Incorporating new layers of capabilities with traditional concepts of six-legged positioning devices allows the Hybrid Hexapod to combine the strengths of dual kinematic architectures to overcome and exceed previous limitations. Traditional hexapod users face restrictions in travel range, speed, and precision – factors that must be optimal to improve production processes and achieve the levels of efficiency and precision demanded by industry today. With the next generation of motion control devices, manufacturers can achieve sub-micron and nano-levels of precision and increased accuracy.
Traditional hexapod structures are based on parallel motion. A hybrid hexapod combines parallel and serial kinematic structures. Rather than using six legs to create motion, it uses a traditional X-Y stage, a tripod, and a rotation stage to provide 6 degrees of freedom (DOF) in the device. The tripod’s parallel kinematic structure delivers Z-plane and tip/tilt motion, which is integrated with a monolithic serial kinematic structure for X- and Y-motion.
“The combination removes previous application limitations and positioning errors synonymous with traditional hexapods,” says Walter Silvesky, vice president of sales at Alio Industries. “With the Hybrid Hexapod, the precision of serial kinematics combined with the flexibility and compactness of a parallel kinematic device allows users to have all of the strengths of a 6DOF hexapod with none of its critical weaknesses. This key differentiator of the Hybrid Hexapod opens the door for using a 6DOF positioner in several applications not previously considered possible. The Hybrid Hexapod is therefore a true blue ocean technology, allowing manufacturers to achieve the impossible and stimulating innovation at every level.”
A 6DOF positioner can move up, down, forward, backward, left, and right, as well as rotate to face a different axis (pitch, yaw, and roll).
The technology’s increased travel range and working envelope create additional capabilities for its use. It can reach speeds of hundreds, or in some cases thousands of millimeters per second with extremely high acceleration. Also, encoders on all axes allow the user to know where each positioning element on the Hybrid Hexapod is at all points at any time.
Tool center points (TCPs) can be reprogrammed while the device is translating and rotating, just by uploading a series of three commands in real-time. The device does not need to restart and recalculate its kinematic space. A motion controller allows users to control the Hybrid Hexapod by using commands to indicate where to move, when to move, and how fast to move.
Changes in TCP locations are also programmed easily through provided codes.
Aerospace users often incorporate the Hybrid Hexapod in metrology systems. In precision optical elements, the tool can characterize, test, or measure optical components and optical subassemblies. In precision assembly applications such as in the joining of optical image stabilization (OIS) modules to ultra-high resolution CCD arrays, the Hybrid Hexapod can serve as the motion device that manipulates the OIS module in 6DOF space in the alignment and bonding process. The high accuracy of the Hybrid Hexapod decreases assembly time as the OIS is properly placed into a package without time-consuming post-alignment measurements and re-alignment steps.
Alio Industries
https://www.alioindustries.com
Color-coded terminal blocks
Expanding the line of Jelly Beans terminal blocks, the JB6 series features thermoplastic terminal blocks in multiple colors for ease in identifying terminations.
Line input 120/220 connections can be made to a white block, while low-voltage connections can be made to a green terminal block.
If more than one type of low voltage control is necessary, other colors can be used.
Additionally, screen printing can be used to mark alphanumeric characters on JB6 series terminal blocks for simple field wiring.
The modular series offers the exact length needed, molded of thermoplastic, and offered with 0.375" centers (9.50mm).
Available colors include white, red, blue, green, orange, yellow, purple, brown, gray, and black. Max. operating temperature range is 130°C.
BlockMaster Electronics Inc.
http://www.blockmaster.com
2-way traction drives
The MAR-17-2-2.1 and the MAR-23-2-2.1 traction drives have six moving parts, use an engineered traction fluid with a coefficient of friction of 0.10 to 0.12, and reduce motor torque ripple up to 84%. The MAR17-2-2.1 traction drive reaches speeds of 3,600rpm with 10 lb-in to 20 lb-in of torque, and the MAR-23-2-2.1 traction drive is rated for 3,600rpm with 20 lb-in to 30 lb-in of torque.
Without metal-to-metal contact these compact, high efficiency drives generate up to 72% less heat after 24 hours of continuous operation. Permanently lubricated traction drives typically last 3x longer than conventional gearboxes, and create up to 38% lower noise at 3,000rpm. There is no slippage or lost motion between the input and output shafts.
Operating at temperatures lower than a motor, with low vibration, and no torque losses from 10rpm to 3,000rpm, the traction drives permit a motor to operate at peak efficiency.
An optional overriding clutch is available. Standard NEMA mounting dimensions lets the drives integrate into new and existing applications.
Rolling Motion Industries
http://www.rmidrive.com
Surface mount power inductors
Suitable for harsh environments, low direct current resistance (DCR), high-current shielded surface mount power inductors operate in temperatures from -55°C to 130°C and are available in inductance values from 2.2µH to 1,000µH. Custom values are available.
They meet mechanical shock, high-frequency vibration, solderability, and moisture resistance per MIL-STD-202, thermal shock per MIL-PRF-27, and SnPb reflow profile per MIL-PRF-83446.
Engineering support is available to assist with design, assembly, and circuit testing. Production lead-time is stock to 12 weeks after the order is received.
API Delevan
http://www.delevan.com
Explore the January February 2019 Issue
Check out more from this issue and find your next story to read.
Latest from Aerospace Manufacturing and Design
- OMIC R&D hosts Supporting Women in Manufacturing Day 2024
- 4D Technology's AccuFiz SWIR interferometer
- Seventh Lockheed Martin-built GPS III satellite launches
- KYOCERA AVX's CR Series high-power chip resistor
- UT researchers receive Air Force grant for wind tunnel
- Monticont's linear voice coil servo motor
- FAA certifies Pratt & Whitney GTF engine to power the Airbus A321XLR
- Wevo's silicone gap filler