An automatic machine for producing reinforcement blanks, in particular of the type of reinforcement chairs, the automatic machine comprising two outer moulding units (A, A′) and two inner moulding units (B, B′), wherein each of the moulding units (A, A′ and B, B′) comprises a pair of mandrels—a movable mandrel (8, 5) and a stationary mandrel (7, 6) connected to a power mechanism (11, 2). A method for producing reinforcement chairs from reinforcement sections comprising simultaneously forming the two support legs of the reinforcement chair in mutually opposite directions by the two outer moulding units (A, A′) and then simultaneously forming the two vertical supports of the reinforcement chair by the two inner moulding units (B, B′).

An automatic machine for producing reinforcement blanks, in particular of the type of reinforcement chairs, the automatic machine comprising two outer moulding units (A, A′) and two inner moulding units (B, B′), wherein each of the moulding units (A, A′ and B, B′) comprises a pair of mandrels—a movable mandrel (8, 5) and a stationary mandrel (7, 6) connected to a power mechanism (11, 2). A method for producing reinforcement chairs from reinforcement sections comprising simultaneously forming the two support legs of the reinforcement chair in mutually opposite directions by the two outer moulding units (A, A′) and then simultaneously forming the two vertical supports of the reinforcement chair by the two inner moulding units (B, B′).

A bending head for welded wire mesh includes a frame, a bending face to be moved relative to the frame for bending a wire in a welded wire mesh, a counterholder on which the wire can be braced during bending by the bending face, a bending die which, at least in part, has a predefined bending radius, a bending arm on which the bending face is arranged, and an arm drive device with which the bending arm can be adjusted relative to the frame. A support is provided at and/or on which the bending arm is movably mounted. A support drive device, with which the support can be adjusted relative to the frame and which is separate from the arm drive device, is provided.

An automatic machine for producing reinforcement blanks, in particular of the type of reinforcement chairs, the automatic machine comprising two outer moulding units (A, A′) and two inner moulding units (B, B′), wherein each of the moulding units (A, A′ and B, B′) comprises a pair of mandrels—a movable mandrel (8, 5) and a stationary mandrel (7, 6) connected to a power mechanism (11, 2). A method for producing reinforcement chairs from reinforcement sections comprising simultaneously forming the two support legs of the reinforcement chair in mutually opposite directions by the two outer moulding units (A, A′) and then simultaneously forming the two vertical supports of the reinforcement chair by the two inner moulding units (B, B′).

An automatic machine for producing reinforcement blanks, in particular of the type of reinforcement chairs, the automatic machine comprising two outer moulding units (A, A′) and two inner moulding units (B, B′), wherein each of the moulding units (A, A′ and B, B′) comprises a pair of mandrels—a movable mandrel (8, 5) and a stationary mandrel (7, 6) connected to a power mechanism (11, 2). A method for producing reinforcement chairs from reinforcement sections comprising simultaneously forming the two support legs of the reinforcement chair in mutually opposite directions by the two outer moulding units (A, A′) and then simultaneously forming the two vertical supports of the reinforcement chair by the two inner moulding units (B, B′).

A bending machine for elongated workpieces, comprising a bending tool with a bending head having a bending disc with a bending groove and two slide rails, each having a molding groove and which can be placed laterally against opposing sides of the workpiece. Each slide rail is secured to a support part and laterally supports the workpiece from where the workpiece is fed into the bending groove to a point in front of the bending groove when the slide rail is resting against the workpiece. Each support part is adjustable between a starting position, in which the slide rail does not rest against the workpiece, and a final position, in which the slide rail contacts the workpiece. Upon contacting the workpiece, the other slide rail assumes its starting position. The support parts are attached to a two-arm lever, and a slide piece rests against the workpiece in each lever position.

There are provided a method for predicting a springback amount and a method for bending a deformed reinforcing bar including: supplying the deformed reinforcing bar bending the supplied deformed reinforcing bar, and subsequently measuring a first bending angle in a state of releasing a bending force on the deformed reinforcing bar; further bending the reinforcing bar from which the bending force has been released, and subsequently measuring a second bending angle in a state of releasing the bending force; and predicting a relationship between the bending angle and the springback amount by using the measurement results after executing the further bending once or a plurality of times, in which the bending angle is greater for subsequent steps.

A duct coupler assembly includes a female duct coupler, where the female duct coupler is coupled to a first duct segment. The female duct coupler includes a female duct coupler body having an inner surface having an inner diameter and a bayonet slot formed therein. The duct coupler assembly further includes a male duct coupler. The male duct coupler is coupled to a second duct segment. The male duct coupler includes a male duct coupler body having an outer surface having an outer diameter, where the outer diameter is smaller than the inner diameter of the inner surface of the female duct coupler body. The male duct coupler has a bayonet post extending from an outer surface of the male duct coupler body, and the male duct coupler body is positioned within the female duct coupler body such that the bayonet post is positioned within the bayonet slot wherein the male duct coupler is coupled with the female duct coupler.

A duct coupler assembly includes a female duct coupler, where the female duct coupler is coupled to a first duct segment. The female duct coupler includes a female duct coupler body having an inner surface having an inner diameter and a bayonet slot formed therein. The duct coupler assembly further includes a male duct coupler. The male duct coupler is coupled to a second duct segment. The male duct coupler includes a male duct coupler body having an outer surface having an outer diameter, where the outer diameter is smaller than the inner diameter of the inner surface of the female duct coupler body. The male duct coupler has a bayonet post extending from an outer surface of the male duct coupler body, and the male duct coupler body is positioned within the female duct coupler body such that the bayonet post is positioned within the bayonet slot wherein the male duct coupler is coupled with the female duct coupler.

An apparatus for working bars includes a plurality of containing devices disposed adjacent and parallel to each other with an oblong development in respective longitudinal directions to contain a respective bundle of bars. At least one work station is located downstream of the containing devices. The work station includes at least one removal device to remove at least one bar from one of the containing devices, at least one drawing unit configured to move the bars in a direction of feed parallel to the longitudinal directions, and at least one bending device configured to bend the bars At least one drive member is associated with the work station, configured to move work station in a transverse direction with respect to the longitudinal directions in order to take the removal device into correspondence with one or the other of the containing devices, which are substantially fixed in position.