DE460726C - Chuck for rotating tools - Google Patents

Description

The invention relates to a clamping chuck for a larger number of graduated diameters, tools subjected to torsion. The purpose of the invention is to prevent tool breakage as a result of Verdrelmngsbeanspretzung to avoid and the torque causing the entrainment according to the diameter of the tool to regulate.

The well-known chucks consist of two parts: one takes the driving torque and the other carries the tools. Both parts are through a coupling device connected, which is formed by two rods running parallel to the feed axis, which are connected to one of the actual Feed-carrying driving sleeve are firmly connected and by a spring pressure standing inclined surface are connected to the driving parts in such a way that the The driving torque changes according to the jaw width of the tool holder.

With these devices there is the regulation of the lever arm of the entrainer Couple of forces only for a distance equal to the difference between the radii of the corresponds to the largest and smallest tools that the chuck can accommodate. This control system is absolutely inadequate; because the twist resistance of a tool changes much faster than its diameter. The well-known tool holder with automatic control of this type therefore do not provide one for all tools good scheme.

The invention consists in the fact that this inadequate control path is greatly enlarged and the adjustment on this route is faster than the adjustment the cheeks.

The drawing illustrates an embodiment of the invention.

Fig. Ι is a longitudinal section of one embodiment.

Fig. 2 is a section along the line H-II of Fig. 1.

Fig. 3 is a horizontal section along the line IH-III of Fig. 1.

Fig. 4 is a horizontal section along the line IV-IV of Fig. 1.

Fig. 5 is a longitudinal section of another embodiment and

Fig. 6 is a horizontal section along the line VI-VI in Fig. 5.

Fig. 7 is a longitudinal section of a third embodiment and

Fig. 8 is a horizontal section along the line VIII-VIII in Fig. 7.

In the embodiment according to FIGS. 1 to 4, the driving force is transmitted to the drive sleeve 1, which ^{carries a conical shaft i ß} for insertion into the machine head. The sleeve 1 also carries in a recess ι ⁶ a rotatable about an axis 3 lever 2. A spring 4 is between the bottom of the recess ι * and

the lever 2 inserted, so that it is the latter constantly down against one in the Chuck body 6 arranged ball bearing 5 presses.

In the chuck body 6, a screw 7 is rotatably mounted, which carries a guided in a groove 6 'of the chuck body nut. 8 This nut is cut obliquely at its upper part 8 ° and lies with this part against a correspondingly formed part 2 ^a of the Lever 2. By turning the screw 7 in one sense or the other, according to the invention, the position of the nut 8 and consequently the moment of driving force exerted on the nut can be changed with respect to the axis of rotation Screw 7 by turning the adjusting nut 9, whereby the clamping of the tool is effected by the jaws 10. For this purpose the screw 7 has a star y ^a at one end and the adjusting nut 9 has projections g ^a rotates, rotate their projections 9 "the star arms γ" of the screw 7 and thus adjust the nut 8. By appropriate formation of the pitch of the conical thread of the nut 9 and the Screw 7, the nut 8 can be adjusted to such an extent that the driving torque becomes greater the greater the diameter of the tool to be clamped. The adjustment path of the position of the nut 8 is considerably greater than that of the tool jaws, so that the torque changes approximately like the torsional resistance of the various tools.

The device works as follows:

The coupling torque of the sleeve 1 and the chuck body 6 is transmitted through the inclined surfaces 2 ^a and 8 ^a . If one denotes the pressure exerted by the spring with p, the radius from the axis to the nut with r and the inclination of the contact surface with α and the angle of friction with φ, then the driving force acting on the bolt 8 is the same

p-r-tg (a + <p).

As soon as the resistance torque of the tool is greater than the aforementioned j pr «tg (af-cp), the lever 2 is raised and the decoupling takes place. The uncoupling is ended after a single turn of the sleeve ι, and the nut 8 is detected again.

Figs. 5 and 6 show further embodiments in which the oscillating lever is replaced by a rod guided in the cylindrical part, which is parallel to the axis of rotation can adjust. This rod 11 is with its head in a recess 12 ° the sleeve 12 is supported and is constantly pressed downwards by the rod spring 13. The load is constant and the torque required for decoupling is constant will only depend on the distance between the nut and the axis of rotation.

In the embodiment according to FIGS. 7 and 8, the nut 16 is carried along by a lever 15 which can be pivoted about the vertical axis x, y. At the opposite end, the lever carries a cylindrical part around which one end of the spring 17 is placed, the other end of which is fastened to a pin 18. The lever, spring and rod are attached to the drive sleeve 14. As in the other embodiments, the greater the torque to be transmitted, the further away the nut 16 is from the axis of rotation.

Claims (2)

Patent claims: i. Clamping chuck for rotating tools, in which the chuck body is taken along by means of a spring-loaded rod which is connected by an inclined surface to a nut, the position of which changes according to the diameter of the tool, characterized in that the under the action of the Adjusting nut (9) of the jaws "(10) the displacement of the nut (8 or 16) takes place faster than the displacement of the jaws (10) of the chuck. _Lao 2. clamping chuck according to claim 1, characterized characterized in that the displacement of the nut (8 or 16) with a Screw (7) is effected, which is driven by the adjusting nut (9) of the jaws (10) will. 1 sheet of drawings.