DE1168211B - Device for making undulating grooves in caliber rolls - Google Patents

Description

Device for making undulating grooves in caliber rolls The invention relates to a device for machining wave-shaped grooves in semicircular calibres from caliber rollers rotating on a machine tool by means of a cutting tool that is moved back and forth in the caliber profile.

Such caliber rolls with "negative rib profiles" are for example required when rolling surface profiled round steel, which z. B. to increase their ability to adhere to the surface as reinforcing steel in concrete have differently extending ribs or bars.

The invention has the aim of producing grooves in the Bodies particularly efficient, with the least possible expenditure of time and tools carry out and uses any tool such. B. a knife, milling cutter, end mill, grinding pencil or the like.

In a known machine tool used for the same purpose the tool holder was rotatably mounted about its longitudinal axis. By a pretty This holder, and thus the tool, became a complicated mechanism pivoted so that the tool itself is always in the correct cutting position with respect to had the direction of the groove or groove to be made. Next was the tool holder a reciprocating movement parallel to the workpiece axis and a movement with respect to the workpiece is given back and forth motion; from these two movement components there was a composite movement of the tool tip, which exactly corresponds to the cross-sectional shape of caliber followed. To evoke this compound movement was the Tool holder on a slide that can be moved transversely to the axis of the roller to be machined stored, which in turn was movable on a slide, which via a crank loop was movable with a variable stroke parallel to the roller axis. The one across the roller movable carriage was connected to the machine frame by means of a variable length lever coupled.

If one of the slides was moved back and forth parallel to the roller axis, so the other slide on which the tool carrier was located had to be due to its The compound movement is coupled to the machine frame by means of the lever perform. With this machine, the tool only made one shifting movement, in which it always remained parallel to itself, but with every point of the tool described an arc concentric to the caliber base, and was also um pivoted its longitudinal axis. With such a facility it is not possible to achieve a groove with a constant cross-section at all points along its length. In addition to this disadvantage, there is the fact that the well-known and just explained Machine was very complicated and had several guides and slides; such However, experience shows that parts are exposed to fairly rapid wear, which means Inaccuracies can arise after a short period of operation.

All these disadvantages can now be avoided in that at a device of the type mentioned according to the invention, the cutting tool is arranged with its carrier pivotable about an axis which is tangential to the workpiece runs through the center of the semicircular caliber profile.

Further features of the invention, in particular the control and actuation a rotatable knife that can also be swiveled in the plane of the axis of rotation are on Hand of the drawings explained in which two embodiments of the invention are shown. It shows F i g. 1 and 2 in schematic plan view and in side view, respectively a machine which is intended to be converted into a machine for the production of concrete reinforcement bars with surface ribs determined caliber roller the necessary negative rib profiles cut into the outer surface of the caliber; F i g. 3 a to 3 d show the sequence of the Cutting process, outlined in the individual phases; F i g. 4 and 5 shows a similar machine in side view and plan view, but in which the Cutting knife is replaced by an end mill.

In Fig. 1 and 2, the workpiece 1 to be machined is a profile roller, shown with the caliber profile2, which is greatly enlarged relative to the rest of the illustration, which latter - since the profile roller is intended for the production of round steel - Has an approximately semicircular cross-section. That in the outer surface of the caliber The rib profile 3 to be cut runs - as indicated - in the form of a sine line.

To cut this negative rib profile (i.e., to cut the groove that results in the rib profile on the rod when rolling with the caliber) the cutting tool 4, which is both axially rotatable and (in the plane of the drawing from F i g. 1) pivotally mounted carrier 5 is inserted. This carrier is pivoted 5 about the axis 6 of a connecting rod engaging at the free end in the joint 7 ″ 7. The carrier 5 is rotated, as shown in FIG. 2 reveals another connecting rod 8, which are rigidly connected to the rotatably mounted carrier, in a to the knife axis vertical plane movable handlebar 9 rotatable with the carrier 5 Cutting tool 4 or its cutting edge adjusted.

The two above-mentioned connecting rods 7 and 8 engage the crank disk 10 in the articulation points 7 'and 8'; these articulation points can be adjusted in slotted holes in the disc. There is therefore a single crank disk 10 driven by the pinion 10 ′ , which causes both the rotary and the pivoting movement of the cutting tool 4 via the connecting rods 7, 8. Of course, the rotational movement of the workpiece must be synchronized with that of the disk 10.

Like the fig. 1 can be seen, the articulation point 8 'of that connecting rod 8, which causes the rotary movement of the cutting tool 4, on the disc 10, in which Direction of rotation lagging by 90 °, compared to the articulation point 7 'of the connecting rod 7, which causes the pivoting movement of the cutting tool, be arranged.

At 11 is a bracket for a pivotable holder for the cutting tool referred to, which in turn rests above and below in the bearings 12, the through this bearing 12 certain axis 6 through the center of the circle, which the Cross-section of the approximately semicircular caliber profile 2 determined, passes through it, so that the cutting tool 4 pivotable about this axis 6 covers the lateral surface of this Caliber profile 2 can work properly.

The F i g. Finally, 3 a to d illustrate the individual phases the processing, as it is with the in the F i g. 1 and 2 shown device performed can be. The F i g. 3 a represents that stage in which the cutting tool is in a sense in the zero position, d. H. is unswiveled and at a turning point shows the sine line of the groove to be cut; the cutting edge is turned to the left, because at this turning point the cut must continue to the left. According to FIG. 3 b the cutting tool has reached a left-hand vertex of the sine curve, and the cutting edge must therefore be turned straight; the left swing of the Cutting tool has reached its maximum. In Fig. 3 c is the next turning point reached, the pivoting is again zero, but the cutting edge must be turned to the right as far as possible. The F i g. Finally, 3 d shows that Position in which the cutting tool is straight again with its cutting edge and the pan has reached the right apex of the sine curve.

The F i g. 4 and 5 relate to an exemplary embodiment of a significantly simplified structure in which an end mill 4 'is used as the cutting tool, which in a tool carrier 5' can only be pivoted in a plane running through the longitudinal axis of the workpiece 1 to be machined. The pivoting of the tool carrier 5 'is provided, as in the embodiment described above, by a bracket 11 which rests in the bearings 12; the axis of this bearing 12 again touches the outer surface of the workpiece 1 (the roller) and thus passes through the center of the circle, one half of which forms the cross section of the caliber profile 2.

The electric motor 13 for driving the end mill 4 'also rests on the bracket 11 and can be pivoted together with it by means of the connecting rod 7, which engages at 7 ". To transmit the drive force to the end mill 4', toothed or belt pulleys 14, 16 or a chain, rope or belt 15 are used; the rotating tool could also be driven by means of a flexible shaft or the like.

The mode of operation of this device is essentially the same as that the one described earlier and only deviating in that it is an axial rotary setting of the cutting tool (twisting) in different rotational positions is of course superfluous will. Instead of the end mill, a rotating grinding pin or the like can also be used. be provided.

Of course, the invention is in no way limited to the ones shown Embodiments limited. It is also not only for use in metalworking suitable, but also for a variety of other purposes which it is is about cutting a certain contour into a workpiece, automatically controlled, milled in or recorded on this. The shape of this contour is in the frame of the invention can be freely selected, since the movable tool can be moved by any means of mechanical engineering known per se can be easily controlled in such a way that also Grooves of various lengths and depths or irregular figures are made with it can be.

Claims (7)

Claims: 1. Device for incorporating undulating Grooves in semicircular calibres from caliber rollers rotating on a machine tool by means of a cutting tool that is moved back and forth in the caliber profile, characterized in that the cutting tool (4 or 4 ') with its carrier (5 or 5 ') is pivotable about an axis (6 or 6') which is tangential to the workpiece (1) runs through the center of the semicircular caliber profile (2). 2. Apparatus according to claim 1, characterized in that the pivoting movement of the tool carrier (5 or 5 ') takes place by a crank mechanism consisting of a connecting rod (7) and a crank disk (10) . 3. Apparatus according to claim 1 and 2, with a lathe chisel as a cutting tool which is pivotable in the tool carrier about its longitudinal axis in a controlled manner so that its top is always set in the cutting direction, characterized in that this pivoting movement is effected by a second connecting rod (8) which is articulated on the crank disk (10) at a point (8 ') which lags the articulation point (7') of the connecting rod (7) for the pivoting movement of the tool carrier (5) by 90 °. 4. Apparatus according to claim 2 and 3, characterized characterized in that the eccentricities of the articulation points (T, 8 ') of the connecting rods (7, 8) can be changed on the crank disc. 5. Apparatus according to claim 1 to 4, characterized in that the tool carrier (5 ') is arranged on a bracket (11) which with both ends around the pivot axis (6 or 6') of the tool carrier (5 or 5 ') ) is pivotable in bearings (12). 6. Apparatus according to claim 5, characterized in that the bracket bearings (12) and thus the pivot axis (6 or 6 ') relative to the workpiece (1) are adjustable. 7. Apparatus according to claim 5 and 6 with a rotating tool (grinding or milling tool), characterized in that the drive motor (13) for the tool (4 ') is arranged on the bracket (11) . Considered publications: Swiss Patent Specifications Nos. 276 478, 273 474; U.S. Patent Nos. 2,010,662, 2,452,757, 2716913.