DE1018611B - Turnbuckle for drilling sewing holes in buttons - Google Patents

Description

Turnbuckle for drilling sew-on holes in buttons, button drilling machines for drilling sewing holes have been known for years. To achieve an essential Increasing performance requires the use of new resources as they are the subject of the invention.

The sewing holes of buttons are usually so close together that No device has yet been discovered in which the holes are more satisfactory Way can be drilled at once.

In addition, since the drills of the need to be re-sharpened and readjusted frequently, results in the least Difference in the grinding of the drills, especially on the so-called countersink cutting edge, immediately strong and clearly visible differences on the button surface. That's why the two or four sew-on holes are usually made with the same drill.

Here you either use a rotatable turnbuckle, in which the Button is clamped and switched, or the spindle is moved in this way much from the middle, as is necessary to achieve the hole spacing. These Arrangement has the disadvantage that switching the machine to a different button size is relatively difficult.

Because of the large locks (at their fast switching) high inertia forces or results in low performance.

Fig. I shows a lock that has been customary up to now in natural size which the button 1, which is drilled and countersunk on the front and on the back is to be countersunk on a ring (which can be replaced depending on the size of the button) 2 is placed, with a conical ring 3 centering the button from the opposite side and hold on. This conical ring is because it can be interchangeable depending on the button size must be screwed into so-called glasses. The glasses guide, consisting of two round dowel pins 5 is housed in the lock itself. Two dowel pins are necessary so that an exactly vertical guide or a parallel position of the conical Centering ring is given to the lower support ring.

The accommodation of the entire clamping device in the castle itself is conditional its large diameter.

The resulting large masses are difficult to manage switch, or they require a lot of time for the respective further switching of the button to the next drilling site. Since the two dowel pins during the lock circuit of the Insertion device stand in the way, the insertion can only take place after switching.

The invention described below and shown in the picture eliminated the listed shortcomings and is illustrated in Fig. II a for example. Of the cylindrical lock body 6 is rotatable in roller bearings stored in cash and by means of Gear 7 switched; it carries the interchangeable conical centering ring 8.

The button 9 is on the centering ring 8 through the ring sleeve 10, the can also be easily exchanged depending on the button size, pressed on. The sleeve 10 is rotatably mounted in the fixed glasses 11 by ball bearings 12. Your take away occurs through friction when pressing the button. The Brillell will go through as before Dowel pins 13 guided precisely when the lock was opened, but no longer rotates the whole device, but only the annular sleeve 10 alone, so that the cylindrical Body of the lock can be kept correspondingly small. This will result in the Switching a smooth run and high performance achieved.

In the previous arrangement, there is one for each turnbuckle Cam, the manufacture of which is difficult and expensive, necessary.

The invention, which is shown in Fig. IIb, for example, has to the extent that it is an improvement, as for switching two adjacent ones cylindrical lock body 14 a single gear 15 is used, which in turn is switched by means of a simple ratchet wheel 16. Required for actuation a circumferential cam that is easy to manufacture. The switching movement is doubled as a result of the gear ratio 2: 1 and the switching speed transferred to the gears 7 of the lock body. The one connected to the shift gear 15 The ratchet wheel 16 has the pawl 17 inside for two reasons: a) the diameter and thus to keep the moving masses as small as possible, b) to attach the absolutely necessary locking to the outer circumference of the ratchet wheel to be able to.

In the previous designs, when drilling a two-hole button always drilled two holes blind, which meant that the machine did not go faster worked, but had the same performance for two- and four-hole buttons.

The invention avoids this disadvantage. The example shown in Fig. III The illustrated arrangement shows on the hollow shaft 18 that on the stub shaft 19 is arranged axially displaceable by means of tongue and groove, two adjacent Circumferential curves for driving the transmission elements. One curve is for four-hole, the other is intended for two-hole drilling. Using the handle 20, the fork lever 21 the hollow shaft can be moved so that either the curve for two or the is engaged for four sew-on holes. In Fig. IV the two cams are that control the ratchet wheel, drawn in view. The cam 22 for four-hole buttons switches the ratchet wheel and thus the gear wheel coupled to it by the eighth Part of a circle (= 450) so that with a ratio of 2: 1 am Closed each time a circuit of 900 results. The cam plate 23 switches on the other hand the ratchet by 900, resulting in a lock shift of 1800. In the latter Case you only need to accelerate the speed of the control shaft to the approx one and a half times the performance of two-hole buttons compared to that of four-hole buttons reach.

The main advance of the invention lies in the increase in performance this special machine.

PTETNSPRCCHE: 1. Turnbuckle for successive drilling of sewing holes in buttons on button drills, which are driven by means of cams opposite the Tool spindle is switchable by turning and the Werkstfick between a centering ring with conical inner surfaces and a support ring clamped, with both rings on Guides, e.g. B. dowel pins, are axially displaceable against each other, characterized in that that the centering ring of the turnbuckle is directly above a gear wheel driving it is switchable that the switching path with the help of a on the inner circumference of a ratchet wheel acting pawl and limited by a second in notches on the outer circumference of the ratchet wheel engaging pawl is locked and that the opposite of the centering ring Support ring is rotatably mounted in glasses.

Claims (1)

2. Turnbuckle needle to claim 1, characterized in that two adjacent centering rings each clamping one workpiece directly above a gear can be switched together. 3. Turnbuckle according to claim 1 and 2, characterized in that the switching cam disks for drilling two and four holes by moving them axially the control shaft carrying the disks can optionally be brought into the operative position. Considered publications: German Patent Specifications No. 814 220, 683 444, 57660; U.S. Patent No. 2,300,301.