This new application collects data from indoor and outdoor environments and with that data compiles databases, analyzes that data and finds relationships between pollutants, microbes, matter and diseases in humans, plants and animals. This new application is called the Artificial Intelligence Doctor. The application utilizes artificial intelligence, machine learning and parallel conveyor belts with imbedded microscope slides for the identification and analysis of microbes and matter. The application identifies microbes and matter using static electricity applied to microscope slides imbedded in conveyor belts using light microscopes, electron microscopes, polarized light microscopes, x ray machines, artificial intelligence and machine learning algorithms. The easy transfer conveyor belt system utilizes migration of microbes and microbes from drones and robots for easier identification.

This new application collects data from indoor and outdoor environments and with that data compiles databases, analyzes that data and finds relationships between pollutants, microbes, matter and diseases in humans, plants and animals. This new application is called the Artificial Intelligence Doctor. The application utilizes artificial intelligence, machine learning and parallel conveyor belts with imbedded microscope slides for the identification and analysis of microbes and matter. The application identifies microbes and matter using static electricity applied to microscope slides imbedded in conveyor belts using light microscopes, electron microscopes, polarized light microscopes, x ray machines, artificial intelligence and machine learning algorithms. The easy transfer conveyor belt system utilizes migration of microbes and microbes from drones and robots for easier identification.

A method for transferring an object from a first rotor to a second rotor in a linear transport system is provided in a transfer region between a first drive unit and a second drive unit. The rotors move along the drive units due to a magnetic field generated by respective coil units, and the object is initially attached to the first rotor with the aid of a first connection. The method includes synchronizing movements of the first and second rotor so that the first and second rotor move with coordinated trajectories in the transfer region, forming a second connection between the object and the second rotor in the transfer region, and releasing the first connection. The first connection is created with the aid of a first retaining element, and the second connection is created with the aid of a second retaining element.

A method for transferring an object from a first rotor to a second rotor in a linear transport system is provided in a transfer region between a first drive unit and a second drive unit. The rotors move along the drive units due to a magnetic field generated by respective coil units, and the object is initially attached to the first rotor with the aid of a first connection. The method includes synchronizing movements of the first and second rotor so that the first and second rotor move with coordinated trajectories in the transfer region, forming a second connection between the object and the second rotor in the transfer region, and releasing the first connection. The first connection is created with the aid of a first retaining element, and the second connection is created with the aid of a second retaining element.

A magnetic device for magnetically coupling to a ferromagnetic body, comprises a housing having a central bore. A plurality of pole sectors arranged within an envelope of the central bore and forming a workpiece contact interface of the magnetic device, each of the plurality of pole sectors comprising a plurality of spaced-apart pole portions arranged at respective distances, wherein a recess of a plurality of recesses separates each pole portion of the plurality of pole portions, wherein a first sector forms a first pole of the magnetic device and a second sector forms a second pole of the magnetic device. A first permanent magnet. A second permanent being moveable relative to the first permanent magnet. And, an actuator operatively coupled to the at least one second permanent magnet to move the at least one second permanent magnet relative to the at least one first permanent magnet.

Present embodiments relate to a tie plate dispenser which aligns tie plates for dispensing based on rail base rather than outer edges of the tie plate. Thus tie plates are aligned and located in a differing manner than prior art systems. Further, the tie plate dispenser includes an opening over which a magnet is disposed to retain a tie plate over the opening. The tie plate over the opening may be selectively released by disengaging the tie plate from the magnet.

Present embodiments relate to a tie plate dispenser which aligns tie plates for dispensing based on rail base rather than outer edges of the tie plate. Thus tie plates are aligned and located in a differing manner than prior art systems. Further, the tie plate dispenser includes an opening over which a magnet is disposed to retain a tie plate over the opening. The tie plate over the opening may be selectively released by disengaging the tie plate from the magnet.

The present disclosure provides a support device for conveying at least one solar cell element in a transport direction, wherein the support device comprises a support element configured for supporting the at least one solar cell element and an electric arrangement configured for providing an electrostatic force for holding the at least one solar cell element on the support element.

The present disclosure provides a support device for conveying at least one solar cell element in a transport direction, wherein the support device comprises a support element configured for supporting the at least one solar cell element and an electric arrangement configured for providing an electrostatic force for holding the at least one solar cell element on the support element.

Present embodiments relate to a tie plate dispenser which aligns tie plates for dispensing based on rail base rather than outer edges of the tie plate. Thus tie plates are aligned and located in a differing manner than prior art systems. Further, the tie plate dispenser includes an opening over which a magnet is disposed to retain a tie plate over the opening. The tie plate over the opening may be selectively released by disengaging the tie plate from the magnet.