A temporary tape removal apparatus that includes: a chassis having fixed and guiding wheels; a boom arm extending outward from the chassis and being movable between up and down and side to side positions; a spool assembly including a rotatable spool for winding used temporary tape thereon mounted on the boom arm; and controllable drive means to rotate the rotatable spool. Using the apparatus to remove lane marking tape from pavements involves moving the temporary tape removal apparatus along a pavement having a length of lane marking tape thereon, and pulling the lane marking tape off the pavement by winding the tape onto the spool. Single lines of tape can be removed and multiple lines of tape can simultaneously be removed. The removed tape is spooled on disposable cores for disposal.

Provided is a wound body formed by winding a long sheet. The wound body is supportable by a support shaft. The support shaft includes a cylindrical outer peripheral part that includes a first projection located at a proximal end and a second projection located at a distal end, and includes an inner peripheral part that includes a first recess part located at the one end and recessing outward in the radial direction and a second recess part located to extend from the one end to the other end and recessing outward in the radial direction. A recessing amount of the second recess part is smaller than that of the first recess part. The support shaft and the core body are integrally rotatable around the central axis by engagement of the first projection with the first recess part in a state where the core body is mounted on the outer periphery of the support shaft. The circumferential position of the first projection around the central axis is aligned with the circumferential position of the first recess part around the central axis by engagement of the second projection with the second recess part when the core body is mounted on the outer periphery of the support shaft.

A method is disclosed for transferring a film, preferably a wound-on stretch film, wound onto a winding mandrel, oriented in particular vertically and preferably supported exclusively in the region of its upper end, of an unwrapping apparatus, such that when the transfer position of the winding mandrel is reached, the film wound onto the winding mandrel is pulled off the winding mandrel by means of at least one transfer device and delivered to a disposal area. An apparatus for transferring a film, preferably a wound-on stretch film, wound onto a winding mandrel, oriented in particular vertically and preferably supported exclusively in the region of its upper end, of an unwrapping apparatus, is disclosed. The apparatus encompasses at least one transfer device for pulling off the film wound onto the winding mandrel when the transfer position of the winding mandrel is reached.

Provided is a foil removal device and a method for removing a foil from a tire tread in a removal direction, wherein the foil removal device includes a foil collection unit with a winding element, a winding drive for receiving the foil at or near one of the ends of the foil, a gripper for engaging the foil prior to the removal of the foil and a gripper drive for moving the gripper from the gripping position towards the foil collection unit to partially remove the foil from the tire tread. The gripper is arranged for releasing the foil when the foil collection unit has received the foil. The winding drive is arranged for driving the winding element to engage and subsequently remove the foil. The removal device includes a displacement drive for moving the foil collection unit simultaneously with the winding drive driving the winding element.

An apparatus (un-interleaver) for unwinding a roll of material interleaved with another material, and for separating the materials, includes a first platform, a second platform, a tension-sensor, an edge-sensor, and a controller. The controller monitors signals generated by the tension sensor and the edge sensor, and in response to the signals: a) causes the speed at which the second platform rotates to change to maintain a predetermined tension in the second material as the second material travels from the first platform toward the second platform, and b) causes the second platform to move relative to the first platform to align the edge of the second material traveling toward the roll of second material with the edge of the second material in the roll.

A peeling apparatus according to an embodiment includes: a conveyance roller configured to convey a laminate made by peelably laminating a first substrate and a second substrate including an opening; a peel roller arranged facing the conveyance roller with the laminate interposed in between, and configured to peel the second substrate from the first substrate; a winding roller arranged away from the peel roller, and configured to wind the second substrate peeled from the first substrate; and an auxiliary winding roller arranged between the peel roller and the winding roller, and including a stepped portion configured to maintain a width of the opening.

A reel for winding metal strip, in particular rolled hot strip, having a mandrel shaft (2), which has a first shaft end piece (18), which is rotably mounted by means of at least one bearing (4) provided in the machine frame (3) of the reel, a clamping device (5) arranged between the at least one bearing (4) and the mandrel shaft (2), such that, in a clamped operating state, a frictional connection can be produced between the at least one bearing (4) and the mandrel shaft (2).

A reel handling machine includes first and second re-reeling assemblies coupled to a frame. The re-reeling assemblies each include a reel mount supporting a first reel and a re-reel mount supporting a second reel. The re-reeling assemblies operated to unwind a product strip from the first reel and rewind the product strip on the second reel. The reel handling machine includes a reel manipulator positioned proximate to the re-reeling assemblies configured to automatically remove the second reel from the re-reel mount after the product strip is rewound on the second reel and move the second reel to a remote location.

An equine bandage wrapping device includes a motor with a rotating drive shaft mounted on a hinged bracket. A forked spindle coupled to the motor engages the bandage. The hinged bracket pivots in response to external force causing a torque on the hinge. The external force is supplied by the user pulling slightly against the bandage while it is secured to the forks. Such force is resisted by a spring disposed between a base plate and the underside of the floating end of the hinged bracket. If sufficient force is applied to overcome the spring force, then the electrical circuit between the motor and power source is closed, resulting in the motor turning on. The circuit is opened by removing the external force to cause the spring to return to its extended position, resulting in the motor stopping movement.

Provided is a foil removal device and a method for removing a foil from a tire tread in a removal direction, wherein the foil removal device includes a foil collection unit with a winding element, a winding drive for receiving the foil at or near one of the ends of the foil, a gripper for engaging the foil prior to the removal of the foil and a gripper drive for moving the gripper from the gripping position towards the foil collection unit to partially remove the foil from the tire tread. The gripper is arranged for releasing the foil when the foil collection unit has received the foil. The winding drive is arranged for driving the winding element to engage and subsequently remove the foil. The removal device includes a displacement drive for moving the foil collection unit simultaneously with the winding drive driving the winding element.