DE710943C - Device for rounding the side edges of weak and weakest steel strips by means of grinding wheels - Google Patents

Description

Device for rounding off the side edges of the weaker and weakest Steel strip by means of grinding wheels The invention is an edge rounding machine, with which the edges of weak and weakest strip steel, e.g. B. for pocket watch springs, broken and rounded.

Edge rounding machines for strip steel are already known. It is this the so-called pull-through machines, in which the steel strip is removed by filing or emery stones is pulled through. These stones are flat or .. at an angle to the edges of the strip steel and are pressed by spring pressure or weight pressure against the sides of the Pressed edges. The steel strip is guided on both sides of the surface and runs with it high speed past the fixed stones. Run after a while the edges into the stones and are broken in the process. The rounded edge achieved in this way but is only very flat and not dimensionally stable; it changes with the inlet groove the stones. The performance of these machines is also low and many are needed Runs.

These machines were improved by uniting the stones Advance granted. This resulted in: greater dimensional stability of the rounded edges and a lower stone consumption is achieved because the tape is no longer in one place of the stone: runs in. An increase in performance was achieved by, not only the tape is moved past the stones, but all stones in one Carriages are built in that have a reciprocating motion in the direction of the tape. In these machines, the steel strip is attached to both flat pulleys and one edge side out while the other edge side is processed. Under the counterpressure of the stones pushes the narrow edge surface strongly into its contact surface and is easily damaged as a result after it has already been finished. This is why these machines can only be used to round thicker steel strips that You can still hold onto a tour and don't run in too much. Edge no And machines of this type have many parts moving in bearings, such as the feed drive of the stones and the longitudinal movement of the slide, which is in the accruing Emery dust wear out quickly and often lead to complaints. These machines also deliver with weak steel strips no perfect round edge. These disadvantages are in the Invention has been eliminated. 21.4.

There are also known grinding machines in which a slightly curved Edge rounding is achieved by hyperbolically shaped grinding rollers. With these Grinding machines, the workpiece to be rounded off is attached to the hyperbolic via guide rollers Rounding along the sanding roller. The size of the fillet is mainly here depending on the rounding of the hyperbolic grinding roller and the strength of the Workpiece. Workpieces with a thickness of about 5 mm can be used in these machines round off an arc of 9o. In the case of steel strips that are 'weaker than i mm, can However, with hyperbolic grinding wheels there is no major rounding of the edge side achieve more, as practically usable hyperbolic grinding rollers for the rounding such weak workpieces cannot be produced. With the grinding device according to the invention On the other hand, the weakest steel strips with a thickness of around 0.1 mm can still be used round off an arc of 18o so that between the rounded edge side and the An edgeless transition is achieved on the flat side of the tape.

According to the invention, the steel strip to be rounded is not on the edge side, but only guided on one flat side, which results in a strong run-in into the support surface and damage to the already machined edge side is avoided. The feed drive the stones are carried out automatically by the steel strip, without a special drive is required. The grinding stones change their cutting angle to the edge side, while they slide past the steel strip, creating an even rounding the edge sides is achieved. In addition to the main bearings, the machine has can seal well, no fast moving drives, so that the wear and tear the repairs are minor. This machine can also be used for the edges round off the weakest steel strips perfectly.

The construction of the edge rounding machine is shown in FIGS. I to q. shown. FIG. 1 shows a section and FIG. 2 shows the view of the grinding device. In the 3 and 4 are working positions of the grinding wheels on an enlarged scale drawn.

The grinding machine consists of the drive shafts on which the guide disc b is attached. The steel strip c is wrapped around the circumference of the guide disk b. In addition, the guide disk b is provided with recesses d into which the grinding disks / protrude. The grinding wheels / are rotatably mounted in the forks g and with a locking device h connected, which the rotation of the discs only after one Direction allowed. By the springs !, which are attached to the forks g, stand the grinding wheels f with the flanges .k of the drive shaft a firmly in connection. The springs i press the grinding wheels f against the steel strip c and can move move in the direction of the recesses d. The grinding wheels f are arranged so that they are at different angles to the side edge of the steel strip c. In Fig. 2 three sectional positions of the discs are shown, but it can more or fewer positions can also be chosen.

The mode of operation of the edge rounding machine is as follows: The steel strip c is. placed around the guide disc b and pulled through at a low feed rate. Then the shaft a is driven at high peripheral speed, and the grinding wheels f slide under the pressure of the springs ! along the edges of the steel strip c and round them off. The three intersections of the grinding wheels f result in a theoretical rounding, as shown in FIG. 3. This theoretical rounding is evened out by the intermediate positions of the disks /, which result when the belt e starts and runs off the guide disk b.

The process of starting and running off the strip c on the guide disk b is used to drive the disks / and is shown in FIG. 4 for a disk arrangement. If the grinding disks f are in the part of the guide disk h that is not wrapped by the steel strip, then the steel strip c assumes position I at the start of the run-up of the belt. The side edge of the band c is then z. B. at an angle of about q.5'- to the grinding disks f. When the drive shaft rotates further, the steel strip c comes to rest in position 1I with the guide disk -ly, and the disks / are moved against the force of the springs pressed outside. When the steel band c moves from position I to position 1I when the band runs up, the grinding wheels rotate about their axes. In this way, the advance is achieved, since when the tape c runs off the guide disk h, the disks / are prevented from turning back by the locking device h.

In position II, the steel band edge and grinding wheel take one Angle of about 15 °, so that when starting and running the Band C there is a change in the cutting angle from 45 to 15 °. This is a rounding off the transitions of the theoretical edge breaking achieved.

When the steel belt runs through the grinding device the steel strip is only rounded on two edges. For rounding off the other two edges the belt must run through the grinding device again, or it will be in one machine, two grinding processes switched one after the other.

Claims (1)

PATENT CLAIM: Device for rounding the side edges of weak and extremely weak steel strips by means of grinding disks, characterized in that a round guide disk (b) is arranged on a rapidly rotating drive shaft (a), over which the steel strip (c) to be ground is loose and approximately semicircular Support is drawn with a flat side at low feed speed, and that the guide disk (b) has radial cutouts (d) on the circumference, into which on both sides small, with their circumference acting and caused by the run-up of the steel strip (c) onto the guide disk (b ) grinding wheels (f) which are switched in a direction of rotation enter, which are mounted on both sides of the guide disk (b) on the drive shaft (: a) by means of spring spokes of different lengths (i) which press the grinding wheels (f) against the edges of the steel strip (c) .