A working head for a hydraulic power tool. The working head includes a head frame and a first moveable die head configured to move along the working head frame. The first moveable die head is configured to receive a first moveable die comprising a first body length and a second die head is adapted to receive a second die comprising a second body length. At least one of the moveable die or the stationary die comprises an elongated die.

A working head for a hydraulic power tool. The working head includes a head frame and a first moveable die head configured to move along the working head frame. The first moveable die head is configured to receive a first moveable die comprising a first body length and a second die head is adapted to receive a second die comprising a second body length. At least one of the moveable die or the stationary die comprises an elongated die.

Systems and methods are disclosed for cutting a food item when preparing it to be served to a customer. In some implementations, the cutting system may include a cover that may be used to at least partially surround a portion of a the cutting system. The cover may include one or more doors, drawers, or other movable components that may be used to engage the cutting assembly of the cutting system by activating one or more sensors located along or proximate to the path traveled by the movable component. The movable component may activate the sensor when the movable component has appropriately positioned the food item under the cutting assembly to be cut. Additionally, the cover may include one or more user-engageable switches that may be used to selectively engage cutting assembly when the movable component of the cover is appropriately positioned to be cut by the cutting assembly.

Systems and methods are disclosed for cutting a food item when preparing it to be served to a customer. In some implementations, the cutting system may include a cover that may be used to at least partially surround a portion of a the cutting system. The cover may include one or more doors, drawers, or other movable components that may be used to engage the cutting assembly of the cutting system by activating one or more sensors located along or proximate to the path traveled by the movable component. The movable component may activate the sensor when the movable component has appropriately positioned the food item under the cutting assembly to be cut. Additionally, the cover may include one or more user-engageable switches that may be used to selectively engage cutting assembly when the movable component of the cover is appropriately positioned to be cut by the cutting assembly.

A tool head has a frame, a tool connected to the frame, an inner rotation manifold connected to the frame, a rotation motor that rotates a spindle, and an outer rotation manifold surrounding the inner rotation manifold. The outer rotation manifold is connected to the rotation motor in a fixed manner. The spindle continuously rotates the inner rotation manifold inside of the outer rotation manifold around an axis of the inner rotation manifold, and the frame and tool are rotated with inner rotation manifold.

A tool head has a frame, a tool connected to the frame, an inner rotation manifold connected to the frame, a rotation motor that rotates a spindle, and an outer rotation manifold surrounding the inner rotation manifold. The outer rotation manifold is connected to the rotation motor in a fixed manner. The spindle continuously rotates the inner rotation manifold inside of the outer rotation manifold around an axis of the inner rotation manifold, and the frame and tool are rotated with inner rotation manifold.

A working head for a hydraulic power tool. The working head includes a head frame and a first moveable die head configured to move along the working head frame. The first moveable die head is configured to receive a first moveable die comprising a first body length and a second die head is adapted to receive a second die comprising a second body length. At least one of the moveable die or the stationary die comprises an elongated die.

A shear cutting system for fibre tape taping machines in which the cutting of the fibre tape (1) is performed transversely with respect to the movement of the fibre tape (1) by shearing 5 between a cutting blade (2) and a counter blade (3) in an opposite relative movement between the cutting blade (2) and the counter blade (3), characterised in that it has orientation device for a blade support (4) of the cutting blade (2) configured for orienting the cutting blade (2) according to a cutting angle selected for cutting the fibre tape (1).

A shear cutting system for fibre tape taping machines in which the cutting of the fibre tape (1) is performed transversely with respect to the movement of the fibre tape (1) by shearing 5 between a cutting blade (2) and a counter blade (3) in an opposite relative movement between the cutting blade (2) and the counter blade (3), characterised in that it has orientation device for a blade support (4) of the cutting blade (2) configured for orienting the cutting blade (2) according to a cutting angle selected for cutting the fibre tape (1).

A machining device for cutting and punching flat material, such as sheet metal, is disclosed. A base includes a support table for the flat material. The base defines a feed direction in which the flat material is configured to be fed into the machining device. A first cutting device is configured to cut the flat material transversely to the feed direction. A second cutting device is configured to cut the flat material in the feed direction. A separative machining unit is configured to be displaceable in the machining device relative to the base transversely to the feed direction. The separative machining unit is configured to subject the flat material to separative machining in sections.