DE1076465B - Hand clamping three-jaw chuck - Google Patents

Description

GERMAN

The invention relates to a manual three-jaw chuck with adjustable by a drive ring Base jaws.

Because of the increasing torques of the high-performance lathes and because of the always Increasing speeds result in the need to use the clamping force of lathe chucks to increase the previously usual and known level. So are those acting on the cheeks Centrifugal forces in manual chucks of normal size of about 250 mm in diameter and at one speed from 5000 rpm about three thousand times the jaw weight. In practice this means that at a centrifugal force of several tons, depending on the jaw weight, of the normal external clamping Counteracts tension.

However, the designs of manual chucks that have been customary up to now do not generate a sufficiently high clamping force, which, in addition to absorbing the centrifugal forces, also has a sufficiently large entrainment effect for the workpiece can achieve. At least such a high clamping force generation is excessive without the expenditure of any high key torque or special lubrication measures are not possible. The production Particularly high jaw forces cannot be achieved with the usual chucks because up to now for the jaw drive slim wedges, e.g. B. tension spirals, chain wedges or designed as tension curves, eccentric arcs can be used. However, such narrow wedge angles have the disadvantage poor efficiency.

There are already chucks with base jaws that can be adjusted by a drive ring that are connected to the drive ring hingedly connected by tabs have been proposed. But with these chucks also do not yet achieve sufficiently high jaw forces, since only a simple force transmission takes place here and the tabs, which are inclined to the tensioning direction, only part of the force transmitted to them pass it on to the clamping jaws.

In order to avoid the disadvantages described above, it is proposed according to the invention, in the case of hand-clamping three-jaw chucks, which have base jaws adjustable by a drive ring, which are articulated to the drive ring by means of intermediate links are to design the intermediate links as levers mounted in the base body. This with a big one Clamping levers equipped with a transmission swing during the clamping process at right angles to the axis of rotation.

In the practical version, the drive ring is provided with radial grooves in which the Lever ends connected sliding blocks are performed. The levers are advantageously on in the base body mounted bolts and with eccentric to manual clamping three-jaw chuck

Applicant:

Paul Forkardt

Limited partnership,

Düsseldorf, Rosenstr. 44-46

Hans Blättry, Düsseldorf,
has been named as the inventor

provided the pin arranged pin for the sliding blocks guided in the base jaws. Through this you can achieve a very large translation through the lever.

The drive ring can be driven by a hand-operated worm or by a spindle or the like. take place. The self-locking of the feed is therefore only in the snail, i. H. at the entry point the key torque.

The arrangement of the two sliding blocks per lever secures all force-transmitting and centering ones Make a sufficiently large dimensioned surface contact. The cheeks are supported by the Slide block, the lever and the pivot pin directly in the rigid chuck body, an arrangement that is essential for high long-term accuracy.

In the drawing, an embodiment of a three-jaw chuck according to the invention is shown, namely shows

Fig. 1 is a cross section and

Fig. 2 is a plan view partially in section.

In the chuck body 1, a drive ring 2 is mounted, which on its outer circumference with a worm gear 3 is provided, in which a screw 4 engages. The worm shaft is in a known manner provided with a square 5 to operate the chuck with the help of a key.

In the chuck body 1, three base jaws 6 are guided in a known manner, with top jaws 7 can be provided. Bolts 8 are fastened in the chuck body 1 below the base jaws 6. A lever 9 is mounted on each bolt 8 and carries a pin 10 which is surrounded by a stone 11. This stone can move in a short groove in the base jaw 6. The other end of the lever 9 carries a pin 12 with a stone 13 which can slide in the groove 14 of the drive ring 2.

909 757/140

If the worm 4 is operated, it is here-. '- rotated by the drive ring 2. The levers 9 are then pivoted via the stones 13 ', as a result of which the pins 10 with stones 11 are accordingly pivoted slightly. As a result of the displacement of the stones 11, the Graridb, acken <} and thus the top jaws 7 are displaced. If the pins 10 have a slight eccentricity in relation to the bolts 8, a very large translation and thus a high clamping force of the chuck is achieved.

The chuck body 1 is connected to the machine spindle in the usual way by means of screws IS. The dashed circles lfi indicated in FIG indicate balancing holes for the chuck body.

Claims (4)

PATENT CLAIMS: 1. Hand-held three-jaw chuck with base jaws that can be adjusted by means of a drive ring, which are connected to the Drive ring articulated by intermediate links ": syfd, characterized in that the Intermediate members are designed as levers (9) mounted in the base body (1). 2. Three-jaw chuck according to claim 1, characterized in that the drive ring (2) is provided with radial grooves (14) in which sliding blocks (13) connected to the lever ends are guided. 3. Three-jaw chuck according to claims 1 and 2, characterized in that the lever (9) on in the base body (1) fastened bolts (8) mounted and arranged eccentrically to the bolts Pins (10) for the sliding blocks (11) guided in the base jaws (6) are provided. 4. three-jaw chuck according to claims 1 to 3, characterized in that the drive ring (2) in a known manner by a hand-operated worm (4), spindle or the like. Adjustable. Considered publications:
Swiss Patent No. 82091;
U.S. Patent No. 1,321,739, 1 sheet of drawings © 909 757/140 2.