An electromagnetic pallet assembly includes electromagnetic cells coupled to a pallet base, and an electromagnetic pallet frame supported above the pallet base by pillars. A pallet central processing system is configured to control the electromagnetic cells and/or the pallet frame, and can be further configured to control an electromagnetic frame sheet located above the pallet frame. A signal adapter is configured to transmit signal between the central processing system and a remote control device. A method for adjusting pallet position includes selecting electromagnetic pallets, and activating an electromagnetic assembly of a truck bed surface and/or electromagnetic cells of the selected pallets. Polarity and/or strength of the electromagnetic assembly and/or the electromagnetic cells of the selected pallets are adjusted, and the selected pallets are moved.

An electromagnetic lifter for moving hot materials is disclosed. The lifter has a ferromagnetic yoke formed by a horizontal core and two vertical polarities, lifting coils wound around the core and enclosed in a container, a non-magnetic baffle arranged between the vertical polarities and below the container at a distance of at least 40 mm to protect it from the heat radiated by the hot material to be moved, as well as side spacers and top spacers which keep the container away from the polarities and the core respectively.

An electromagnetic lifter for moving hot materials is disclosed. The lifter has a ferromagnetic yoke formed by a horizontal core and two vertical polarities, lifting coils wound around the core and enclosed in a container, a non-magnetic baffle arranged between the vertical polarities and below the container at a distance of at least 40 mm to protect it from the heat radiated by the hot material to be moved, as well as side spacers and top spacers which keep the container away from the polarities and the core respectively.

Embodiments disclosed herein relate to a protection device and/or system that may include a thimble capable of being placed over a transmission line, such as an electrical power cord, to provide protection in the form of cut resistance, abrasion resistance, and/or impact resistance. In some embodiments, a plurality of thimbles can be placed over the transmission line to form an overlapping arrangement to protect a desired length of the transmission line. While each thimble may be rigid, semi-rigid, and/or flexible, the arrangement can maintain flexibility to allow for many degrees of movement of the electrical power cord even as it is cladded in the protection system.

Embodiments disclosed herein relate to a protection device and/or system that may include a thimble capable of being placed over a transmission line, such as an electrical power cord, to provide protection in the form of cut resistance, abrasion resistance, and/or impact resistance. In some embodiments, a plurality of thimbles can be placed over the transmission line to form an overlapping arrangement to protect a desired length of the transmission line. While each thimble may be rigid, semi-rigid, and/or flexible, the arrangement can maintain flexibility to allow for many degrees of movement of the electrical power cord even as it is cladded in the protection system.

An exemplary method for installing at an installation site a photovoltaic module including a panel and support legs includes disposing the photovoltaic module over a support surface such that the support legs are in a stowed position; lifting the photovoltaic module from a support surface while engaging a magnetic field with the support legs so as to maintain the support legs in the stowed position; disengaging the magnetic field from the support legs of the lifted photovoltaic module so as to release the support legs from the stowed position to an installation position in which the support legs are rotated downwards relative to the stowed position; and lowering the photovoltaic module to the installation site with the support legs in the installation position so as to install the photovoltaic module at the installation site, the support legs supporting the panel at the installation site.

An exemplary method for installing at an installation site a photovoltaic module including a panel and support legs includes disposing the photovoltaic module over a support surface such that the support legs are in a stowed position; lifting the photovoltaic module from a support surface while engaging a magnetic field with the support legs so as to maintain the support legs in the stowed position; disengaging the magnetic field from the support legs of the lifted photovoltaic module so as to release the support legs from the stowed position to an installation position in which the support legs are rotated downwards relative to the stowed position; and lowering the photovoltaic module to the installation site with the support legs in the installation position so as to install the photovoltaic module at the installation site, the support legs supporting the panel at the installation site.

Present embodiments relate to an apparatus and method which separates tie plates. More specifically, and without limitation, present embodiments relate to a tie plate separator which can retrieve tie plates from a pile and separates such for placement on a feeder, such as a conveyor for sequential feeding of the tie plates.

Present embodiments relate to an apparatus and method which separates tie plates. More specifically, and without limitation, present embodiments relate to a tie plate separator which can retrieve tie plates from a pile and separates such for placement on a feeder, such as a conveyor for sequential feeding of the tie plates.

A system for automatically magnetically gripping non-magnetic objects. The system includes a robotic arm, a magnetic actuator, and a free magnetic element. The magnetic actuator may be coupled to an end effector of the robotic arm. A non-magnetic object may be placed between the free magnetic element and the magnetic actuator. The magnetic actuator may magnetically attract the free magnetic element to securely grasp the non-magnetic object therebetween. A corresponding method is also disclosed and claimed herein.