Abstract: The invention relates to a device for measuring the tensile force of a long object, in which the sensor (1) and the display unit (6) can be separated from one another and, if that is the case, communicate in a wireless manner.

Abstract: A force-sensing device has a yoke having a location of force introduction for a force to be measured acting in a predetermined direction. A measuring spring has a first end rigidly connected to the yoke and is elastically deformable by the force to be measured. The measuring spring has a second end arranged on a support rigidly connectable to a machine frame. First predetermined measuring locations are provided that detect and evaluate a deformation of the measuring spring caused by the force to be measured. Parallel and spaced apart bending springs are connected to the yoke in such a way that the yoke is always guided in parallel in a transverse direction that is transverse to the predetermined direction of the force to be measured. Second predetermined measuring locations are provided on the bending springs and detect a transverse deformation caused by a force in the transverse direction.

Abstract: The present invention concerns a device for discharging webs at a predetermined web speed in an uninterrupted process, in which the web end (37) on an initially active take-off roll (2) must be placed against and joined to the beginning of a web on a roll initially situated in a waiting station. To this end, the web tension in the processing line (39) is adjusted to a predetermined target value. In order to influence the web tension in additional areas during the joining of the web ends (37), a web accumulator equipped with an externally controlled drive is provided in addition to the compensation system.