A hand-held knockout driver includes a main housing having a handle portion, a motor positioned within the main housing, a hydraulic assembly driven by the motor and including a reservoir containing hydraulic fluid, a secondary housing coupled to the main housing and defining a bore therein, a working piston moveable within the bore between a rest position and an actuated position, and a work zone defined between the secondary housing and the working piston into which pressurized hydraulic fluid discharged from the hydraulic assembly is received. One unit of fluid is added to the work zone to move the working piston from the rest position to the actuated position. The reservoir has a fill capacity no greater than about 1.5 units of fluid.

A method for making a profile with a micro-hole, in particular using a continuous composite extrusion process, comprises embedding, in a position in a matrix of the profile to be formed where a micro-hole is to be formed, a continuous wire having a shape and size consistent with that of the micro-hole; sawing a composite profile with the wire obtained by extrusion to a desired length; and removing the wire from the sawed composite profile using a predetermined physical or chemical method without changing the matrix of the composite profile so that the micro-hole of the predetermined size and shape is formed in the predetermined position in the profile. This method is simple, does not require any large, expensive, and sophisticated equipment, can produce continuous micro-holes of different specifications, and can be used in a wide variety of applications.

An all-steel floor slat for a reciprocating conveyor system includes a plurality of fastener openings through the top surface of the slat for connecting the slat to an underlying drive mechanism. The fastener openings are formed with counter-sinks for receiving fastener heads.

A piercing die, a holding body, and a piercing punch are used to form a pressed component having a plate-shaped base portion and a tubular boss portion extending from the base portion. The piercing die has a receiving portion, an outer shape-forming portion, and a die-side cutting edge. The piercing punch has an inner shape-forming portion, a punch-side cutting edge, and a straight portion. In a process of forming a pressed component, the piercing punch is pressed against a preform which is formed from a blank and which has a preliminary boss portion so as to cause part of the preliminary boss portion to flow toward the outer shape-forming portion, and so as to then cut off another part of the preliminary boss portion to form a boss portion.

A system and method for installing or altering a guardrail section on site is provided, as is a method for installing or altering guardrail sections on site. The system comprises a punch press comprising a throat for receiving a guardrail section therein comprising a punch suitable for punching a hole through the guardrail section and a die capable of receiving the punch after passage through the guardrail section. An articulating arm is attached to the punch press and a mobile device is attached to the articulating arm wherein the mobile device is capable of manipulating the articulating arm to place the punch press in engaging relationship with the guardrail section.

Punch jaws are provided and are configured to punch holes and/or recesses in parts made of sheet metal. The punch jaws include first and second jaws pivotally connected to each other around a pivoting axis to pivot in a pivoting plane. A work region is formed by a punch ram on the first pivoting jaw and a punch opening on the second pivoting jaw. The punch ram carries a punch sleeve having a punch edge on its circumference. The punch sleeve moves in a side view, in which the pivoting axis is punctiform, along a circular line, a center point of which is formed by the pivoting axis, during its pivoting motion. The punch sleeve is introduced into the punch opening in a side view initially penetrates the punch opening with a front region the punch edge referred to the pivoting direction. The front region is in this side view formed on the side of the pivoting axis of the circular line with respect to a pivoting circle, along which the punch sleeve moves.

A stud punch device is disclosed that can be configured to punch holes in metal studs that have been placed at various elevations in a structure. The disclosed stud punch can be configured to adjust its elevation so that the operator of the device can sand on a floor while punching the cut outs rather than having to climb a ladder or scaffolding to operate the device near the location of the hole(s) to be punched out by the stud punch device.

A hand-held knockout driver includes a main housing having a handle portion, a motor positioned within the main housing, a pump assembly driven by the motor, and a secondary housing coupled to the main housing and defining a bore therein. The hand-held knockout driver also includes a working piston moveable within the bore from a rest position to an actuated position to define a piston throw distance therebetween. The hand-held knockout driver also includes a draw stud coupled to the working piston, a die coupled to the secondary housing, and a punch coupled to the draw stud opposite the working piston for movement therewith relative to the die. The die has a depth greater than the piston throw distance.

A method for producing an energy-absorbing profile for a motor vehicle includes: providing an extruded hollow profile, the extruded hollow profile having outer walls and at least one inner wall which connects two of the outer walls; inserting a cutting tool into the hollow profile; actuating the cutting tool and cutting an inner wall section out of the inner wall; and removing the cut out wall section and the cutting tool from the hollow profile.

The invention relates to a method for producing g a through-hole (10) in a metallic body (12), which has at least one curved surface, by means of a reciprocating movement, said through-hole (10) being produced by means of high speed shearing cutting (HGSS).