A vacuum dust extraction system includes a snorkel coupled to the implement end of an air tool, a dust bellows surrounding the air tool's implement and fastened to the outboard end of the snorkel, a pneumatically powered water filtration industrial vacuum, and a suction hose coupling the snorkel to the vacuum. The apparatus features an improved coupling arrangement for attaching the snorkel to the barrel of the tool driver that permits the apparatus to work with a wide assortment of air tools, and an improved water filtration apparatus housed in the vacuum.

A vacuum dust extraction system includes a snorkel coupled to the implement end of an air tool, a dust bellows surrounding the air tool's implement and fastened to the outboard end of the snorkel, a pneumatically powered water filtration industrial vacuum, and a suction hose coupling the snorkel to the vacuum. The apparatus features an improved coupling arrangement for attaching the snorkel to the barrel of the tool driver that permits the apparatus to work with a wide assortment of air tools, and an improved water filtration apparatus housed in the vacuum.

The present inventions related to a cutting device for use in cutting a collar which is mounted on a bolt in half, the cutting device comprising a mouth (16) for receiving the portion of the collar (28) to be cut; a pair of jaws (17a, 17b) diametrically opposite one another and located within the mouth (16), each jaw (17a, 17b) being provided with a cutting blade (18), a driver (22) for moving at least one jaw (17a) relative to the other (17b) such that the collar (28) can be cut in half by the action of the jaws (17a, 17 b) moving towards one another, and a guard (15) which, in use, prevents the cutting blade (18) from protruding beyond the mouth (16) and damaging a surface adjacent to the collar (28) to be cut in half.

The present invention concerns a device for removing a fastener (12) installed in the hole of a structure, said device comprising: a base (20) capable of being fastened to the structure, and a guiding device, defining a cylindrical passage (78) and including: a support (48) equipped with a first removable assembly means with the base in a first assembled configuration; a blocking element (50), mobile relative to the support; and a device (83, 84) for adjusting an axial position of the blocking element relative to the support, to a blocked configuration corresponding to the engagement of said blocking element with the fastener (12), so as to prevent the rotation of said fastener relative to the structure.

Apparatus is disclosed for attaching to a lockbolt via a swaged-mounted collar. The apparatus includes an element which permits relative movement between a cutting blade and an opposing surface so that the collar is held centrally within the apparatus during cutting.

Apparatus is disclosed for attaching to a lockbolt via a swaged-mounted collar. The apparatus includes an element which permits relative movement between a cutting blade and an opposing surface so that the collar is held centrally within the apparatus during cutting.

A tool for removing a rivet with a hole and a head from a first article that is attached to a second article includes a frame, an anvil, a push pin, and a driver. The frame includes first and second arms. The anvil includes a tube with an opening and is disposed on the first arm of the frame. The push pin is slidably engaged with the second arm of the frame and is aligned coaxially with the anvil. The push pin is configured to engage with a hole in a tail end of the rivet in order to remove the rivet from the first article. The driver is attached to the frame and is configured to move the push pin in a linear direction towards the anvil in order to push the rivet out of engagement with the first article and such that the first and second articles become unattached.

A tool for removing a rivet with a hole and a head from a first article that is attached to a second article includes a frame, an anvil, a push pin, and a driver. The frame includes first and second arms. The anvil includes a tube with an opening and is disposed on the first arm of the frame. The push pin is slidably engaged with the second arm of the frame and is aligned coaxially with the anvil. The push pin is configured to engage with a hole in a tail end of the rivet in order to remove the rivet from the first article. The driver is attached to the frame and is configured to move the push pin in a linear direction towards the anvil in order to push the rivet out of engagement with the first article and such that the first and second articles become unattached.

A rivet nut tool has a primary gear driven by a motor and a gear assembly coupled to the primary gear for rotation for moving a pull screw by a movement distance to achieve a stroke. The tool has a selection button for selecting a stroke value and a pull-riveting force. A control processor receives the selected stroke value and pull-riveting force. A count sensor is used to measure the rotational movement of a primary gear in terms of signal counts for determining the stroke achieved by the pull screw. The selected stroke value is presentable as a preset count value. When the signal count reaches the preset count value, or the motor current exceeds the current needed for the selected pull-riveting force, the control processor is configured to reverse the rotation direction of the motor so as to return the pull screw to its start position.

A rivet nut tool has a primary gear driven by a motor and a gear assembly coupled to the primary gear for rotation for moving a pull screw by a movement distance to achieve a stroke. The tool has a selection button for selecting a stroke value and a pull-riveting force. A control processor receives the selected stroke value and pull-riveting force. A count sensor is used to measure the rotational movement of a primary gear in terms of signal counts for determining the stroke achieved by the pull screw. The selected stroke value is presentable as a preset count value. When the signal count reaches the preset count value, or the motor current exceeds the current needed for the selected pull-riveting force, the control processor is configured to reverse the rotation direction of the motor so as to return the pull screw to its start position.