DE598227C - Device for producing internal threads with simultaneous chamfering and countersinking of the thread - Google Patents

Description

The object of the invention is a thread cutting tool, which for the simultaneous. Chamfering and sending out the Cutting of thread at the gate resulting burr is formed.

When cutting internal threads, the actual, beveling tool under spring pressure in the flutes of the tap for prevention of rotations given an inevitable longitudinal guidance and at the same time a Sliding slide achieved in the longitudinal axis of the grooves. During the work process is at the chip removal of the chamfering knife the radial pressure so strong that the sliding movement of the knife in the flutes is strongly inhibited by the small contact area, which often leads to premature breakage of the knife. Due to the strong! One-sided radial

ao pressure, the tap is also pushed out of its longitudinal axis, so that the thread on the workpiece, of course, is poorly executed. Taps with twist-shaped Grooves only insignificantly reduce these disadvantages.

In the known devices, a chamfering chisel under spring pressure should be used or chamfering knife line, perfect deburring can be achieved. The trimming knife but the pushing spring works arbitrarily through its own development of force, whereby the trimming knife is quickly pressed into the workpiece to be machined, and increasingly stronger, the more the spring is put under tension. The trimming chisel is thus forced to a disproportionately strong chip removal and thus forms the cause of the many, the well-known Process adherent defects with the constant result that the inherently small Chisel quickly becomes unusable. Are z. B. fittings, sleeves o. The like. With different To edit the strength of the material, there is also an in the same Ratio of different work results. Unequal processing also takes place with the same spring pressure if the chisel is sharp or less sharp.

The subject matter of the invention corrects all of these deficiencies. When walking forward of the tap, the feed of the deburring chisel connected to the tap is controlled by a special one Establishment inevitably delayed by the placement of an in-process running against the face of the workpiece and then from this pushed back ram, which is connected to the chamfering chisel by means of a toothed gear mechanism stands and causes the chisel to be driven back less quickly than the ram will.

The drawing shows a. Embodiment.

Fig. Ι is a longitudinal section through the clamping head, ., .._.

Fig. 2 is a longitudinal section through the work piece,

FIG. 3 shows a side view of the device, FIG. 4 shows a cross section along the line ab in FIG. 3.

Figures 5 and 6 are a general illustration and a plan view of the transmission. In a clamping head 1, which is attached to a rotatable and axially movable spindle is, a tap 2 is clamped. The same can be done by means of a conventional collet be held, or it is also, as can be seen from Fig. ι, with a screw 3 to attach. Fig. 2 shows the representation of a * work piece in the non-de-chamfered state.

When the drill 2 (see Fig. 5) cuts into the work piece, the clamping head r causes the feed according to the thread pitch. The plunger 4 then hits the face of the work piece and is pushed back, namely with each revolution of the clamping head by one thread pitch. By the reverse gear of the plunger 4, it drives two gears 5 and 6, both of which have an axis perpendicular to the tap have (s ^1. Figs. 3, 4 and 5). The gear 6 engages in the teeth of the chamfering chisel 7 and brings the same with it. back, - however, the retraction of the chisel 7 is slower than that of the ram 4, since the toothed wheel 6 engaging the teeth of the chamfering chisel 7 has fewer teeth than the toothed wheel 5. ' The chamfering chisel 7 cuts into the work piece for the purpose of chamfering and countersinking around the difference in the downward slope that arises as a result. The return difference, which is expediently small, determines a uniform chip removal for the chamfering chisel7 and loads it only slightly and completely evenly during the chamfering and countersinking during the entire work process. This results in 'an always uniform processing of each workpiece regardless of material strength and other differences.

What is essential is the operational reliability that is given, above all the protection of the beveling chisel 7, its advance _; For example, each revolution is only as large as a fraction of a millimeter.

When the tap 2 returns, a pin 9 pressed together by the resistance of a pin pushes Spiral spring 8 which is mounted in a recess of the plunger 4 ^ (See Fig. 3 and 4) ,, ram and chisel again, in the starting position: -This process takes place works in the same way, but with the opposite effect, and works too here again the ram faster, so that the chamfering chisel 7 soon moves away from the workpiece lifts off, which in particular protects its cutting edge by preventing back grinding. The ram and chisel form two mutually controlling devices, one of which is the others are always given a different feed rate due to the unequal gears.

Claims (2)

Patent claims: r. Device for producing internal threads with simultaneous chamfering and countersinking. of the thread, in which the chamfering chisel when proceeding with the tap slightly receding, characterized in that a plunger (4), the during the forward movement of the gel. tap tap (2) through the fixed Workpiece is driven back, by means of two on one in the chuck (1) perpendicular to the tap (2) arranged axis fixed, differently sized gears (5 and 6) with the chamfering chisel (7) is in connection, so that the Abfasmeißel (7) slower than the Plunger (4) and recedes evenly. 2. Device according to. Claim 1 characterized by a spring (8) which is compressed when the tap (2) moves forward and when Withdrawal of the tap (2), ram (4) and chamfering chisel (7) into the starting position brings back. 1 sheet of drawings