A collecting device for collecting discrete items that are delivered from a conveyor to a delivery location. The collecting device includes a collecting region with a collecting device, in which collecting region the discrete items are collected, a delay region with a discrete items support, and a feed region having a feed device. The delay region is prior to the collecting region and is the region in which the discrete items delivered from the conveyor are held up. The feed region is prior to the delay region and is the region through which the discrete items are fed from conveyor to the delay region. The delay region has a conveying mechanism that is capable of conveying the held-up discrete item from the delay region into the collecting region by way of a conveying-active movement.

Embodiments provide an electric lug loader system. An electric lug loader may include a shaft assembly rotatably mounted to a frame that extends across a flow path. The shaft assembly may have shafts arranged radially around, and parallel to, the rotational axis of the shaft assembly, clamp members arranged along each of the shafts, support members arranged radially around the rotational axis and across the flow path, and electric drives coupled to the shafts. Conveyors may be coupled with the frame and spaced apart across the flow path upstream and/or downstream of the shaft assembly. Additional drives may be coupled with the shaft assembly and the conveyors. A controller may be configured to synchronize the drives to engage successive workpieces between the clamp members and the support members and deposit the workpieces onto a lugged conveyor. Other embodiments provide related methods and systems.

Embodiments provide an electric lug loader system. An electric lug loader may include a shaft assembly rotatably mounted to a frame that extends across a flow path. The shaft assembly may have shafts arranged radially around, and parallel to, the rotational axis of the shaft assembly, clamp members arranged along each of the shafts, support members arranged radially around the rotational axis and across the flow path, and electric drives coupled to the shafts. Conveyors may be coupled with the frame and spaced apart across the flow path upstream and/or downstream of the shaft assembly. Additional drives may be coupled with the shaft assembly and the conveyors. A controller may be configured to synchronize the drives to engage successive workpieces between the clamp members and the support members and deposit the workpieces onto a lugged conveyor. Other embodiments provide related methods and systems.

A collecting device for collecting discrete items that are delivered from a conveyor to a delivery location. The collecting device includes a collecting region with a collecting device, in which collecting region the discrete items are collected, a delay region with a discrete items support, and a feed region having a feed device. The delay region is prior to the collecting region and is the region in which the discrete items delivered from the conveyor are held up. The feed region is prior to the delay region and is the region through which the discrete items are fed from conveyor to the delay region. The delay region has a conveying mechanism that is capable of conveying the held-up discrete item from the delay region into the collecting region by way of a conveying-active movement.

A separating device for profiles (6) comprises transfer means (8) between supporting surfaces (13) of successive transverse conveyors (1, 2, 3) that have receptacles (11) for a plurality of profiles (6). The receptacles are displaceable in rotary steps of a shaft (9) between a pick-up position and a handover position and form a driver surface (12) that, in the pick-up position, engages under only one profile (6). Stop cams (14) for the profiles (6) are associated with the receptacles (11), and stop points (16) determining the contour (15) of the stop cams (14) define an angle of rotation (a) of the stop cams (14) and a distance (h) from the bearing surface (13) of the transverse conveyor (1, 2, 3). The rear boundary edge (18) of the bearing surface (17), which is determined by the stop points (16) as a function of the cross-sectional shape and size of the profiles (6), is at least at the same distance from the shaft (9) as the outer end (19) of the driver surface (12). The transverse conveyors (1, 2, 3) can be controlled as a function of the stop of the profiles (6) at a stop cam (14) rotated into the rotational position for the cross-sectional shape and size of the profiles (6) to be separated.

The loading assembly for oblong elements, in particular metal elements, includes a movable selector member and a chute associated with the selector member. The loading assembly is associated with a transfer seat to collect a number of elements loaded on the chute by means of the selector member.