overall quality and reliability of the printed circuit board. Its ability to consistently achieve such high levels of accuracy underscores its importance in modern manufacturing processes.
Would you like to find out more about new partners, products or automation solutions? Then subscribe now to our monthly newsletter with lots of exciting information about robotics. Link in the first comment.
#rbtx#lowcostrobotics#automation#igus#linearrobot
Discover the robot here:
https://hubs.ly/Q02j6TmM0
🚀 Pioneering Precision in Industrial Automation: NACHI's Cutting-Edge FPC Solution 🤖
At NACHI, innovation knows no bounds! 🌟
Introducing our revolutionary system equipped with a dual camera setup that mimics the human eye. 📸👁️🗨️
Imagine a robot that not only "sees" Flexible Printed Circuits (FPC) but understands them with astonishing accuracy.
Our dual-camera technology perceives FPCs just like the human eye does, and here's where the magic happens. 🎩✨
Based on real-time feedback from its vision, the robot fine-tunes its movements to achieve flawless FPC connection—continuously self-correcting to perfection. 🤖🔄
No more errors, no more guesswork—just seamless, precise automation that raises the bar in industrial innovation.
When we talk about pioneering advancements in industrial automation, we mean it.
Watch the video below to witness NACHI's system in action, setting new standards for precision, reliability, and efficiency. 🔗📹
Join us in reshaping the future of manufacturing. 🏭🌐
Let's embrace the power of technology and take industrial automation to unprecedented heights together.
#nachi#industrialautomation#technologyrevolution#precisionengineering#futureofmanufacturing#robotics#fpc#revolution