DE3532648A1 - Device for the internal clamping and centring of hollow-cylindrical parts - Google Patents

Abstract

A device (1) for the internal clamping and centring of hollow-cylindrical parts, especially tubes (3), has a shaft (4) insertable into the tube end (2) and having at least three first joints (17), arranged distributed uniformly on the circumference of the shaft and connected rigidly to the shaft, for radially outwardly pivotable first articulated levers (14), and a ring (16) which is axially displaceable on the shaft (4) and on which outwardly pivotable second articulated levers (15) corresponding in number and arrangement to the first articulated levers (14) are articulated in second joints (18). A first articulated lever (14) is connected respectively to a second articulated lever (15) of the ring (16) via a third joint (19) and forms a pair of joints which, when the ring (16) is moved in the direction of the first joints (17), can be moved radially outwards. A respective one of the articulated levers (15) forming a pair of joints is bent outwards at its free end, the third joint (19) being arranged at the free end or a little below the bend (21) of the respective articulated lever (15). <IMAGE>

Description

The invention relates to a device for indoor

clamping and centering hollow cylindrical parts, especially pipes, with an axis that can be inserted into the pipe end, with at least three evenly distributed around the circumference of the axis and rigidly connected to the axis Joints for radially outwardly pivotable first articulated lever and with one on the Axis axially displaceable ring on the outwardly pivotable, in number and arrangement the second articulated levers corresponding to the first articulated levers are articulated in second articulations are, in each case a first articulated lever with a second articulated lever of the ring is connected via a third joint and forms a pair of joints that when moved of the ring is movable radially outward in the direction of the first joints.

From DE-GM 18 35 267 a device for internal clamping of Tubes known as part of a device for twisting off the ends of tubes at the three by axially compressing hubs arranged on a longitudinal sleeve Radially distributed groups of scissor links up against the inner wall of the Pipe can be spread apart. At the end of the longitudinal sleeve that protrudes from the pipe, the hub is firmly attached, while the hub is attached to the end in the tube the longitudinal sleeve can be screwed back and forth. Three pairs of scissor links are on Articulated hubs and have another joint in the middle of their length, see above that the scissor members spread outward like scissors when the hubs are moved together will. There are two contact points for each pair of scissor links with the inner wall of the tube, so a total of six contact points. As a result of that the hinge points are midway along the length of the scissor links the lever arms on both sides of these hinge points of the same length, so that the at the contact points of the free ends of the scissor links occurring forces in a ratio of 1: 1 on the Joints are transferred to the hubs.

Such a device has the disadvantage that on the slidable The force transmitted by the hub has a clamping force that is low in relation to this force Scissor links generated against the inner wall. In addition, the resilience is distributed on a total of six contact points, so that there is a relatively low contact pressure at the contact points. The clamping is at a total of six contact points, those in two contact planes that are perpendicular to the pipe axis and spaced apart from one another are arranged, statically overdetermined. There is no tilting of the clamping excluded if the relevant contact points are at different contact levels lie, in which case the tube can then also not be properly centered. at a tube rotating at high speeds results in high dynamics as a result Imbalance forces which, due to the lever ratios, have such high forces on the displaceable Exercise hub that this ultimately loosens. Such a device is consequently to be used only with stationary workpiece and rotating tool.

The invention is based on the object of a device for internal clamping of pipes that allow a high clamping force with exact centering and which can be used in a rotating workpiece.

To solve this problem, the invention provides that # each one of the articulated levers, which form a pair of articulations, at its free end to the outside is cranked and that the third joint at the free end of the one articulated lever or is arranged a little below the bend of the other articulated lever.

The bend at the free end of one joint lever of the joint pair enables the transmission of a very high tension force to the inner surface of the pipe to be processed. The total due to the axial displacement of the movable The clamping force applied to the ring is determined by the lever ratio between the bend and the rest of the lever part reinforced many times over and only three Distributed contact points that exert a high surface pressure, and thus one secure hold of the device in the pipe, a secure clamping and a static ensure certain centering of the pipe. This enables in an advantageous manner Way to use it with fast rotating workpieces.

A preferred development of the invention provides that this the end of the pipe protruding from the end of the axle mounted in a hollow cylindrical holder is, which has an insert cone for a tailstock. Pipes, such as As is well known, plastic pipes can be machined on conventional lathes will. To do this, one end of the pipes is inserted into the driven clamping device, such as a jaw chuck, clamped and at its free end from the The tip of the tailstock is guided centrically. This must have the largest diameter of the tip of the tailstock be larger than the clear width of the one to be processed Pipe. Since the pipe to be processed with the inner edge of its end face on rests on the conical surface of the tip of the tailstock, this face can be machined are not machined or faced without the risk of damaging the There is tip of the tailstock and the cutting tool. According to the invention prevents the pipe to be machined and clamped in a lathe hits at its free end, the end face of the tube being exposed. The exposed one The end face of the pipe can thus be faced without risk to machine parts and tools will.

A further development provides that the first joints on the one in the Tube introduced axle end are arranged. In this way the is slidable Ring accessible outside of the tube, so that the required clamping force if necessary can also be applied with the aid of tools.

The slidable ring has a locking device, which is a Loosening of the clamping even at high speeds of the pipe excludes.

A preferred embodiment provides that the locking device has a clamping and counter device. The clamping device enables that Transferring a high clamping force to the articulated lever, the counter device prevents this tension from decreasing.

It is also provided that the ring on its inner peripheral surface has an axially parallel web, which in a groove in the axis intervenes. The ridge in the groove of the axle prevents the sliding ring performs a relative rotational movement with respect to the axis, causing twisting the articulated lever is reliably avoided.

The following is an embodiment with reference to the drawings the invention explained in more detail.

1 shows a device for internal clamping and centering for hollow cylindrical parts on the tailstock side of lathes and Fig. 2 a Cross section along the line II-II in FIG. 1.

The device 1 shown in Fig. 1 is used for internal clamping and centering of the free end 2 of a clamped in a lathe, only shown in phantom Tube 3. The device 1 has a central axis 4, which is round in cross section, which is inserted with its one end 5 into the pipe end 2, and with its other The end 6 is mounted in a hollow cylindrical holder 7. The hollow cylindrical Bracket 7 has an insert cone 8 for the tailstock of the lathe and is used in the tailstock instead of a conventional center point. On the dem Insert cone 8 opposite side of the holder 7 is a central stepped Bore 9 is provided, in which a bearing 10, e.g. a needle bearing, for the axle end 6 is inserted. An axial bearing can also be used to support axial axial forces 11 can be provided on the end face of the axle end 6.

At the inserted into the pipe end 2 axle end 5 is in one piece with the axis an annular flange 12 is provided, of which at an angle of 1200 three webs 13 protrude radially and parallel to the axis 4, each having a first joint 17 for a first articulated lever 14 each.

The second articulated levers 15 are at the same radial distance from the axis 4 is articulated on a ring 16 which is axially displaceable on the axis. The sliding one Like the ring flange 12, ring 16 has three radially protruding at an angle of 1200 to the axis 4 parallel webs 20 for receiving a second joint 18 in each case. Each first articulated lever 14 opens into articulated forks at both ends. On his one At the end, one joint fork engages around a web 13 to form a first joint 17. On the other hand, the joint fork comprises at the other end to form a third Joint 19 the corresponding second articulated lever 15 at its free end. Each Joint 19 connects the joint levers 14,15 in the same distance from the joints 17, 18 to a total of three pairs of joints. Every second Articulated lever 15 is at the end facing away from the bend 21 for reaching over each of a web 20 and to form a joint 18 also designed fork-shaped.

When the ring 16 is axially displaced in the direction of the ring flange 12, the pairs of joints are spread outwards, whereby the pipe end 2 is clamped and is centered. The articulated levers 15 are on the joint 19 also with a short bend 21 extended at an angle of about 1200 to the outside protrudes from the articulated lever 15. This short bend transmits the axial force applied to the slidable ring 16 with the lever ratio of the lever length of the articulated lever 15 to the length of the bend 21 on the pipe inner wall, so that due to the leverage a reliable and safe three-point clamping of the pipe end takes place, which also enables use in rotating workpieces.

For this reason, the entire device 1 is also rotationally symmetrical designed so that rotating parts can be clamped without imbalance.

The sliding ring 16 is secured by a locking device 22 in FIG held its the pipe end 2 clamping position. The locking device 22 consists from a cylindrical part that can be moved on axis 4 with an annular flange, which has a radial threaded hole 23 for a threaded pin 24 at one point.

After the first tensioning of the sliding ring up to the system of the three bends 21 by counter-pressing the locking device 22 against the displaceable ring 16 in the direction of the annular flange 12 is the threaded pin 24 screwed in and firmly against the axis 4 to fix the locking device 22 screwed.

The from the annular flange of the locking device 22 in the direction of the annular flange 12 protruding cylindrical part of the locking device 22 has an external thread 25 on which a clamping nut and a lock nut 26,27 through Screws can be moved axially.

After the locking device 22 is determined by the threaded pin 24 the clamping nut 26 can be used with a suitable tool, e.g. a wrench be screwed towards the sliding ring 16 to turn the ring 16 in axial direction clamp and thereby the clamping force to increase the bends 21. The lock nut 27 is then used to Secure the position of the clamping nut 26 so that it can turn itself at high speeds can not solve.

As can be seen from Fig. 2, the axis 4 can be an axially extending Have groove 28 on its circumference, in which one of the groove 28 substantially corresponding axially parallel web 29 of the displaceable ring 16 engages, the radially inward protrudes from the ring 16.

This web 29 provides a rotation lock for the slidable Ring 16 and prevents torsion of the pairs of joints 14, 15.

The device 1 is with the insert cone 8 in the tailstock one Lathe attached and then by moving the tailstock into the open End 2 of a tube 3 moved in so that the articulated levers 14, 15 are in one Distance from the end face of the pipe end 2 with the bends 21 to the inner surface of the pipe 3 can create. At its other end, this tube 3 is driven into the Clamping device of the lathe clamped. By loosening the threaded pin 24 from the axis 4, the locking device 25 together with the sliding ring 16 are moved so far in the direction of the annular flange 12 that the bends 21 rest against the inner surface of the tube 3 at the free ends of the articulated levers 15. The threaded pin 24 is then screwed tightly against the axis 4. After that, will the clamping nut 26, which presses with its end face against the displaceable ring 16, braced and secured with the lock nut 27.

The tube 3 can now be clamped by the driven lathe, in which one end of the tube 3 is clamped, are set in rotation. The device 1 also rotates in the bearings 10, 11 of the hollow cylindrical holder 7th

The device 1 thus enables that to be machined and clamped Tube 3 does not hit at its free end and that the end face of the tube 3 without Risk to machine parts and tools can be faced.

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Claims (7)

CLAIMS 1. Device for internal clamping and centering of hollow cylindrical Parts, in particular pipes, with an axis that can be inserted into the pipe end and have at least three evenly distributed around the circumference of the axis, with the axis rigid connected first joints for radially outwardly pivotable first articulated levers and with a ring that is axially displaceable on the axis, on which the outwardly pivotable, second articulated levers corresponding in number and arrangement to the first articulated levers are articulated in second joints, each with a first articulated lever with a second joint lever of the ring is connected via a third joint and a pair of joints forms that when the ring moves in the direction of the first joints radially is movable outside, characterized in that one of the articulated levers (15), which form a pair of joints, is bent outward at its free end and that the third joint (19) at the free end of the joint lever (14) or a little below the bend (21) of the other articulated lever (15) is arranged. 2. Apparatus according to claim 1, characterized in that the from the pipe end (2) protruding end (6) of the axis (4) is rotatably mounted. 3. Apparatus according to claim 2, characterized in that the end (6) of the axis (4) is mounted in a hollow cylindrical holder (7) which has a Has insert cone (8) for a tailstock. 4. Device according to one of claims 1 to 3, characterized in that that the first joints (17) are arranged on the axle end (5) inserted into the tube (3) are. 5. Apparatus according to claim 4, characterized in that the displaceable Ring (16) has a locking device (22 to 27). 6. Device according to one of claims 1 to 5, characterized in that that the locking device (22 to 27) has a clamping and counter device (26,27) having. 7. Device according to one of claims 1 to 6, characterized in that that the ring (16) has an axially parallel web (29) on its inner circumference which engages in an axially parallel groove (28) in the axis (4).