Abstract: A blind rivet, for connecting workpieces, comprising a hollow, deformable rivet body with a bearing collar and a sleeve attached thereto, a rivet mandrel in the sleeve and extending through the bearing collar, having a tool holder head, and a sealing ring. The sealing ring is arranged between the bearing collar and the tool holder head and is made of a curable and not fully cured sealing material. During contraction of the blind rivet, the sealing ring is pressed axially towards the bearing collar by a tool that can be connected to the tool holder head or by a section of the rivet mandrel. The sealing ring is designed to flow radially and axially into gaps and spaces on the bearing collar and between the bearing collar and the workpieces while the sealing ring is compressed, and to adhere there.

Abstract: A method for removing a blind rivet includes a workpiece arrangement having first and second surfaces and a connecting hole. A blind rivet is fixed in the hole and has a shell and screw through the shell extending coaxially along a common center axis, the shell having a shell head portion, straight portion, deformation portion and threaded portion having an internal thread. The straight portion is in the hole and the deformation portion and the threaded portion protrude out of the hole, the screw having a screw head portion and pin portion having an external thread. The screw is in the shell such that the deformation portion of the shell is deformed where the outside diameter of the deformed deformation portion is larger than the diameter of the hole. The shell is cut in the region of the thread portion and/or the deformation portion, and the blind rivet is removed from the hole.

Abstract: A tool for repeatedly feeding individual fasteners from a fastener supply includes a receiver, a guide, a flexible, linear thruster, an electric drive, an activator, and a feeder with a dispenser. The guide extends along a curved guide track from the receiver into the feeder and terminates at the dispenser. Along the guide track the guide has a substantially constant opening cross section radially defined by a guide element relative to the guide track to guide the fasteners directly adjacent to one another along the guide track. The thruster extends from the receiver into the guide and has an external cross section adapted to the opening cross section and configured to be moved in a guided manner by the drive in the guide along the guide track. The drive is coupled to the activator and moves the thruster in the direction of the dispenser when the activator is actuated.

Abstract: A method for removing a two-part connector in a workpiece arrangement includes providing a workpiece arrangement having first and second surfaces and having a hole connecting the first surface to the second surface. A connector is fastened in the hole, which connector has a bolt extending along a central axis and a sleeve fastened on the bolt. The bolt has a head portion and a shank portion with retaining grooves. The sleeve is fastened to the bolt on the side of the second surface such that the inner surface thereof engages with the retaining grooves and prevents a relative movement of bolt and sleeve parallel to the central axis. The sleeve has an outside diameter which is greater than the diameter of the hole in the workpiece arrangement. The sleeve is cut and or the bolt, and the connector is removed from the hole.

Abstract: A method for removing a blind rivet includes a workpiece arrangement having first and second surfaces and a connecting hole. A blind rivet is fixed in the hole and has a shell and screw through the shell extending coaxially along a common center axis, the shell having a shell head portion, straight portion, deformation portion and threaded portion having an internal thread. The straight portion is in the hole and the deformation portion and the threaded portion protrude out of the hole, the screw having a screw head portion and pin portion having an external thread. The screw is in the shell such that the deformation portion of the shell is deformed where the outside diameter of the deformed deformation portion is larger than the diameter of the hole. The shell is cut in the region of the thread portion and/or the deformation portion, and the blind rivet is removed from the hole.

Abstract: A tacking device for a temporary fastening of components has a sleeve having a first end, a second end, an axial hole and a radially projecting collar at the first end, and an elongate mandrel having a head end and a tensioning end. The mandrel can be inserted into the axial hole at the second end of the sleeve, can be brought into stop contact with a sleeve rim surface by the head end and projects beyond the first end from the sleeve in the inserted state. A holding unit is designed to hold the mandrel when the tacking device is inserted into an opening of a component. The sleeve has a deformable material, which is squashed against the component when is inserted into an opening of a component. The mandrel has a predetermined breaking point with a weakened cross section, positioned between the head end and the tensioning end.

Abstract: A tool for pulling a fastener into a through opening, which is formed in two or more superposed parts to be joined, comprising: a main body, which has a supporting surface for supporting the tool on a surface of one part to be joined, and a pulling body for moving the fastener relative to the main body, wherein the pulling body can be moved from a first into a second position relative to the main body in a pulling direction perpendicular to the supporting surface, and a clamping device, formed on the pulling body, for clamping an outer section of the fastener, which projects beyond the opening in one part to be joined, wherein the extent of the main body perpendicular to the supporting surface, and the path of movement of the pulling body are shorter than four times the clamping clearance of the clamping device.

Abstract: A system for taking a measurement at a connection element. The system has a force sensor having a first side and a second side. The force sensor is configured to provide a measured value representative for a force acting between the first and the second side of the force sensor. The system also has an ultrasonic sensor and a positioning bushing The positioning bushing has a positioning bushing recess, which is configured to receive the ultrasonic sensor, at least in part. The system also has a separate sensor bushing, mechanically coupled to the first side of the force sensor, and having a sensor bushing recess. The sensor bushing recess is configured to receive, at least in part, the positioning bushing and the first end of the connection element. A second end of the connection element can be mechanically coupled to the second side of the force sensor.

Abstract: A system for taking a measurement at a connection element protruding from a specified surface. The system has an ultrasonic sensor and a positioning bushing. The positioning bushing has a first recess and a second recess. The first recess is configured to receive the ultrasonic sensor, at least in part. The second recess is configured to receive at least part of the connection element protruding from the surface. The positioning bushing is configured to orientate the ultrasonic sensor relative to the connection element in a specified manner.

Abstract: A system for taking a measurement at a connection element. The system has a force sensor having a first side and a second side. The force sensor is configured to provide a measured value representative for a force acting between the first and the second side of the force sensor. The system also has an ultrasonic sensor and a positioning bushing The positioning bushing has a positioning bushing recess, which is configured to receive the ultrasonic sensor, at least in part. The system also has a separate sensor bushing, mechanically coupled to the first side of the force sensor, and having a sensor bushing recess. The sensor bushing recess is configured to receive, at least in part, the positioning bushing and the first end of the connection element. A second end of the connection element can be mechanically coupled to the second side of the force sensor.