DE248127C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- JVe 248127 - CLASS 38 b. GROUP

OTTO LOEB & CO. in Berlin.

The invention relates to a milling device for producing crooked bars. Except the simple crutches of ■ cylindrical cross-section can be measured with the milling device of the invention also those of conical shape and with a curved or grooved surface manufacture in one operation.

In the drawing, the new milling device is shown in one embodiment, and

Although FIG. 1 shows a side view, FIG. 2 a top view. 3 and 4 show the round rod milling head in two views.

The milling device consists essentially of four parts, namely of the rotatable and longitudinally displaceable carriage α on the workbench b with the clamping device, consisting of the jaws c, c for the raw crumbs d, and also of the knife rotatably attached to a pulley e, or

so milling cutter f (Fig. 3 and 4), further from the device for setting the milling cutter to the desired depth of cut and finally from a device for moving the pulley e forwards and backwards during work to make certain profiles in the circumference of the crooked wood at the same time to incorporate. '

The slide α is guided on the workbench b in two closed slots h (FIG. 2) towards the middle of the latter by means of the noses i and k (FIG. 1) fixed on the slide α. The nose k can be fixed in its slot guide h by tightening the nut I , and the carriage α can then be rotated around the threaded pin of the nut I as the center. The clamping device c, c, which is mounted on the carriage α , is used for the exact centering and immovable holding of the workpiece d during the milling work. The belt pulley e can be rotated in a known manner about the centering ring η of the cross slide m.

The device used to adjust the knife f consists of a hand lever 0 with a rack and pinion φ mounted under the workbench b , which engages in a toothed rack q which is guided straight in the machine frame r. The rack q engages on the other side in a second headstock of the same size or with a gear ratio. s, which is keyed onto the lower end of the shaft t. The upper end of this shaft carries a ratchet wheel u, in which a spring-loaded thumb ν of the lever w constantly engages. The front end of the lever w , designed as glasses, acts on the pawl x, which engages in a screw nut y designed as a ratchet wheel of the screw spindle ζ firmly connected to the knife f (FIGS. 3 and 4). The nut y is guided in a recess in the annular belt pulley e , so that it can only rotate, but cannot change its height; but the spindle ζ will gradually lower itself under the influence of the nut y as soon as the hand lever 0 is turned, so that the cutting depth can be adjusted by this. If, at the same time as the progressive rotary movement of the lever 0, the carriage a is also rotated to the same extent, in that the stop or driver attached to the lever 0 is pressed against the nose * of the carriage α. so the chip thickness changes with each one

Position of the slide α constant, so that a crook of conical shape is obtained.

If you want to work decorations or the like into the surface, this can be done by alternating forward and backward movement of the cross slide m , for which purpose the latter moves in a straight line in a guide of the machine frame and below the work table b by a disengageable crank mechanism α ¹ ( Fig. 2) in connection with the worm δ ¹ and the worm wheel P ₁ by means of the hand lever ο or a special crank o ¹ can be driven.

By the rotation of the lever by a certain angle 0 of the transmission of this rotational movement is by means of p by the rack and pinion, the rack q, the lantern s, t the shaft and the ratchet wheel and the thumb ν

so the lever w is moved as often as this corresponds to the number of ratchet teeth of the ratchet wheel u that has passed in the meantime with the selected deflection of the lever 0. Is then determined by the free front end of the lever located w spectacles the lever χ of the adjusting device for the cutter blade f as often moved and thus the knife f adjusted for the desired depth of cut. If you now rotate the slide α by means of its handle around the offset pin of the nose k, the knife f will penetrate evenly deep into the raw crook d during the entire rotation of the slide α , provided that the position of the lever 0 during this cutting period nothing is changed; If at the end of the latter, the nose i of the carriage ä is inserted into the slot h , the carriage can continue in a straight line after the nut I has been loosened in the slot h , and so can the straight part following the curved part of the crook d be machined completely cylindrical. When this is done, the further processing of the crook d can be carried out by turning back the lever 0 and setting it to a new angle and thus a greater depth of cut, which is repeated until the desired strength of the umbrella or walking stick handle is reached.

However, if you rotate the lever 0 and the carriage a at the same time by means of the stop located at the free end of the lever 0 , which here lies against the nose i , then, as can be seen from the above, the cutting depth is continuously changed, namely increased, from which a conical machining of the crook takes place.
If, finally, the adjustment of the cutting depth during the rotation of the slide should only take place at certain points to generate a prescribed pattern, the transverse displacement of the slide m, which takes place from the crank o ¹ through the gear a ^1, is used for this. In this case, the crank o ¹ must be turned directly at the point indicated by the pattern by the hand of the worker that is still free (ie not leading the carriage α). The number of rotations of the crank o ¹ is irrelevant here, since the depth of cut in these recessed incisions is always the same and depends on the once and for all action radius of the crank loop of the gearbox a ¹ and the transmission ratio of the loop mentioned on the cross slide m.

For constrictions of the crook d that recur regularly in the pattern, however, the movement of the lever 0 can now also be combined with that of the crank o ¹ . To make this possible, the crank o ¹ is made rotatable about the central axis of the larger bevel gear a ^1; In Fig. 2, the dash-dotted position shows the usual (disengagement) position of the crank o ¹ , the position shown, however, the coupled position of o ¹ with 0. The axis of the crank o ¹ carries, for this purpose, a worm δ ¹ , which engages in a larger worm wheel p _L seated on the axis of the gear wheel p.

Claims (2)

90 patent claims: 1. Device for setting the knife on round bar milling devices, characterized in that a lever (0) swingable under the work table (b ) by means of a rack (q), a peeling wheel (u) and one on. its free end with a pair of glasses provided lever (w) acts on a pawl (χ) provided on the pulley (e ) carrying the knife ff) , which rotates a nut (y) seated on the knife ff) and designed as a ratchet wheel, whereby the latter (y) lowers the knife by the desired cutting depth by means of a screw spindle (ζ) firmly connected to the knife (f). 2. Device according to claim 1, characterized in that the worm wheel (P ₁ ) rigidly connected to the lever (0) can be coupled to a worm fb ¹ ) attached to a hand crank fo ¹ ) , which worm (b ¹ ) is a crank mechanism fa ¹ ) for the cross slide (m) carrying the round bar cutter head (β, f) . 1 sheet of drawings.