Nail printer video



Project: Nail Printer
I have made Nail printer with my friend Gopal Patel. Nail printer can print any photo on nail. It is easy to hacking of paper printer and converting to in Nail printer. Try it with microcontroller circuit & paper printer & some component which will help to you make structure of Nail printer like acrylic, plastic sheet etc. Some photo of Nail printer

tablet dissolving testing machine



microcontroller based machine..
In this project, I have got some help from my friends

Dissolution Tester

• ONE VIDEO
  
  

PROJECT VIDEO

PICK & PLACE ROBOT VIDEO

Some examples of factory robots:

* Car production: This is now the primary example of factory automation. Over the last three decades automobile factories have become dominated by robots. A typical factory contains hundreds of industrial robots working on fully automated production lines - one robot for every ten human workers. On an automated production line a vehicle chassis is taken along a conveyor to be welded, glued, painted and finally assembled by a sequence of robot stations.
* Packaging: Industrial robots are also used extensively for palletizing and packaging of manufactured goods, for example taking drink cartons from the end of a conveyor belt and placing them rapidly into boxes, or the loading and unloading of machining centers.
* Electronics: Mass produced printed circuit boards (PCBs) are almost exclusively manufactured by pick and place robots, typically with "SCARA" manipulators, which remove tiny electronic components from strips or trays, and place them on to PCBs with great accuracy.[35] Such robots can place several components per second (tens of thousands per hour), far out-performing a human in terms of speed, accuracy, and reliability.[36]



ADAM carries steel samples in a factory without following lines or triangulating from beacons.
ADAM carries steel samples in a factory without following lines or triangulating from beacons.

* Automated Guided Vehicles (AGVs): Mobile robots, following markers or wires in the floor, or using vision[37] or lasers, are used to transport goods around large facilities, such as warehouses, container ports, or hospitals.[38] Early AGV-style robots were limited to tasks that could be accurately defined and must be performed the same every time. Very little feedback or intelligence was required, and the robots may need only the most basic of exteroceptors to sense things in their environment, if any at all. However, newer AGV's, such as the Speci-Minder[39], ADAM [40], Tug [41], and PatrolBot Gofer [42] qualify under the JIRA definition of "Intelligent Robots". They use some form of natural features recognition to navigate. Scanning lasers, stereovision or other means of sensing the environment in two- or three-dimensions is combined with standard dead-reckoning calculations in a probabilistic manner to continuously update the AGV's current location, eliminating cumulative error. This means that the "Self-Guided Vehicle" or SGV can navigate a space autonomously once it has learned it or been provided with a map of it. Such new robots are able to operate in complex environments and perform non-repetitive and non-sequential tasks such as carrying tires to presses in factories, delivering masks in a semi-conductor lab, delivering specimens in hospitals and delivering goods in warehouses.