CS217674B1 - Clamping chuck - Google Patents

Abstract

The invention solves the problem of guiding the jaws in the body of the hammer. Until now, we know solutions to eliminate the influence of centrifugal forces by balancing, reducing the weight of the jaws, as well as by regulating the clamping force depending on the revolutions, the complexity of the entire clamping system affects it. The advantage of the present invention lies in the fact that it mitigates the mentioned disadvantages by means of tangentially guided jaws in the base body, adjusted by their clamping surface for contact with the external body. By creating a ratchet according to the invention, it is possible to increase the speed of the ratchet by capturing the centrifugal force directly with the body of the ratchet, with a high clamping force and very simple and cheap production.

Description

2

BACKGROUND OF THE INVENTION The present invention relates to a chuck, wherein a jaw guide is provided in the chuck body. So far known solutions of clamping jaws utilize radial clamping jaw guides, possibly a partially inclined guide in the radial plane. As the workpiece is clamped by turning the chuck onto the machine tool, the centrifugal force of the jaws acts in a radial direction, causing a drop in the clamping force and the danger of loosening the workpiece. This decrease is even more pronounced at high revolutions used in modern technology. The solutions to eliminate the effect of centrifugal force balancing, lowering the weight of the jaws, and regulating the clamping force as a function of speed, entails an increased complexity of the entire swinging system. The chuck is complicated, its stiffness is reduced, the chucking passage is not allowed to pass through, the chuck width increases, and the problems of direct attachment of the chuck to the machine spindle are increased.

The above-mentioned drawbacks are alleviated by the clamping chuck of the invention, the principle of which is that in the base body the tangentially guided supported jaws are fixed by their clamping surface for contact with the outer body, for example by a workpiece. A further development of the invention is that the supported head guided in the tangential guide of the base body engages with a substantially cylindrical actuating body guided in the base body, at least one actuating outlet for at least one actuating hinge formed on second. An important feature of the invention is that any normal clamping surface of the supported jaw is perpendicular to the tangentially guiding recess of the base body.

Another important feature of the invention is that the supported jaw is made relative to the actuating body movable and that the supported jaw is replaceable to another, and furthermore, that the supported jaw is connected to a gripping jaw on which the clamping surface is formed.

By providing a chuck according to the invention, it is possible to increase the chuck speed by capturing the centrifugal force directly by the chuck body, the high clamping force is very simple to manufacture, it is possible to attach it to the machine spindle without substantial enlargement of the chuck body as well as large spinning agents for bar materials. The possibility of rapid replacement or rebuilding merely shows the advantages mentioned.

The accompanying drawings show examples of the construction of a chuck according to the invention, wherein FIG. 1 shows a front view of a chuck with a tangentially guided support in FIG. 2 showing two possible embodiments of a chuck according to the invention; Fig. 3 shows another embodiment of a chuck according to the invention also in axial section. Fig. 4 is a front view and a partial cross-section of the chuck in the embodiment of Fig. 3. Fig. 5 is a circumferential partial hunger in the direction of the arrow I of the chuck in the embodiment of Fig. 3.

According to the invention, the clamping chuck is assembled from the base body 20 supported by the spool (10) of the actuating body 30 and, in the embodiment shown in FIG. 3, by a drive body 60. Three tan-guiding recesses 21 of generally used shape are formed in the base body 20 letters T, in which sliding support jaws 10 are guided. Actuating projections 13 are provided on the head 14 of the jaw 10 for engagement with the control projections 31 of the actuating body 30. In the transfer of the chuck, according to FIG. a centrally toothed coulter located in the axial recess 22 of the base hotel 20, which, in the case of moving the clamping surface 15 of the supported jaw 10 from when it is rotated in the direction of the arrow "a", can be toothed in an axial direction by sloping teeth which will be similar in the axial recess 22 of the base body 20 but controlled in the direction of the arrow "b". In the transfer of the chuck according to FIG. 3, control bodies 30 are located in the base body 20 behind the supported jaws 10, which, with their control projections 31, engage with the actuating recesses 13 formed in this transfer on the rear side of the head 14, which are not supported. .

The engagement of the clamping surfaces 15 of the supported shell 10 with the outer body 50 secures a centrally-driven drive body 60 which, with its recesses 63, co-operates with the drive openings 36 of the actuating bodies 30 rotated in the case of a centrally toothed body or displaced in the case of a central housing. rod.

The adjustments or the replacement of the supported lugs 10 can be realized by sliding the actuating lugs 31 of the actuating bodies 30 out of engagement with the actuating recesses 13 of the supported jaws 10 and slipping them into the necessary actuation recesses 13 supported by the jaws 10.

Clamping force as well as power stroke! This is achieved by contacting the clamping surface 15 of the jaw 10 with the outer body 50 of the workpiece, which is determined by the mutually inclined recesses 23 of the control projections 31, the drive projections 63 as well as the normal clamping surface 15 of the gripper 10. to connect one of the conventional methods with the clamping jaw 11 to which the clamping surface 15 is then formed.

The tangentially guided supported jaws 15 can also be separated, for example, in the case of eccentric clamping. The operation of the chuck is provided by conventional control units available, for example, by hydraulic pulling rollers.

Claims (6)

3 SUBJECT OF THE INVENTION Clamping chuck consisting of a base body, supported jaws and at least one actuating body for conveying the movement of supported jaws from the workpiece and characterized in that in the base body (20) there are tangentially guided non-pickers (10) with a fixed clamping surface ( 15) for contact with the outer body (50) e.g. 2. Clamping chuck according to claim 1, characterized in that the supported chuck (10), guided by a tangential guide recess (21) of the base body (20), substantially coincides with a cylindrical actuating body (30) in the base. a body (20), wherein either the control body (30) or the control body (30) has at least one control projection (31) formed for the at least one control recess (13) of the other. 3. The clamping chuck of item 1 or 2, wherein the normal of each clamping surface (15) carried by the jaw (10) lies at a plane inclined to the tangential guide recess (21) of the base body (20). 4. The clamping chuck according to items 1 to 3, characterized in that the supported chuck (10) is adjustable relative to the actuating body (30). 5. The chuck according to claims 1 to 4, wherein the supported chuck (10) is replaceable. Clamping chuck according to Claims 1 to 5, characterized in that the supported chuck (10) is connected to a clamping jaw (11) on which the clamping surface (15) is formed. . 1 drawing