EP3117916A1 - Device for machining a tube - Google Patents

Abstract

The invention relates to a device for processing a free end of a rotatably clamped in a clamping device tube. The apparatus itself has, in addition to a holding device 180 for a forming tool for processing the tube, at least one support roller holding device 160 for holding one support roller 162 each for supporting the free end of the tube 200 during its processing by the forming tool. In order to always ensure the abutment of the support rollers 162 on the outer wall of the tube, even with rotational asymmetries, the support roller holding device 160 according to the invention is divided radially into two parts into an inner part 160-2, which carries the support roller, and an outer part 160-1. The inner part is biased against the outer part by means of an intermediate compression spring 190.

Description

The invention relates to a device for processing a freely accessible wall region of a rotatably clamped in a clamping device tube.

Such devices are basically known in the art, for. B. from the German utility model DE 297 20 321 U1 , This utility model patent discloses a device for forming a pipe end with a clamping device for frictionally holding the pipe by means of compressive stress. The clamping device has distributed over a circumference conical clamping wedges which are slidably guided in a conical bore of a clamping sleeve. The clamping wedges are equipped with clamping jaws, which is associated with a forming tool at the area of a comparatively larger diameter of the clamping sleeve. Hydraulic power means are used to carry out a relative movement between the forming tool and the clamping device.

Furthermore, from the not previously published German patent application with the file number 10 2014 210 957.4 a device for introducing a sickle-like indentation in a freely accessible wall region of a rotatably clamped in a clamping device tube known. The device has a rotatably mounted drive shaft with an end facing the clamping device, wherein the drive shaft is aligned such that its longitudinal axis aligned with the tube axis of the clamped tube. The device further comprises a first drive means for rotationally driving the drive shaft. Furthermore, the known device has a tool head, which is rotatably mounted on the clamping device facing the free end of the drive shaft. At the tool head, a holding device is mounted for a forming tool, for example, a Innenrollierdorn, for forming the tube. At the end of the holding device facing away from the tool head, at least one radially displaceable support roller holding device is arranged for holding a freely rotatable support roller. The support roller serves to unroll on the outside of the freely accessible wall portion of the tube. Typically, three of the support roller retainers are provided, all of which extend radially and are each offset by an angle of 120 ° in the circumferential direction. This arrangement causes the freely accessible wall portion of the tube to be supported by the support rollers, which roll during operation of the device on the outside of the freely accessible wall portion of the tube during its processing by the forming tool.

The invention has the object of developing a known device for processing a pipe to the effect that the system of the support rollers on the outside of the freely accessible wall region of the pipe is further improved.

This object is solved by the subject matter of patent claim 1. This is characterized in that the support roller holding device is divided into two in the radial direction into an inner part for holding the support roller and an outer part, and that between the inner part and the outer part of a compression spring is provided for biasing the inner part against the outer part a maximum distance.

The compression spring provided according to the invention advantageously has the effect that the inner part of the support roller holding device, and thus also the support roller, supported against the outer part, is always pressed against the outside of the tube by a biasing force generated by the compression spring. Advantageously, the bias ensures a bearing of the support roller on the outside of the tube, even if the outside of the tube is not quite round or if the support roller holding device is not quite symmetrical, d. H. not completely coaxial with the outside of the tube rotates.

According to a first embodiment of the invention, the inner and the outer part of the support roller holding device are connected to one another via a screw. Although the screw is firmly screwed from radially inward to radially outward into the outer part of the support roller holding device, however, the inner part of the support roller holding device is not pressed against the outer part even when the screw is tightened. Rather, the shank of the screw is designed so long that a clearance between the inner and outer part remains in the radial direction. The shank of the screw serves to guide the inner part in the radial direction. The inner part is on the shaft - in the context of the game - freely movable movable. Radially inward, the head of the screw serves as a stop or travel limit for the inner part. After radially outward, the upper part of the support roller holding device serves as a stop or travel limit for the inner part.

According to a further embodiment, the holes for the screw in the inner and / or the outer part of the support roller holding device locally, ie widened in sections to receive the compression spring coaxial with the screw. The local widenings of the bore extend in the radial direction only so far that the compression spring is always under tension to ensure the desired bias between the outer and the inner part of the support roller holding device.

According to a further embodiment, a cup-shaped conical guide head is provided in the device according to the invention, which is mounted coaxially and rotationally fixed but axially displaceable on the drive shaft and opened to the clamping device. The outer part of the support roller holding device has on its radial outer side a sliding surface with at least one conical portion for sliding along on the inside of the wall of the conical guide head. Due to the conical design of the guide head causes its axial displacement, the formation of a force component in the radial direction of the support roller holding device. This is especially true when the support roller holding device is made with the sliding surface at its outer part against the inside of the wall of the guide head radially and biased. Serves provided in the inventive device further compression spring which is supported with its one end to a stop on the holding device and with its other end to a stop on the outer part of the support roller holding device or clamped between these attacks under bias.

The support roller is freely rotatably mounted on the longitudinal axis of the device facing side of the inner part of the support roller holding device axially parallel to the drive shaft. The freely rotatable mounting allows the support roller to roll on the wall of the free end of the tube to be reshaped as the device rotates about its longitudinal axis to process the tube. By providing the free rotation of the support roller frictional forces and friction losses are minimized.

Advantageously, the outer part of the support roller holding device is guided in the axial direction when sliding along on the inner wall of the guide head. For this purpose, the wall of the guide head on its inside in at least one circumferential angle region, a guide surface extending in the axial direction with at least one conical section.

Further advantageous embodiments of the forming tool and the support roller are the subject of the dependent claims.

Figur 1

einen Längsschnitt durch die erfindungsgemäße Vorrichtung bei geöffneter Stützrollenhalteeinrichtung;

Figur 2

einen Längsschnitt durch die erfindungsgemäße Vorrichtung bei geschlossener Stützrollenhalteeinrichtung; und

Figur 3

einen Querschnitt bzw. eine stirnseitige Draufsicht auf die erfindungsgemäße Vorrichtung

zeigt.The description is attached to three figures, wherein

FIG. 1

a longitudinal section through the device according to the invention with open support roller holding device;

FIG. 2

a longitudinal section through the device according to the invention with closed support roller holding device; and

FIG. 3

a cross section and a frontal plan view of the device according to the invention

shows.

The invention will be described in detail below with reference to the said figures in the form of embodiments. In all figures, the same technical elements are designated by the same reference numerals.

FIG. 1 shows a longitudinal section through the inventive device 100. The device is used to edit a free end, more specifically a freely accessible wall portion of a rotatably clamped in a clamping device 110 tube 200. The longitudinal axis of the tube is in the FIG. 1 denoted by the reference R.

The device itself comprises a rotatably mounted drive shaft 120, which is aligned with its longitudinal axis L so that it is aligned with the tube axis R. The drive shaft is rotationally driven by means of a drive device 130. At its end facing the clamping device 130, a tool head 150 is rotatably mounted on the drive shaft. At the free, the clamping device facing end face of the tool head this carries a holding device 180 for a forming tool for forming the tube. The forming tool is preferably an inner roller mandrel for the frontal insertion into the tube 200 and for introducing a desired indentation into the wall of the tube. For the Innenrollierdorn on a corresponding profiling on its outside.

At the end of the holding device 180 facing away from the tool head 150, at least one support roller holding device 160 is arranged to be radially displaceable. The support roller holder 160 serves to support a freely rotatable support roller 162 for supporting the freely accessible wall portion of the clamped tube 200 during its processing by the inner roller mandrel. The device according to the invention thereby rotates around the free end of the tube, and the support roller rolls on the outside of the freely accessible wall region of the tube 200.

In order to improve the employment or the concern of the support roller on the outside of the tube 200, the support roller holder 160 is divided according to the invention in the radial direction, namely in a radially inner portion 160-2 for holding the support roller 162 and a radially outer Part 160-1. The two parts are preferably connected to one another via a screw while maintaining a predetermined clearance.

Specifically, the screw connection is configured as follows:

First, the inner part 160-2 of the support roller holding device has a bore in the radial direction. The screw 166, which is provided with a screw head and a shaft, is inserted from radially inward to radially outward through the bore of the inner part. In this case, the inner diameter of the bore is smaller than the outer diameter of the screw head, so that the screw head serves as a stop for the inner part during a movement in the direction of the longitudinal axis L of the device 100. Furthermore, the inner diameter of the bore in the inner part is slightly larger than the outer diameter of the shank of the screw, so that the inner part 160-2 of the support roller holder 160 is mounted freely displaceable on the shank of the screw.

With its end opposite the screw head, the screw 166 is screwed from radially inward to radially outward into the outer part 160-1 of the support roller holding device - while maintaining said play, at least in the unloaded state. The bore in the inner part 160-1 and / or the further bore in the outer part 160-1 are preferably extended over a partial length or a portion of the shank of the screw for receiving a compression spring 190 between the inner and the outer part of the support roller holding device , This compression spring 190 is used for biasing the inner part against the outer part to a maximum distance 169, ie to a maximum clearance, wherein the inner part abuts against the screw head. This biasing of the inner part, in conjunction with said play, has the advantage that upon rotation of the device around the tube 200, abutment of the support roller 162 on the outside of the tube is ensured even if the longitudinal axis L of the device is not exactly flush with the tube axis R is aligned or if the tube is not exactly rotationally symmetrical. In these cases, imbalances in the rotation can occur, which can be compensated by the said bias in connection with the play. In other words, even in the presence of said asymmetries, the compression spring ensures due to the bias generated by her always a concern of the support roller on the outside of the tube 200th

The device 100 according to the invention has a cup-shaped conical guide head 140, which is mounted coaxially and rotationally fixed, but axially displaceable on the drive shaft 120. The guide head 140 is opened to the chuck 110. The outer part 160 of the support roller holding device 160 has on its radial outer side a sliding surface 164 with at least one conical section 165, the conicity being preferably complementary to the conicity of the wall 142 of the guide head 140. By means of its sliding surface 164, the outer part 160-1 of the support roller holding device 160 slides along the inside of the wall 142 of the conical guide head 140.

This is done in particular when the guide head 140 is displaced axially, wherein then due to the taper of the wall 142 and the sliding surface 164, a radial force on the support roller holder 160, more precisely on the outer part 160-1 is exercised. Because the guide head 140 is tapered toward the chuck 110, when the guide head 140 moves toward the chuck 110, said radial force causes the support roller support 160 to be displaced radially inward. When machining a clamped tube, therefore, the guide head 140 is displaced axially such that the support roller holding device 160 moves radially inwardly so that the support roller 162 - while maintaining the clearance between its inner and outer part - rests against the wall of the tube 210; this is in FIG. 2 shown.

In order to always ensure employment and biasing the support roller holding device with the sliding surface 164 against the inside of the wall 142 of the guide head 140, a further compression spring 154 is provided. This compression spring 154 is between a stop on the holding device 180 and a Stopper 168 clamped to the outer part 160-1 of the support roller holding device under the desired bias. It causes a pressing of the outer part 160-1 and thus the entire support roller holding device 160 radially outward against the inner wall 142 of the guide head 140th

FIG. 3 shows a cross section through the device according to the invention, ie a plan view of the clamping device 110 facing end side. In particular, three support roller holding devices 160 can be seen, which are each subdivided in the radial direction into the inner part 160-2 and the outer part 160-1. Between the parts a distance 169 can be seen, which represents the said game. The three support roller holding devices are each radially aligned and arranged circumferentially offset by 120 °. It will be appreciated that the support rollers 162 contact and roll on the outer diameter of the tube 200 as the device rotates about the tube 200. In the circumferential angle regions α2, guide surfaces 146 which extend in the axial direction are formed on the inner side of the wall 142 of the guide head 140. The guide surfaces 146 serve to guided along the support roller holders 160, in particular their outer parts 160-1, in the axial direction during a displacement of the guide head 140th

The support roller preferably has on its circumference a profiling which is complementary to the desired indentation in the freely accessible wall region of the tube 200.

LIST OF REFERENCE NUMBERS

100

contraption

110

tensioning device

120

drive shaft

130

Drive device (for drive shaft)

140

guide head

142

wall

146

guide surface

146-1

conical section of the guide surface

150

tool head

154

further compression spring

160

Support roller retainer

160-1

radially outer part of the support roller holding device

160-2

radially inner part of the support roller holding device

161

Profiling on the support roller

162

supporting role

164

Sliding surface of the support roller holding device

165

conical portion of the sliding surface of the support roller holding device

166

screw

168

Stop for screw on outer part of the support roller holder

169

Distance, game

180

Holding device for Innenrollierdorn

182

Stop of the holding device

190

compression spring

200

pipe

210

indentation

L

Longitudinal axis of the tube

R

Rotation axis of the drive shaft

α2

Circumferential angle

Claims (9)

Device (100) for machining a free end of a tube (200) clamped in a clamped manner in a clamping device (110), the device comprising: a rotatably mounted drive shaft (120) with one of the clamping device (110) facing the end, wherein the drive shaft is oriented such that its longitudinal axis (L) with the tube axis (R) of the clamped tube is aligned; a drive means (130) for rotationally driving the drive shaft (120); a tool head (150) mounted in a rotationally fixed manner on the end of the drive shaft (120) facing the clamping device (130), with a holding device (180) for a forming tool for forming the tube; and at least one supporting roller holding device (160) arranged so as to be radially displaceable on the end face remote from the tool head (180) for holding a freely rotatable supporting roller (162) for unrolling on the outside of the free end of the tube (200), characterized, that the support roller holding means (160) is divided into two in the radial direction into an inner part (160-2) for holding the support roller and an outer part (160-1); and that between the inner and the outer part of a compression spring (190) is provided for biasing the inner part against the outer part to a maximum distance (169). Device (100) according to claim 1,
characterized,
that the inner part (160-2) of the support roller holding device (160) has a bore in the radial direction;
that a screw (166) is inserted with a shaft and a screw head from radially inward to radially outward through the bore; wherein the inner diameter of the bore is smaller than the outer diameter of the screw head; and wherein the inner part (160-2) is freely slidably mounted on the shank of the screw; and
that the screw (166) is screwed into a further bore on the inner part facing side of the outer part of the support roller holding device (160) that between the inner and the outer part of the support roller holding means (160) - at least in the unloaded state - a game (169) remains in the radial direction. Device (100) according to claim 2,
characterized,
in that the bores for the screw in the inner and / or the outer part (160-2, 160-1) of the support roller holding device (160) are locally widened to receive the compression spring (190) coaxial with the shaft of the screw (166). Device (100) according to one of the preceding claims,
characterized,
that a cup-shaped conical guide head (140) is provided which is mounted coaxially and rotationally fixed, but axially displaceable on the drive shaft (120) and to the clamping device (110) is open;
wherein the outer part (160-1) of the support roller holding means (160) has on its radially outer side a sliding surface (164) with at least one conical portion (165) for sliding along the inside of the wall (142) of the conical guide head (140). Device (100) according to claim 4,
characterized,
in that a further pressure spring (154) is provided for radially setting and pretensioning the support roller holding device (160) with the sliding surface (164) at its outer part (160-1) against the inside of the wall (142) of the guide head, wherein the further compression spring (16) 154) is supported with its one end to a stop (182) of the holding device (180) and with its other end to a stop (168) on the outer part (160-1) of the support roller holding device (180). Device according to claim 4 or 5,
characterized,
in that the wall (142) of the guide head has on its inside in at least one circumferential angle region (α2) an axially extending (R) guide surface (146) with at least one conical section (146-1) for sliding along the support roller holding device with its sliding surface ( 164). Device (100) according to one of the preceding claims,
characterized,
in that the support roller (162) is freely rotatably mounted on the inner part (160-2) of the support roller holder (160) with its roller axis parallel to the longitudinal axis (L) of the drive shaft (120). Device (100) according to one of the preceding claims,
characterized,
in that the forming tool is an inner roller mandrel having a profiling on its outside for insertion and introduction of a desired indentation in the wall region of the free end of the tube (200). Device (100) according to claim 8,
characterized,
that the support roller (162) has a profiling (161) on its periphery formed complementary to the desired indentation (210).

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