Category Archives: Robotics – Components

Motion Control – Electromate extends its product portfolio to include Robots from Mecademic!

Motion Control – Electromate adds Robots from Mecademic!

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Electromate’s new partnership with Mecademic will expand its reach to end users and manufacturers needing ultra compact and precise industrial robots across Canada.

 

 

 

TORONTO, Ontario — Electromate Inc., a leading Canadian Distributor of Precision Robotic & Mechatronic Solutions, today announced a partnership with Mecademic, a Montreal based premier manufacturer of the world’s smallest, most compact, and precise industrial robots.

Motion Control – High Precision, XAB Triple-Axis (2 Goniometers and X-Axis) Stage Available from OES!

Motion Control –  Triple-Axis Stage!

motion control - tri-axis stages


motion control - stages - custom

 

 

 

Van Nuys, CA – — Motion Control – Optimal Engineering Systems, Inc. (OES) offers a very low cost solution for the precise measurement of compound angles or the rotation of an object to precise angular positions.

The XAB-050-XX-01 integrates a two-axis Alpha-Beta goniometer on top of a single-axis linear actuator. The Beta-axis has a travel range of +/- 15 degrees with a rotation height of 50 +/- 0.2 mm.

Motion Control – Integrated Spindle Drive Motor with Absolute Multi-Turn Encoder from JVL is available from Electromate!

Motion Control – Integrated Spindle Drive Motor

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Vaughan, Ontario, Canada — Motion Control Products — JVL A/S, one of the world’s leading producers in the field of integrated servo and stepper motors, is announcing a new addition to its ServoStep™ motors, a directly mountable motor for driving spindles. It’s perfect for replacing hand wheels in format change applications.

All-in-one unit

ServoStep™ has everything built-in including motor, encoder, drive electronics, control electronics with ePLC™ and optional Ethernet or CAN bus integrated into one compact unit.

Linear Motion – Custom Manufacturing Of Complete Systems & Components by LM76!

Linear Motion – LM76 Expands Custom Manufacturing Capabilities!

 

linear Motion - Custom Machined components

Linear Motion - LM76-Pat-Logo-3

LM76 has greatly expanded their capabilities for machining of shafting and the manufacturing of complete systems and custom components.

linear Motion - Factory photos

 

To compliment the expanded manufacturing facility LM76 has developed a State-of-the-Art Inspection Lab as well.

Precision Shafting –

Specifiers can specify custom modifications to shafting …

Linear Motion - Shafting

RC60, 440c, 300 series Stainless Steel, and Ceramic Coated Aluminum, and other exotic materials shafting can be custom drilled, and supplied with custom ends.

For additional information go to:  

http://lm76.com/linear_shafting.htm

 Components, and …

 

Linear Motion - Shafting, Pillow Blocks, Bearings

For additional information go to:  http://www.lm76.com/General%20PDF%20For%20Web_opt(Autosaved)PDF2.pdf

… Complete Motion Control Systems!

 

Linear Motion - Complete Systems

Custom linear motion components and complete custom linear motion systems can be designed and fabricated to meet critical specifications for tooling from Aluminum or Stainless Steel.  Discuss you needs with LM76’s talented engineers for help with any linear motion problem including USDA/FDA applications.

 

For Additional information go to:

http://www.lm76.com/Linear%20Slide%20Catalog%202014.pdf

 

About LM76

Founded in 1976, LM76 has been a leading designer/manufacturer of linear bearings, slides and linear motion systems. LM76 is renowned for its industry leading Minuteman PTFE Composite linear bearings. LM76 is a leading supplier of precision linear shafting: RC60, 300 Series Stainless Steel, and ceramic-coated aluminum shafting. LM76 also offers several FDA/USDA compliant linear bearings and slides for the food processing, pharmaceutical, medical, and packaging industries.

For all of the LM76 Catalogs go to:

http://lm76.com/PDF%20Catalogs.htm

For additional information contact Mike Quinn at: LM76, 140 Industrial Dr., E. Longmeadow, MA 01028; Telephone: 413-525-4166, Fax: 413-525-3735 or E-Mail:mquinn@lm76.com or visit the website at http://www.lm76.com

See this and other Motion Control Components from LM76 featured on:
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Motion Control Application – Intelligent robot systems are increasingly being used in disaster control, rescue missions and salvage operations!

After the severe earthquake in Japan and the subsequent nuclear disaster in Fukushima, Quince managed to reach the upper floors of the ruins of the power plant. There it measured the radioactivity levels and sent HD images to the world outside.

Wherever it is too dangerous for humans. Robots that can look for survivors after an explosion, an earthquake or other natural disasters, providing humans with a view of inaccessible areas. Powerful EC motors from maxon motor give the Japanese rescue robot “Quince” its drive.motion control application robot Quince

 

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Fall River, MA — Motion Control Components Application – Robots that are used in disaster areas have to have a very high level of adaptability. They have to be fairly small, not too heavy and maneuverable enough to get through cracks or narrow spaces to reach areas deep inside a building. Furthermore rough terrain should present no problem. These rescue robots enter and explore buildings to determine if there are gases, radiation or other life-threatening hazards, before human rescue teams can search the area. Quince has proven that it fulfills all these demands. After the severe earthquake in Japan and the subsequent nuclear disaster in Fukushima, Quince managed to reach the upper floors of the ruins of the power plant in June 2011. There it measured the radioactivity levels and sent HD images to the world outside (To see video – CLICK HERE). The robot was able to supply valuable information from areas where no human can set foot.motion control robot goes down stairs

Quince weighs 27 kg and is equipped with four moving caterpillar drives (flippers). These flippers automatically adapt their angular position to the surface underneath – regardless of whether the robot is climbing steep stairs or crossing rough terrain. Correct ground contact is a very important prerequisite. This contact is accurately analyzed by measuring the power consumption of the flipper motors. Furthermore PSD (Position-Sensitive Device) sensors on the front and rear flippers measure the distance to the ground. In addition to a gripper arm (see fig. 2), two laser scanners can also be attached to the robot. These scanners are capable of accurately capturing the structure of the terrain.motion control robot navigates rough terrain

Additionally Quince is equipped with a “bird’s eye camera” and can travel quite fast, at 1.6 meters per second. The operator that controls the robot has to tell it which direction to take, but the robot itself determines the optimal flipper positions for crossing various surfaces, for example stairs. Newer Quince motors have additionally been equipped with a device for collecting radio-active dust or ultra-fine particles, as well as a 3D scanner. To ensure that no robot is lost, a connection to a wireless network is possible, which is the only way to navigate the robot if the connection cable breaks.

The rescue robot was developed by Eiji Koyanagi, Vice-Director of the Chiba Institute of Technology Future Robotics Technology Center (fuRO). Koyanagi started his career as a teacher – at the age of 51, he became a professor. This means that he has a completely different background than other researchers in the field of robotics. Quince has been specially designed for extreme conditions in environments where it would be too dangerous for humans. Therefore its main area of application is disaster areas. “When you develop a robot, you first have to consider the tasks that it will perform later. That is the biggest challenge,” explains Koyanagi. Hitherto eight Quince robots have been built. But before this could be done, all components had to be 100% functional. To this end, various trials were run in the large “Disaster City” training area in College Station, Texas. Quince was the only robot that successfully completed the entire obstacle course at the site as part of a RoboCup contest. In preparation for using the robot inside the Fukushima Daiichi nuclear power plant, several specific customizations were required. “The conditions in the nuclear reactor buildings are very tough. If we had attempted to send Quince in without modifications, it would probably have met its end,” says Koyanagi. Therefore the robot had to be able to survive a fall from approx. 2 m high unscathed, and had to be largely maintenance-free.

Powerful motors to beat every obstacle

Motion Control -Maxon Motors used in robot Quince

Where the motor selection was concerned, fuRO required absolutely reliable drives. The motors have to provide high power and high efficiency, yet be small and light. These requirements were precisely met by maxon motors, explains Koyanagi. Six powerful maxon motors drive the robot. The brushless EC-4pole 30 direct current motors each provide 200 W; two of these have been installed in the two main chains. The powerful 4-pole units give their all when Quince maneuvers its way across uneven terrain. Four additional motors (EC22) drive the moving chain drives (flippers). These can automatically adapt their angular position to the surface below. The 3D scanner unit of Quince is moved to the right position by an RE-max 24. Thanks to the special winding technology and the 4-pole magnets, the maxon EC-4pole drives are unbeatable when it comes to delivering the highest driving power per unit of volume and weight. The motors have no cogging torque, high efficiency, and excellent control dynamics. The metal housing additionally ensures good heat dissipation and mechanical stability. All motors of the chain drives have been combined with the GP32HP (High Power) planetary gearhead with MR encoder. This gearhead was customized by installing a large ball bearing and a reinforced motor shaft. With this power pack, Quince has no trouble managing almost any obstacle.

Contact maxon for more details info@maxonmotorusa.com

Comprehensive documentation and software are included with every delivery, and are also available for you to download from our website at www.maxonmotor.com.

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Motion Control – MGR5 Series Micro Gripper Independently Controlled Jaws Light Force Capability Available from Electromate!

Motion Control - Electromate offers Motion Control Micro Gripper

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Motion Control – A lightweight micro gripper, the MGR5 was designed for small, fragile part assembly. The MGR brings operation force 10 gram or less capability into range. Light moving mass reduces impact force during small product placement.

Vaughan, Ontario, Canada — Motion Control Components –SMAC electric grippers incorporate programmable speeds, positions and forces with data feedback. The ability to independently control each jaw allows precise force control, measurement and positioning. This makes them ideal for a wide range of positioning, measuring, and inspection applications, particularly where 100% verification is required.

MGR5 Specs:

  • Compact and lightweight
  • Light force capability 10g or less
  • Soft-Land capability for pick and place of delicate and fragile parts
  • Each jaw can be independently controlled in force, position and velocity
  • 5 micron linear encoder standard, 1 micron optional

CLICK HERE view a YouTube video on the MGR5: https://youtu.be/xFKf8cvsI3s?list=PLrKivfJ0mSQmipxBvNOFax0cXtwT0s5iZ

CLICK HERE to view the specifications of the MGR5 Series Micro Gripper.

To view Electromate’s new corporate video CLICK HERE

For further information on this new product or others in our extensive product portfolio, call 1-877-SERVO99 (737-8699) or e-mail Warren Osak at sales@electromate.com or visit Electromate at: www.electromate.com

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