An electrode sheet turning mechanism includes a housing, a conveyor belt, a driver, and a stripper. The housing has a suction cavity, and forms an arc-shaped guide surface. A material feeding region and a material discharging region are formed on the arc-shaped guide surface, which is further provided with first suction holes. Second suction holes run through the conveyor belt. The conveyor belt is wound on the arc-shaped guide surface, and seals the first suction holes. The driver is for driving the conveyor belt to move. The stripper is for extending to the position between the conveyor belt and the electrode sheet. In the present utility model, the electrode sheet can be automatically turned.

Provided is a pile preparation unit for changing a pallet support of a pile of sheets with a first end and a second end where the pallet has a support side supporting the pile of sheets at the first end. The pile preparation unit may include a rotation unit configured with an infeed opening for receiving a pallet with a pile of sheets, the rotation unit configured with a rotating structure to rotate a lift unit about a rotational axis. The lift unit is configured with a lift structure fixed to the rotating structure and has a lift plate movable along the lift structure to engage with the second end of the pile of sheets and to move and position the pile of sheets transverse, relative to the rotational axis, providing a portal for changing a pallet.

Provided is a pile preparation unit for changing a pallet support of a pile of sheets with a first end and a second end where the pallet has a support side supporting the pile of sheets at the first end. The pile preparation unit may include a rotation unit configured with an infeed opening for receiving a pallet with a pile of sheets, the rotation unit configured with a rotating structure to rotate a lift unit about a rotational axis. The lift unit is configured with a lift structure fixed to the rotating structure and has a lift plate movable along the lift structure to engage with the second end of the pile of sheets and to move and position the pile of sheets transverse, relative to the rotational axis, providing a portal for changing a pallet.

The present utility model discloses an electrode sheet turning mechanism, including a housing, a conveyor belt, a driving mechanism, and a stripping member. The housing has a suction cavity, and forms an arc-shaped guide surface. A material feeding region and a material discharging region are formed on the arc-shaped guide surface, which is further provided with first suction holes. Second suction holes run through the conveyor belt. The conveyor belt is wound on the arc-shaped guide surface, and seals the first suction holes. The driving mechanism is for driving the conveyor belt to move. The stripping member is for extending to the position between the conveyor belt and the electrode sheet. In the present utility model, the electrode sheet can be automatically turned.

A parallel veneer standby step, a cross veneer moving step, a cross veneer positioning step, a cross veneer standby step, a parallel veneer returning step, a parallel veneer positioning step, a superimposing step, and a superimposed veneer gluing step are included. Accordingly, a superimposed veneer is obtained in which the parallel veneer and the cross veneer are bonded with a high degree of adhesion and corresponding edges of the parallel veneer and the cross veneer substantially align with each other.

A parallel veneer standby step, a cross veneer moving step, a cross veneer positioning step, a cross veneer standby step, a parallel veneer returning step, a parallel veneer positioning step, a superimposing step, and a superimposed veneer gluing step are included. Accordingly, a superimposed veneer is obtained in which the parallel veneer and the cross veneer are bonded with a high degree of adhesion and corresponding edges of the parallel veneer and the cross veneer substantially align with each other.