A system for sending a cassette pod is provided. The system includes a processing machine having a load port for receiving the cassette pod. The system further includes a manipulating apparatus positioned above the processing machine. The manipulating apparatus includes an intermediate module having a stage and a driving mechanism connected to the stage to change the position of the stage. The manipulating apparatus further includes a conveyor module having a gripper assembly for grasping the cassette pod.

A system for sending a cassette pod is provided. The system includes a processing machine having a load port for receiving the cassette pod. The system further includes a manipulating apparatus positioned above the processing machine. The manipulating apparatus includes an intermediate module having a stage and a driving mechanism connected to the stage to change the position of the stage. The manipulating apparatus further includes a conveyor module having a gripper assembly for grasping the cassette pod.

A rod and casing handler according to embodiments of the present disclosure includes a boom mount that is configured to be coupled to a boom. A clamp mounting structure is coupled to the boom mount and has a central portion, a first arm, and a second arm, where each arm extends from the central portion. A first clamp is coupled to the first arm and includes a first set of actuatable tongs and a first removable saddle plate. A second clamp is coupled to the second arm, and it includes a second set of actuatable tongs and a second removable saddle plate. The first removable saddle plate has a first arcuate surface sized and shaped to correspond to a cylindrical body having a first diameter, and the second saddle plate has a second arcuate surface sized and shaped to correspond to a cylindrical body having a second diameter, the first and second arcuate surfaces are disposed to hold the first cylindrical body in coaxial alignment with the second cylindrical body.

A rod and casing handler according to embodiments of the present disclosure includes a boom mount that is configured to be coupled to a boom. A clamp mounting structure is coupled to the boom mount and has a central portion, a first arm, and a second arm, where each arm extends from the central portion. A first clamp is coupled to the first arm and includes a first set of actuatable tongs and a first removable saddle plate. A second clamp is coupled to the second arm, and it includes a second set of actuatable tongs and a second removable saddle plate. The first removable saddle plate has a first arcuate surface sized and shaped to correspond to a cylindrical body having a first diameter, and the second saddle plate has a second arcuate surface sized and shaped to correspond to a cylindrical body having a second diameter, the first and second arcuate surfaces are disposed to hold the first cylindrical body in coaxial alignment with the second cylindrical body.

A bollard setting and installation system for efficiently installing a bollard wall without any restrictions relating to proximity to water or flood plains. The bollard setting and installation system generally includes a setting frame which is positioned on a ground surface. A plurality of bollards is positioned on the setting frame in a desired spacing and orientation to form a bollard wall. A vehicle having a vehicle arm connected to a lifting frame is positioned such that the bollards are secured to the lifting frame by clamps in the desired spacing and orientation. The vehicle may then move the lifting frame to position the lower ends of the bollards in an opening in the ground surface. Concrete may be poured to encapsulate the lower ends of the bollards. The lifting frame may then be removed, with the bollard wall being free-standing in the ground surface.

A bracket is provided having a base and an arm. The base can be connected to a rear window hinge support of a hardtop with the hinge bolts used to secure a rear window hinge. The base has slots that provide for an increased flexibility of bolt patterns or widths. The top of the slots are open with necks to allow for easy insertion and removal of the brackets without removal of the rear window and allows the brackets to be used with multiple models. The base has a central void. An arm having an eye upstands from the base. A relief is provided at the area where the arm is connected to the base. Two brackets (a left and a right bracket) are secured to a hardtop before use. A hoist or lift can connect to the eyes to facilitate removal and storage of the hardtop.

A bracket is provided having a base and an arm. The base can be connected to a rear window hinge support of a hardtop with the hinge bolts used to secure a rear window hinge. The base has slots that provide for an increased flexibility of bolt patterns or widths. The top of the slots are open with necks to allow for easy insertion and removal of the brackets without removal of the rear window and allows the brackets to be used with multiple models. The base has a central void. An arm having an eye upstands from the base. A relief is provided at the area where the arm is connected to the base. Two brackets (a left and a right bracket) are secured to a hardtop before use. A hoist or lift can connect to the eyes to facilitate removal and storage of the hardtop.

Aspects of the disclosure relate to grabbing, holding and releasing an object including a pull stud. For instance, a grabbing mechanism may include a piston chamber having a piston configured to move within the piston chamber when the piston chamber is pressurized. The mechanism may also include a collet attached to the piston such that the collet and piston move together when the piston moves. The collet may include a groove. The mechanism may also include ball cage including a plurality of balls arranged at least partially within respective ball chambers of the ball cage. The ball cage may be arranged at least partially within the collet such that movement of the piston and collet causes the groove to align with the respective ball chambers. The plurality of balls may be configured to move into and out of the groove and to lock the pull stud within the mechanism.

Aspects of the disclosure relate to grabbing, holding and releasing an object including a pull stud. For instance, a grabbing mechanism may include a piston chamber having a piston configured to move within the piston chamber when the piston chamber is pressurized. The mechanism may also include a collet attached to the piston such that the collet and piston move together when the piston moves. The collet may include a groove. The mechanism may also include ball cage including a plurality of balls arranged at least partially within respective ball chambers of the ball cage. The ball cage may be arranged at least partially within the collet such that movement of the piston and collet causes the groove to align with the respective ball chambers. The plurality of balls may be configured to move into and out of the groove and to lock the pull stud within the mechanism.

Devices and methods utilize a lifting beam comprising at least two connectors with a first connector substantially centered on the beam and a second connector disposed closer to an end of the beam which permit a heavy equipment operator to selectively change the vertical orientation of the lifting beam from a substantially horizontal position to a substantially vertical position. The lifting beam is selectively positionable by the equipment operator downwardly through the top opening of a precast, concrete dome without requiring the operator to leave the protection of the equipment cab. When positioned inside the concrete dome, the lifting beam is oriented substantially horizontally and the concrete dome can be lifted and repositioned by lifting the beam.