The present invention provides a method for forming a plurality of parts, such as spade-type boring bits (410), from a continuous stock material (12). Thus, the various steps of the forming method of the present invention can be performed to predetermined portions of the continuous stock material (12) prior to separating the continuous stock material into discrete parts, thereby enhancing the efficiency of the forming process. In the forging method, the forge can incrementally rotate the ram (61,102) after one or more parts have been forged. By repeating the incremental rotation of the ram (61,102), the forge will eventually rotate the ram a full 360°.

A drawbench (11, 111) of a wire (13), unwinding from a reel (14) and pulled step by step by an utilizing machine (15) of drawn wire, said drawbench (11, 111) having an unusually high productivity and comprising a drawing die (17) guided in a mobile manner on a frame (16), a device (18, 118) for moving said die (17) along a drawing stroke, rearming means (19) of said device (18, 118), said rearming means (19) comprising the die (17).

The present invention provides a method and apparatus for forming a plurality of parts, such as spade-type boring bits, from a continuous stock material (12). Thus, the various steps of the forming method of the present invention can be performed to predetermined portions of the continuous stock material (12) prior to separating the continuous stock material (12) into discrete parts, thereby enhancing the efficiency of the forming process. The present invention also provides an improved forge for forming portions of the continuous stock material (12) into parts having a predetermined shape. The forge (50) can be designed to provide a clearance region proximate the forward end of the ram (61) to permit slight flexing of the forward end of the ram (61) in a radially outward direction during forging operations. The forge (50) can also include a lubrication system for lubricating its various components. In addition, the forge can incrementally rotate the ram (61) after one or more parts have been forged. By repeating the incremental rotation of the ram (61), the forge (50) will eventually rotate the ram (61) a full 360°. An improved forging die (52) is also provided which includes a back surface having a conical medial section and a pair of conical lateral sections that are recessed relative to the medial section such that forces will principally be applied to the medial section during forging operations.

The present invention provides a method and apparatus for forming a plurality of parts, such as spade-type boring bits, from a continuous stock material (12). Thus, the various steps of the forming method of the present invention can be performed to predetermined portions of the continuous stock material (12) prior to separating the continuous stock material (12) into discrete parts, thereby enhancing the efficiency of the forming process. The present invention also provides an improved forge for forming portions of the continuous stock material (12) into parts having a predetermined shape. The forge (50) can be designed to provide a clearance region proximate the forward end of the ram (61) to permit slight flexing of the forward end of the ram (61) in a radially outward direction during forging operations. The forge (50) can also include a lubrication system for lubricating its various components. In addition, the forge can incrementally rotate the ram (61) after one or more parts have been forged. By repeating the incremental rotation of the ram (61), the forge (50) will eventually rotate the ram (61) a full 360°. An improved forging die (52) is also provided which includes a back surface having a conical medial section and a pair of conical lateral sections that are recessed relative to the medial section such that forces will principally be applied to the medial section during forging operations.

A machine (1) for cropping and press-forming material fed in wire form, which comprises a supporting structure (2) which slidingly supports a first assembly (3) which comprises a support (4) for at least one cropping and pressing punch. The supporting structure (2) further slidingly supports a second assembly (5) whose mass is suitable to counterbalance the mass of the first assembly (3). The machine (1) further comprises means for the synchronized actuation of the first assembly (3) and of the second assembly (5) with respect to the supporting structure (2) with a reciprocating motion along a sliding path in mutually opposite directions. The first assembly (3) and the second assembly (5) are arranged one above the other and the sliding path of the second assembly (5) is parallel and vertically spaced with respect to the sliding path of the first assembly (3).

Disclosed is a method and apparatus for feeding a material to a hot forging machine in a forging line in which a coiled material is uncoiled, straightened, fed intermittently by pinch rollers through a heating device, cut by a cutting device and then fed into a hot forging machine. The method has the steps of preparing a driving device which drives the pinch rollers mechanically independently from the hot forging machine; picking up the timing of forging conducted by the hot forging machine as an electric signal; and controlling the driving device in accordance with the electric signal.

Von einem Drahtring (25) wird ein Draht (29) intermittierend abgezogen, wobei er nacheinander einen Richtapparat (26), eine Kalteinzugsvorrichtung (19), eine Heizung (31) und eine Warmeinzugsvorrichtung (17) durchläuft und anschliessend, jeweils beim Auftreffen gegen einen Anschlag, in Einzellängen unterteilt und der Umformmaschine zugeführt wird. Um eine Deformation des warmen Drahtes beim Einzug zu verhindern, werden die Rollen (30a/30b) der Kalteinzugsvorrichtung (19) im letzten Abschnitt des Einzugshubes vom Draht abgehoben, so dass der Drahtvorschub in der letzten Phase jedes Einzugshubes nur noch von den Warmeinzugsrollen (17) bewerkstelligt wird. Da diese eine weit geringere Anpresskraft als die Kalteinzugsrollen aufweisen, können dieselben nach dem Auftreffen des Drahtendes am Anschlag auf der warmen Drahtoberfläche gleiten; so wird einerseits das Erreichen des Anschlages bei jedem Einzugshub gewährleistet und andererseits doch der warme Draht vor Deformation geschützt.

Der Antrieb der Kalteinzugsvorrichtung (19) und der Warmeinzugsvorrichtung (17) erfolgt von einem gemeinsamen Antriebsorgan (3) aus über ein Gestänge (5, 6, 7, 16/18), das an einer Stelle (7, 14, 5) eine Verstellmöglichkeit für den Einzugshub besitzt. Dadurch lassen sich beide Einzugsvorrichtungen (17, 19) gleichzeitig und mittels einer einzigen Manipulation verstellen.