DE956731C - Chuck with individually and jointly adjustable clamping jaws - Google Patents

Description

ISSUED JANUARY 24, 1957

B 31041 Ib 149 a

The invention relates to a chuck, the jaws of which by means of threaded spindles both in common as well as after switching off a device effecting the common adjustment are individually adjustable by turning the spindles.

In a known chuck of the aforementioned type, the chuck body is rotatable but not equipped with lockable and therefore non-displaceable spindles on which the jaws are located move radially. An axially movable coupling cone is arranged on the head of the spindles, which engages in the hollow-conical hub of a pinion with the same axis as the spindle, which is connected to a Combs the ring gear in the chuck housing. The displacement of the coupling cone is used with the Spindle coaxial with it loosely penetrated screw plug in the chuck body, which with the Coupling cone is firmly connected. When the coupling cones of all spindles by screwing the screw plugs are coupled with the pinions, then all of them can be opened over the ring gear Rotate the spindles at the same time so that the clamping jaws are adjusted together. When solved Cones, each spindle can be turned independently and thus each jaw can be adjusted individually. at this chuck has the main disadvantage that the relatively very small cone couplings with centric clamping absorb all moments of force occurring during clamping must, whereby overuse is unavoidable

are borrowed, which lead to premature wear and slip, so that perfect tightening is no longer possible.

According to the invention, the threaded spindles with collars in the base jaws can be rotated and locked stored and screwed in rotatable, radially immovable in the chuck body Spindle nuts that can be driven together by means of a self-locking drive. Through this ίο a chuck is created, in which the spindles in the case of individual adjustment of the jaws screw into the nuts in the chuck body, which are caused by the self-locking of the the drive provided for them cannot rotate with them; the jaws are thereby of the Spindle heads taken. If all jaws are to be adjusted at the same time, the Spindle heads in the base jaws or in the jaws themselves determined so that the spindles ao rotation are prevented. The nuts are rotated via the common drive, whereby the spindles are unscrewed or screwed into the nuts depending on the drive direction and the jaws are moved together accordingly. Here have the Only the relatively low frictional resistance secures the spindles against turning of the spindles in the nuts.

For the common drive of the spindles, the spindle nuts expediently have a on the circumference Worm gears for worm gears, whose axes are interconnected by bevel gears in mutual drive connection.

To drive the spindles individually, engage in the serrated collars Locking pieces, which are arranged in the base jaws and can be locked by means of screws. Another advantage of the invention is that the transmission is completely encapsulated in the Chuck body is and therefore before the incidence of chips with the disadvantages caused by this is protected.

The drawing illustrates an exemplary embodiment of the invention.

Fig. Ι shows a cross section of the chuck in the axial direction;

Fig. 2 shows a rear view of the chuck with the gearbox partially exposed; Figure 3 is a top plan view of the spindle and base jaw;

Fig. 4 shows the locking device for the spindles in a front view.

The base jaws or are in the chuck body 1 Jaw carriers 2, which carry the top jaws 3, are arranged to be radially displaceable. In the base jaws the heads 4 of the spindles 5 are rotatable via the balls 6, but not axially displaceable stored.

A serration 9 is provided on the circumference of the spindle heads 4. Same serration 7 has the end face of the locking pieces 8 facing the spindle heads, which can be displaced against the spindle heads.

The screws 10 with heads 11 are used to fix the spindle heads.

A polygon socket 12 for a socket wrench is provided in the spindle heads.

The base jaw and the top jaw can also consist of one piece.

The spindles 5 engage in nuts 13 which are inserted into bores 14 of the chuck body with balls 16 and 18 rotatable between the socket ring 15 and the nut ring 17, but not axially displaceable are stored. The nuts 13 have worm teeth on the outer circumference. In these the snails 21 intervene. The screws are with the bearing bushes 19 in the bearings 20 in Chuck body stored. The individual worms have bevel gears 2 at their end journals, which comb each other. An end pin of a screw runs into a square 25 on the a sleeve 24 corresponding to a square inner shape is pushed on. The latter is stored in the chuck body. In the free square part 23 of the sleeve, a socket wrench can be used to turn the worm be plugged in.

The new feed works as follows:

If the jaws are to be moved individually, the spindles 5 will counter-rotate the locking device 7, 8, 9 released by means of the screws 10. The spindles can then with one inserted into the polygonal socket 12 of their heads 4 Keys are turned individually, screwing them into the nuts 13, which are prevented by the self-locking of the worms 21 from rotating. Adjust here the jaws according to the direction of rotation of the spindles.

If all jaws are to be adjusted at the same time, then the spindles on their heads are through the locking pieces 8 set so that they can not rotate. About one in the square opening 23 of the socket 24 inserted socket wrench "If a worm is rotated, whereby all worms rotate via the bevel gears 22. The worms turn the nuts 13 over their worm teeth attached to the circumference. As a result, all spindles are simultaneously in the Nuts 13 screwed in or unscrewed and thus adjusted all jaws at the same time.

Claims (3)

Patent claims: i. Chuck, its jaws by means of threaded spindles both jointly and after switching off a device that effects the joint adjustment of the jaws Rotating the spindles are individually adjustable, characterized in that the thread iao spindles (5) with collars (4) in the base "jaws (2) rotatable and lockable and are located in rotatable spindle nuts (13) that cannot be moved radially in the chuck body screw, which can be driven together by means of a self-locking drive. 2. Chuck according to claim i, characterized in that that the spindle nuts (13) on the common drive of the spindles (5) Circumference have a worm toothing for worm gears (21), the axes of which are with each other are in mutual drive connection by bevel gears (22). 3. Chuck according to claim 1 and 2, characterized in that the individual drive the spindles (5) in the collar (4) provided with a serration (9) locking pieces (18), which are arranged in the base jaws (2) and secured by means of screws (10) can be determined. Considered publications:
German Patent Nos. 151,693, 74508; Austrian patent specification No. 139 789. 1 sheet of drawings 609 577/261 7.S6 (609 773 1. 57)