Manufacturer of Precision machining product/precision CNC machining parts for Guyana Factory
1. Feature:cnc part,cnc turning parts,cnc milling parts,cnc router parts, knob,cnc machining part 2.machine:CNC lathe,CNC milling, stamping machine,drilling machine,grinding machines. 3. Finish: color anodized,polishing, zinc plating, nickel plating, chrome plating, powder coating,etc. 4. Packing: Standard export carton or depending on customer’s requirement 5. MOQ: 500pcs and more(depending on the design) 6. Price: reasonable and competitive price as per your drawing Produ...
Manufacturer of Precision machining product/precision CNC machining parts for Guyana Factory Detail:
1. Feature:cnc part,cnc turning parts,cnc milling parts,cnc router parts, knob,cnc machining part
2.machine:CNC lathe,CNC milling, stamping machine,drilling machine,grinding machines.
3. Finish: color anodized,polishing, zinc plating, nickel plating, chrome plating, powder coating,etc.
4. Packing: Standard export carton or depending on customer’s requirement
5. MOQ: 500pcs and more(depending on the design)
6. Price: reasonable and competitive price as per your drawing
|Product Name||Hot sale precision machining product/precision CNC machining parts|
|material we work on||Aluminum Alloy 5052 /6061/ 6063 / 2017 / 7075 / etcBrass Alloy: 3602 / 2604 / H59 / H62 / etc.Stainless Steel Alloy: 303 / 304 / 316 / 412 / etc.Steel Alloy: Carbon Steel / Die Steel / etc.Other Special Materials: Lucite / Nylon / Bakelite / etc.|
|process||Forging/ milling /polishing /Painting /anodizing /brushing /casting /assembling/inspecting|
|Quality Assurance||ISO9001: 2008 and ISO/TS16949: 2009 and GMC of TUV ( specially for auto industy) certification.|
|finish||zinc Plated, chrome plated, powder coating, hot-dip galvanized, electrophoresis or others;|
|surface treatment||Polishing, zinc plating, nickel plating or chrome plating, phos plating etc|
|part size||Diameter from 0.5mm to 150mm;|
|tolerance||Can be kept in +/-0.01mm|
|Machining Equipment||Machining Center / CNC Lathes / Grinding Machines / Milling Machines / Lathes / Wire-cuts / Laser Cuts / CNC Shearing Machines / CNC Bending Machines / etc.|
|main products||Precision Machined Parts / CNC Machined Parts /Machinery Spare Parts /Auto Parts / Brass Fittings;Oil Plugs /Oil Level Indicators /Gear Boxes/Speed Reducers ;Kinds of Valves / Bib cocks /Taps /Pipe Fittings/ Tee Fittings / Vent Plugs|
(2) classification as product raw material (Aluminum Alloy, Stainless Steel, brass, Steel, etc. )
(3) classification as application of product
(4) classification as surface treatm aluminum machining part ent ( Chrom plated, zincplated, nickleplated, anodizing, polishing, hot-DIP galvanized, electrophoresis, oxidation, coating, etc )
Product detail pictures:
"Sincerity, Innovation, Rigorousness, and Efficiency" is the persistent conception of our firm to the long-term to develop together with consumers for mutual reciprocity and mutual advantage for Manufacturer of Precision machining product/precision CNC machining parts for Guyana Factory, The product will supply to all over the world, such as: Philippines , Paris , Zambia , We have now a dedicated and aggressive sales team, and many branches, catering to our main customers. We have been looking for long-term business partnerships, and ensure our suppliers that they will surely benefit in both short and long run.
TeoSys LMS-5000 Ladder based Track Part Loading Subsystem
The video below shows an extremely innovative method of gently picking up small (~5mmX3mm) cup shaped finished metal parts without exposing them to surface scratching or damage. The “innovative” aspect to this design courtesy of my business partner, Emre Teoman, programming by Dana Lee Church and complete manufacturing by TeoSys Engineering LLC, is on the application side as a similar technique has been used to orient plastic soda bottle lids.
In our case, we used a rail (horizontal slats are called rails while the upward vertical motion system is called the ladder assembly) system that was fabricated with exacting dimensions in order to pick up parts that are shaped as rectangular cups with the solid “bottom” of the cup side facing in toward the metal rail. If a cup makes it onto a rail with the solid and heavier bottom side facing outwards, then gravity takes over and the incorrectly loaded part falls back into the bin of parts for a later try.
Many iterations of rail fabrications took place as well as cherry picking the best ones for the two parts that the system had to load. The exact degree of offset of the entire rail assembly had to be determined so that only the incorrectly loaded parts fell off and not all of the parts. All ladder system components were made to be field adjustable for differing floor inclines. Once set, we found the ladders never needed modifying.
We were often asked why we didn’t choose a more common and very well known vibrational, feeder bowl technology. Our answer was as follows:
When a part loading system is connected to a laser system expected to operate at 0.5 micron accuracy in order to simultaneously drill and measure the diameter of ~50 micron sized holes, our main concern was vibration. By definition, a vibrating feeder bowl, well, vibrates. Although there are techniques that we considered in separating the vibrating feeder bowl from the system, we chose the ladder method because we also had to go through a 2-stage orientation of each part and this method would get us through the 1st stage, without vibrationally induced surface scratching of the pre-finished part and it was much more compact.
We will never know if this was the best solution but it was a durable and successful solution as long as the rails were kept free of debris using a moist microfiber cloth during the required laser warmup period. There were parts that would get stuck but a magnet was easily used to grab the stuck parts and restart the process. Although the system software, written by Dana Lee Church, could not detect a stuck part on the ladder due to a hardware limitation, she could stop the system when the main index plate was found to be empty of parts and send out an alert for an operator to clear any obstructed path.
E. Teoman – Ladder design and setup.
Other : Mechanical design. Optical design. Analog electrical design.
Dana Lee Church – System embedded hardware and software design with verification and validation, GUI design, embedded controller timing and design, motion control software design, digital communication hardware design, operational project management, laser alignment for customer part drilling, drilling recipe inventor, application integration testing and debugging for all system hardware and software, the design of the real time embedded software for the 4 distributed embedded processors (DSPs). Optical Flow Tester design including algorithm development, technical and user documentation with on-site training and maintenance. Validation that system meets customer requirements via black and white box testing and custom test modules.
And kudos to our machinist who had to achieve 20um or less accuracy and repeatability on a manual mill, our skilled engineers and technicians who went over and above in order to make this prototype into a production manufacturing automation solution
Part of the “How to Make an iPhone Case” series of blog posts on the Graft Concepts blog: http://blog.graftconcepts.com
By Anne 2016-3-08 16:27
The factory technical staff not only have high level of technology, their English level is also very good, this is a great help to technology communication.
By Rebecca 2016-6-28 18:47