CS264846B1 - Chuck - Google Patents

Abstract

The solution relates to the chuck and solves the body formation of its axial stops and their smooth adjustment. The essence of this The solution is that the axial stop of the chuck has a threaded surface for engagement with adjusting screw equipment, while being its guide radially extending radially j groove. An important feature of the solution is that the individual adjusting screws the switching device are mutually by the control. CHUCK the solution makes it quite simple adjusting the axial stops as well as their exchange, allows these operations to be automated. Application finds the most in technological workplaces with a higher degree of automation.

Description

The invention relates to a chuck and to the design of an axial stop adjusting device,

At present, the continuous adjustment of the axial stops is not solved with the chucks.

The necessity of using axial stops is directly connected with the use of hard clamping jaws for rough machining of blanks. The axial stops are displaced relative to the center of the chuck either by moving the bar provided in the radial groove, in which the axial stops are anchored, for example, screwed or by stepwise displacement of the axial stops into holes arranged from the chuck face at different diameters. Adjusting or replacing axial stops with such solutions is time consuming and labor intensive and moreover it is not easy to automate the chuck alignment complexly, since it is necessary to automatically align the axial stops as well. Moreover, the adjustment or replacement of the axial stops takes place one by one, which also increases the alignment times of the chuck.

The above-mentioned disadvantages are alleviated by the chuck according to the invention, which is based on the fact that the axial stop of the chuck has a threaded surface for engagement with the adjusting screw of the adjusting device, while its guide surfaces engage the radial guide in the radial groove. An important feature of the automation solution is that the individual adjusting screws of the adjusting device are interconnected by an operating element.

The chuck according to the invention makes it possible to continuously adjust the axial stops and to replace them if necessary. The handling of the axial stops is considerably simpler, opening up the possibilities of automating the adjustment of the axial stops as well as their replacement, which makes it possible to control the complexly automatic alignment of the chuck to the new clamping function.

In the accompanying drawings, a chuck according to the invention is shown. 1 shows a cross-sectional view of an embodiment of a chuck; FIG. 2a, b show examples of axial stops in perspective, FIG. 3 is an example of a radial groove with the adjusting device in cross-section, and FIG. 4 is a cross-sectional view of another example of a chuck according to the invention.

The chuck 100 according to the invention consists of a base body 110, a force mechanism 120, base jaws 130, clamping jaws 140 and axial stops 150 In the base body 110 radial tilting guides 111 are formed in which the base jaws 130 are connected in a known manner to the clamping jaws 140 The base body 110 furthermore has radial grooves 112 in which the adjusting devices are arranged radially.

160 formed by an adjustment screw 161 mounted radially in the base body 110 and rotatable about its axis. The adjusting screw 161 is engaged with the threaded surface 162 formed on the axial stop 150, the axial stop 150 having the guide surfaces 151 and the positioning surface 152 axially spaced apart. The guide surfaces 151 engage the radial stop 150 in the radial guide 113 formed in the radial groove. 112. The adjusting screw 161 has a control opening 163 for the tool for rotating the adjusting screw formed from the peripheral side of the chuck 100.

161 such as a screwdriver. In FIG. 3 is an example of a solution for continuously adjusting the axial stops 150, wherein in the radial groove 112 a carrier 170 having a threaded surface 162, guide surfaces 151 and a seat 171 for an axial stop 150 that is replaceable in the carrier 70 is moved. The adjusting screw 161 is secured in the radial groove 112 by the lid 114. In places where the adjusting screw 161 is not covered by the carrier 170, it could be contaminated and therefore a cover element 180 is arranged between the carrier 170 and the radial groove 112, e.g. accordion gasket 181.

In order to adjust all axial stops 150 at the same time, it is advantageous to interconnect all the adjusting screws 1611 with an operating element 164, which may be, for example, a gear ring 165 which is rotatably supported on the periphery of the chuck 110 and axially secured by a locking screw 116 the ring gear 165 to the circumferential groove 115 formed on the circumference of the base body 110. the gear ring 165 is, in a spur gear 166 in engagement with the adjusting the screws 161, which are formed for engaging the pinion 167 · ^Na ~ TACAN ring gear 165 can be performed by any conventional method rendering either by means of a special key, or directly by locking the ring gear 165 with respect to the fixed part of the machine with the spindle turning, which are common and known methods in the displacement of the base jaws 130 of the chuck 100.

The chuck 100 according to the invention allows the axial stops 150 to be adjusted easily, possibly replaced, and opens up possibilities for automating these operations. It can be used on machine tools with a higher degree of automation, with programmed technological process control.

Claims (4)

1. Chuck consisting of a base body, a force mechanism, base jaws arranged in tilting guides, clamping jaws, replaceable axial stops arranged in radial grooves and an adjusting device formed by an adjusting bolt arranged radially and rotatable about its axis in the base body the axial stop (150) of the chuck (100) has a threaded surface (162) for engagement with the adjusting screw (161) of the adjusting device (160), while its guide surfaces (151) engage the radial guide (113) in the radial groove (112). Chuck according to Claim 1, characterized in that a support (170) is provided between the adjusting screw (161) of the adjusting device (160) and the axial stop (150), which has a threaded surface (162), guide surfaces (151) and a seat (171) for the axial stop (150). Chuck according to Claims 1 and 2, characterized in that a cover element (180) is arranged between the support (170) of the axial stops (150) and the radial groove (112). Chuck according to one of Claims 1 to 3, characterized in that the individual adjusting screws (161) of the adjusting device (160) are connected by an operating element (164).