CS263385B1 - Force-operated chuck with tangential bars - Google Patents

Abstract

The solution concerns power-controlled tangential bar chucks his physical creation. The essence of the solution is that the control tooth of the slide chuck is in the inclined groove of the tangential bar arranged in a radial direction. Rie chucking allows you to increase the maximum chuck operating speed and glass with the elimination of centrifugal forces clamping elements to achieve a higher effect balancing. The application finds the most in technological workplaces with requirement higher chuck speeds during machining

Description

The present invention relates to a silo-controlled chuck with tangential rods and to its design.

At present, power-operated tangential bar chucks are designed such that the chuck of the chuck has a rectangular rectangular cross-sectional control teeth at an angular inclination to the direction of control of the slide, which are displaceably disposed in grooves of tangential rods of corresponding shape. The tangential bars are displaceably disposed in the base body and are most often engaged with the clamping elements by means of a toothing. Such an arrangement of the force mechanism makes it possible to exert relatively large clamping forces with less actuating force. With the advent of machining at higher speeds, the elimination of the centrifugal forces of the clamping elements was also solved. However, the incorporation of the balancing mechanism into the chuck brings a number of complications to its body design (the placement of the elimination weights, their interconnection with the clamping elements). Each other element requires its space inside the chuck, thereby reducing the rigidity of the already flexible chuck base body. At high speeds, the base body segments expand with their own centrifugal force in the radial direction and carry the clamping elements, the tangentially the bars and the elements of the balancing mechanism. This reduces the effect of the balancing mechanism and its benefits are not adequate to the complications it brings to the chuck arrangement. The production of such a chuck is expensive and achievable a maximum operating speed lower than would correspond to the associated balancing mechanism.

The above-mentioned disadvantages are alleviated by the power-operated tangential bar chuck according to the invention, which is based on the fact that the control tooth of the chuck of the chuck is fixed in the radial direction of the tangential bar.

A chuck with such a slide and tangential bars allows to increase the maximum permissible speed compared to the existing ones even without a balancing mechanism. Such a design of the chuck essentially does not add to labor and thus does not make production more expensive. And, in the case of chucks with a built-in balancing mechanism, it in turn helps to increase the balancing effect, since tangentially the bars are radially secured in the radial direction for displacement to the circumference and hence the adverse effect of expanding the chuck itself. disproportionately less than the deformation of the slit chuck base body.

The solution of the power-controlled tangential bar chuck of the invention is shown in the accompanying drawings, in which: FIG. 1 shows the chuck in a partial cross-section, FIG. 2 is an exemplary embodiment of a slide and a tangential rod in a sectional view, and FIG. 3 another embodiment of the slide and tangential rod is also shown in partial section.

The power-operated chuck 100 with tangential bars 120 consists of a base body 110, clamping elements 140 arranged by their radial guides 141 in the tilting guides 111 displaceable and interconnected by a gear 123 with tangential bars 120. The tangential bars 120 are displaceable in recesses 112 in the base body. 130 actuated by a known force element is co-engaged with the tangential bars 120 by means of the actuating teeth 131 inserted in the inclined groove 121 formed in the tangential bars 120. Possibilities of rigid arrangement of the tangential bar 120 and the slide 130 in the radial direction 'are shown in FIG. 2 and FIG. 3. In FIG. 2 is a solution wherein the slide 130 of the chuck 100 has dovetail teeth 132, each tangential rod 120 having a corresponding dovetail groove 122. Due to its shape, the dovetail tooth 132 itself holds the tangential rod 120 over its dovetail groove 121 in a radial direction and rigidly connected to the slide 130, thereby enabling the tangential bars 120 to be tangentially controlled by the axial movement of the slide 130. In FIG. 3 is another example of a fixed bond between tangential bar 120 and slide 130 using T-teeth 133 and T-grooves 124. The flange 150 functions as a base body 110, covering it after mounting the force mechanism and attaching the chuck 100 to a known machine spindle.

The solution of the chuck 100 according to the invention makes it possible to increase the operating parameters of the chucks without further labor requirements and enables the chucks with a centrifugal force elimination mechanism to achieve a higher balancing effect, which allows to increase the maximum operating speed.

The chuck according to the invention will find its application in modern technological workplaces where there are actual requirements of higher raw speeds and thus also higher revolutions.

Claims (2)

OBJECT OF THE INVENTION 1. A power-operated tangential bar chuck consisting of a base body, clamping elements arranged radially displaceable in flaps and interconnected, for example, by tangential bar toothing, displaceably disposed in recesses in the base body; angularly inclined to the direction of movement of the slide and slidably disposed in the inclined grooves formed on the tangential bars and alternatively from the centrifugal force elimination mechanism of the clamping elements, characterized in that the actuating tooth (131) of the slide (130) of the chuck (100) is in the inclined groove (121) a rod (120) fixed in the radial direction (a). 2. A power-operated tangential bar chuck according to claim 1 wherein the chuck (130) of the chuck (100) has dovetail teeth (132), each tangential rod (120) having a corresponding dovetail groove (122).