DE579270C - Internal clamping device for processing thin-walled, especially round hollow bodies - Google Patents

Description

The processing of hollow bodies, for example pipes, then creates particular difficulties, if they have to absorb radial clamping pressure and their walls are particularly thin, i.e. cannot withstand a large clamping pressure can. If such hollow bodies are tensioned enough to accommodate the torque caused by the machining tool to be able to absorb, then they easily suffer changes in shape, for example out of round. This is particularly annoying when milling threads on thin-walled ones Pipes noticeable because the machining resistance is extraordinarily high here, because the thread is in its entirety Milled length in one chip. If the hollow bodies still have unevenness at the clamping point, As is often the case with cast pipes, then they also fail common expanding mandrel-like clamping devices, because their individual clamping jaws are driven apart evenly by common cones and so that Press the pipe out of round at the point where there is an unevenness. There are also already equipped with Ouerringen clamping devices have become known, which to adjust any roundness of the workpiece, but this is only imperfect achieved, and there such devices do not hold the workpiece rigid enough firmly, and they only support the workpiece at a narrow clamping point while the remaining part of which is not supported from the inside and therefore by the operator Tool is easily forced into a distorted shape. Thin-walled hollow bodies should If possible, supported evenly from the inside over the entire machining length be that, like a rigid body, they can also absorb strong radial pressure without that they suffer a change in shape. One has already been enclosed in a housing Balls are used to clamp workpieces by using the pressure exerted on these balls directly or indirectly can act on the workpiece, but it is only a vice-like Devices that cannot be used for clamping hollow bodies.

The subject of the invention differs from these known clamping devices in that hardened steel balls are housed here in a cylindrical hollow body which are pressed radially outward against the workpiece by pressure acting in the axial direction.

The drawing illustrates the new clamping device in one embodiment in longitudinal section.

The new clamping device consists mainly of a pot-like hollow body 16, the lid 17 of which by a centrally penetrating himself and the bottom of the pot Screw 18 can be moved relative to the bottom of the pot. In the side

wall of the pot a large number of clamping pins 19 is slidably guided. These pens are distributed over the entire circumference of the pot in any arrangement. The pins are secured against falling out by spikes 20 which are mounted in the pot wall and penetrate the pins transversely. The cavity of the pot is provided with hardened and polished steel balls 21.

to filled. By tightening the nut 22 - the rotation of the screw is prevented by a nose 23 extending from it - wind the lid 17 is moved into the interior of the pot and the balls 21 are thereby pressed together and urge the pins 19 outwards against the inner wall of the pipe to be clamped. Any bumps the clamping point of the pipe can evade the corresponding clamping pins 19 by they lag behind the neighboring pins. The balls make one possible complete pressure equalization, even if the individual clamping pins are not equally far out the pot can step forward against the workpiece. The distributed over the entire clamping or working length of the device Clamping pins provide effective support for the entire workpiece Working area.

If you put the side wall of the pot through a mesh with a mesh size, which is smaller than the ball diameter, you can replace the balls directly let the pipe wall act, which gives you even more support points. Instead of A sieve-like perforated sheet metal jacket can of course also be used for the braid.

Claims (3)

Patent claims: 1. Internal clamping device for processing thin-walled, especially round ones Hollow body by means of filler bodies which radially stiffen the workpiece, characterized in that that the device consists in a manner known per se from a hollow body filled with steel balls, in which the steel balls through an axially directed. Pressure force 'radially apart- and are pressed directly or indirectly against the workpiece. 2. Apparatus according to claim 1, characterized in that in the side wall of a pot (16) equal a large number over their entire length Cross-section having clamping pins (19) radially displaceable in any arrangement are performed, which after tightening the pot lid (17) by balls (21) are pressed outwards against the inner wall of the workpiece. 3. Apparatus according to claim 1, characterized in that the side wall of the pot from a mesh with a mesh size that is smaller than the ball diameter or from a sieve-like perforated sheet metal jacket exists so that the balls act directly on the inner wall of the workpiece. 1 sheet of drawings