Low MOQ for 87391 Swaged Hose Fiting to Gabon Factories
Low MOQ for 87391 Swaged Hose Fiting to Gabon Factories Detail:
90° SAE FLANGE 3000 P.S.I.
|
PART NUMBER |
HOSE | FLANGE | B
mm |
L
mm |
D
mm |
M
mm |
S
mm |
||
| DN | In | SIZE | |||||||
| H873B0 - 10 - 12 | 16 | 5/8″ | 10 | 3/4″ | 18 | 50,9 | 38,1 | 52,8 | 6,73 |
| H873B0 - 12 - 12 | 20 | 3/4″ | 12 | 3/4″ | 18 | 60,1 | 38,1 | 58,4 | 6,73 |
| H873B0 - 12 - 16 | 20 | 3/4″ | 12 | 1″ | 24 | 60,1 | 44,5 | 59,5 | 8 |
| H873B0 - 16 - 16 | 25 | 1″ | 16 | 1″ | 24 | 74,2 | 44,5 | 70,5 | 8 |
| H873B0 - 16 - 20 | 25 | 1″ | 16 | 1.1/4″ | 30 | 74,2 | 50,8 | 72 | 8 |
| H873B0 - 20 - 20 | 32 | 1.1/4″ | 20 | 1.1/4″ | 30 | 90,2 | 50,8 | 79,5 | 8 |
| H873B0 - 20 - 24 | 32 | 1.1/4″ | 20 | 1.1/2″ | 36 | 90,2 | 60,3 | 83 | 8 |
| H873B0 - 24 - 24 | 40 | 1.1/2″ | 24 | 1.1/2″ | 36 | 100,6 | 60,3 | 95 | 8 |
| H873B0 - 24 - 32 | 40 | 1.1/2″ | 24 | 2″ | 48 | 100,6 | 71,4 | 97 | 9,53 |
| H873B0 - 32 - 32 | 50 | 2″ | 32 | 2″ | 48 | 127 | 71,4 | 113,5 | 9,53 |
Product detail pictures:
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Dependable good quality and very good credit score standing are our principles, which will help us at a top-ranking position. Adhering towards the tenet of quality initial, shopper supreme for Low MOQ for 87391 Swaged Hose Fiting to Gabon Factories, The product will supply to all over the world, such as: Czech Republic, Berlin, Mauritius, Our factory insists on the principle of Quality First, Sustainable Development, and takes Honest Business, Mutual Benefits as our developable goal. All members sincerely thanks for all old and new customers' support. We will keep working hard and offering you the highest-quality products and service.Thanks.
We present a novel computational approach to designing robotic devices from high-level motion specifications. Our computational system uses a library of modular components— actuators, mounting brackets, and connectors—to define the space of possible robot designs. The process of creating a new robot begins with a set of input trajectories that specify how its end effectors and/or body should move. By searching through the combinatorial set of possible arrangements of modular components, our method generates a functional, as-simple-as possible robotic device that is capable of tracking the input motion trajectories. To significantly improve the efficiency of this discrete optimization process, we propose a novel heuristic that guides the search for appropriate designs. Briefly, our heuristic function estimates how much an intermediate robot design needs to change before it becomes able to execute the target motion trajectories. We demonstrate the effectiveness of our computational design method by automatically creating a variety of robotic manipulators and legged robots. To generate these results we define our own robotic kit that includes off-the-shelf actuators and 3D printable connectors. We validate our results by fabricating two robotic devices designed with our method.
Link to publication page:
https://www.disneyresearch.com/publication/computational-design-of-robotic-devices-from-high-level-motion-specifications/
By Frank from United Arab emirates - 2017.09.28 18:29
Product quality is good, quality assurance system is complete, every link can inquire and solve the problem timely!
By Judy from Tanzania - 2017.08.21 14:13
