DE605632C - Device for tensioning and loosening a driver for turning benches which automatically retensioning under the cutting pressure, also suitable for receiving non-round workpieces - Google Patents

Description

Driver for lathes, where additional tensioning is required under the cutting pressure are known. However, the known designs do not meet all requirements fair, which are to be placed on a reliable and easy-to-use driver. The circumferential force to be introduced into the driver influences the clamping parts of the driver in the known devices via eccentrics or eccentric-like levers Way that a contact pressure corresponding to the respective cutting force or circumferential force arises. Now, however, the driver should be designed in such a way that the contact pressure that has arisen after the greatest load is persists and does not drop when the torque to be transmitted increases again decreased. In the latter case a complete loosening of the driver would occur under certain circumstances, because the clamping jaws are under the additional post-tensioning compared to manual tensioning have dug further into the workpiece. This risk can be countered by the fact that in the for the additional post-tensioning some self-locking member is inserted into certain parts. With the known This is partly the case in some statements; in other versions, the self-locking is dispensed with in order to create new ones to avoid associated difficulties. Namely, it must be possible, the clamping parts that have adjusted to a corresponding contact pressure with the greatest torque, easy to release by hand without having to move other operating parts than just the square provided for a crank or a socket wrench. For drivers whose retensioning parts are designed to be self-locking for the reasons given above, this is the case however, this is not readily possible, since the contact pressure on the clamping parts may under certain circumstances has become so large that the spindles used for manual clamping are not let solve more. A release is in the known designs, insofar as they are self-locking are only possible by knocking open the eccentric or lever. The subject of the invention eliminates these disadvantages and enables the clamping parts to be easily loosened by moving the square bars used for manual tensioning.

Fig. Ι shows a section across the driver.

Fig. 2 and 3 show further sections.

Fig. 4 shows a detail.

The workpiece W is gripped by three clamping jaws, two of which are firmly inserted in the lower clamping bracket a, and the third, movably arranged, in the upper clamping bracket b . By means of a self-locking eccentric c, the two clamping brackets are held together in an articulated manner in such a way that when the lever k wedged on the eccentric is pivoted in the direction of the arrow, the brackets α and δ are clamped together towards the workpiece. With the help of the threaded spindle d and the wheels e and f , the clamps are tensioned by hand from the shaft g. The displaceably arranged clamping jaw h can be moved a few millimeters by turning the likewise self-locking eccentric i. Via housing I, driver

bolt w> and lever k , the rotary movement is transmitted to the driver.

How it works: The workpiece is inserted into the open driver. By turning the square of the shaft g, on which the wheel f is keyed, the nut wheel β is brought into contact with the collar of the threaded spindle ^, whereby the threaded spindle d pulls into the joint nut ο ίο (Fig. 4) as it continues to turn Tightening the. both clamps by hand. If a rotary movement is now initiated in the direction of the arrow in the housing I , a circumferential force corresponding to the respective torque results at the driving pin m , which causes the lever k or the eccentric c to pivot and thus additional mechanical tensioning. The self-locking of the eccentric c prevents the tension from being released when the torque present on the workpiece is reduced or disappears, so that the clamping force that has been set at the greatest torque always remains in full.

To loosen the clamping bracket, the square of the shaft g is turned by hand in the opposite direction to that when clamping. The friction between the flat thread of the spindle d and the pivot nut 0 as well as between the collar of the | The spindle and the joint body f (Fig. 4) are so large that the spindle cannot be unscrewed by hand at first; instead, the nut wheel & screws itself up on the steep threaded part of the spindle d (Fig. 1) and gives the levers η (Fig. 3), which are guided by sliding blocks in the nut wheel,. a pivoting movement outwards, so that the eccentric i is moved a few millimeters in the direction opposite to the workpiece W. This immediately results in complete relief of the tensioning bracket. After the nut wheel e has been brought into contact with the collars q by further turning the shaft g, the spindle in the nut thread of the articulated nut 0 will easily unscrew and the two clamps will open.

During the next tensioning process, the nut wheel e is first screwed down onto the collar of the spindle, i.e. at the same time the self-locking eccentric i is brought into its lowest position, which is absolutely necessary in order to relax the two brackets α and δ again after the mechanical tension has taken effect can.

The above-described mode of operation of the clamping and releasing device is achieved as soon as the difference in the pitch in the two threaded parts of the spindle ^ is chosen to be sufficiently large. So that the driving pin m and the eccentric c are returned to their initial position after each relaxation of the clamping bracket, a spring is arranged between the housing I and the clamping bracket α , which turns the clamping parts in the direction of whistling relative to the housing, i.e. the lever k swivels back into the initial position.

The pins r on the eccentrics * and c, which engage in grooves s in the housing I and in those in the cover t , prevent the driver from falling down onto the housing when it is released (Fig. 1 and 2). In order to achieve a sufficiently large contact pressure of the clamping jaws on the workpiece, the ratio of the eccentricity to the lever arm of the lever k is chosen so that a safe entrainment of the workpiece is guaranteed in any case with any torque occurring.

Claims (3)

Patent claims: i. Device for tensioning and releasing a driver for lathes which is automatically retensioned under the cutting pressure and is also suitable for accommodating non-circular workpieces, the post-cutting of which is carried out by a self-locking clamping member adjusted by the cutting pressure in that two hinged clamping brackets are moved against the workpiece, characterized in that, that the one clamping bracket (δ) with respect to two fixed in the other clamping bracket (a) clamping jaws having a radially displaceable relative to the workpiece (W), comprising by a self-locking eccentric (i) moving jaw (h), which upon release of the clamping device for the two clamping bracket (a, b) is first solved for itself. 2. Apparatus according to claim 1, characterized in that the two clamping brackets (a, b) are moved by a spindle (A) mounted in one bracket (δ) loo between collars, which is threaded into a hinge nut (0) of the other Bracket (a) engages, and the other end, which is provided with a steeper thread and limited by a collar (q) , carries a nut wheel (e) which is connected to the eccentric (i) via fork lever (n) . 3. Apparatus according to claim 1 and 2, characterized in that the two no clamping brackets (a, b) on the side opposite the 'Spannspindel (i?) By one with lifters (k) and a driving pin (m) on the housing (I ) attacking self-locking eccentric (c) comparable to each other n ₅ are connected. 1 sheet of drawings