DE102013015483A1 - Process for producing wide, flange-shaped thickenings on hollow bodies - Google Patents

Abstract

The method is characterized in that the hollow body (1) is heated in a first method step in the forming area (1b) to a temperature above the ambient temperature, in particular to a temperature between 60 ° C and 1250 ° C, and that the hollow body (1 ) in a second process step with the help of an axial pressing device in the direction of the main axis (H) and mechanically deformed while permanently shortening its length, the hollow body (1) during the second process step using the die at several, spaced apart locations in the forming area (1b) is supported transversely to the main axis (H), the outer contour (1a) in the forming area (1b) of the hollow body being approximated to the inner contour (2a, 2a ', 2a' ') of the die during the second process step, during the second Method step material of the hollow body (1) is pressed into the forming area from outside the forming area (1b), so that there is an increase in the wall thickness on the hollow body (1) at least in sections in the forming area, in particular with the formation of an outside bead.

Description

The present invention relates to a method for producing a wall thickening on a hollow body extending along a main axis and in particular to a device for carrying out this method.

Such a method is known from EP 1611973 A1 Known in which during a Axialpressvorgangs in a forming process, a wall thickening is made by means of an adjustable die on a hollow body. The fact that the die must be adjustable along a main axis of the hollow body, results in a comparatively complex design of the required forming machine with "floating die".

The object of the invention is to provide a method of the type mentioned, in which a hollow body with the simplest possible means by a Axialpressvorgang while avoiding wrinkling, can be reshaped so that a technically usable bead is formed on the hollow body. The object of the invention is also to provide a device in particular for carrying out the aforementioned method by which improved hollow body are particularly easy to produce.

The object is achieved by a method according to claim 1, wherein the hollow body extends along a main axis, wherein the hollow body at the beginning of the process in a forming region has a predetermined outer contour. In a method step, the hollow body is set in the axial direction under compressive stress and thereby plastically deformed. This can be carried out by means of appropriate plunger in known axial extrusion forming process. The basic procedure is, for example, from the WO 2009/027789 A2 which is fully referenced with respect to essential aspects of performing an axial compression forming process. In the context of such a forming process, the predetermined outer contour of the hollow body changes in the forming area, wherein the hollow body is surrounded on the outside on the forming area by at least one die at least in sections. In this case, adjacent to the forming area, the die has at least one first section with a first inner contour, wherein the first inner contour of the die in the first section is designed differently from the predetermined outer contour of the hollow body in the forming area. It is particularly preferred if the first inner contour of the die is transversely to the main axis, in particular in the circumferential direction of the die unequal to the predetermined outer contour of the hollow body in the initial state. On the outer contour of the hollow body, the wall thickness is increased in the course of a Axialpressvorgangs in forming area, in particular, the predetermined outer contour arched outwards and material is pushed from adjacent areas of the hollow body in the forming area. In the forming area, at least transitionally, an annular bead is thus produced. The pushed in the bead material of the hollow body finally presses against the first inner contour of the die. At the bead creates a new outer contour, which at least partially adapts to the inner contour of the die. Conversely, the first inner contour of the die then shapes the bead from the outside on its new shape. This process is facilitated by a particular section-wise heating of the hollow body in the forming area. A preferred die according to the invention comprises in particular a substantially rigid, one-piece, self-contained ring with an inner contour, which can be positioned in the forming area at a small distance from the predetermined outer contour of the hollow body. The inner contour of the die preferably has a (possibly complex) profiling, which is impressed on the bead. In one embodiment, a cylindrical flange may be impressed on a tube member of non-round cross-section when the inner contour of the die is substantially cylindrical.

In an embodiment of the invention, the predetermined outer contour of the hollow body is designed substantially round transversely to the main axis, while the first inner contour of the die is designed transversely to the main axis substantially non-circular. As a predetermined outer contour of the hollow body, in particular a circular-cylindrical contour can be provided, on which a substantially cylindrical bead is transiently produced in the forming area in the course of a forming / axial pressing operation, which is converted into a non-circular shape in the further course of the forming / axial pressing process. By means of a divisible in the direction of the main axis of the hollow body and / or transversely to the main axis of the hollow body die almost any profile can be impressed on an outer contour of a hollow body.

In a further embodiment of the invention, the first inner contour of the die on a plurality of inwardly projecting support elements, wherein the changing outer contour of the hollow body presses in a process step in the forming area against the support elements, resulting in between the support portions of the outer contour, which of the Matrix are not supported in the same process step or at a later date or with less forces. The support elements may be arranged uniformly along a circular line in a rotationally symmetrical arrangement. For example, elongated, groove-shaped recesses are preferably provided between elongated support elements (Gaps, gutters) formed. In a lattice-shaped system of supporting elements optionally connected to one another, a multiplicity of blind-hole-shaped recesses may alternatively be formed.

In a further embodiment of the invention, the smallest clearance of the first inner contour of the die is a clearance greater than the largest dimension of the predetermined outer contour in the initial state of the hollow body, wherein the clear distance is smaller than an initial wall thickness of the hollow body in the forming area. According to the invention, a smallest clearance can, in the case of a substantially rotationally symmetrical template, be regarded as the largest diameter that a cylinder passing through the die can have. As a clear distance can also be considered the "game" between die and hollow body, d. H. the maximum distance that the hollow body can move within the die transverse to its major axis. According to the invention, this clear distance is small, so that the hollow body during a Axialpressvorgangs after slight plastic deformation punctually, d. H. in the region of the support elements, touching the die comes into contact, so that a bulging with wrinkles is prevented early.

In a further embodiment of the invention, the first inner contour of the die on at least one inwardly projecting support member having an undercut and / or a tooth contour, wherein the changing outer contour of the hollow body is pressed in a process step in the forming area against the support member that connect the outer contour of the hollow body and undercut or toothing contour form-fitting together. In this case, in addition to the at least one support element in the die gaps are provided, in which flow the material of the hollow body and thus can surround the at least one support element. After completion of the forming process so the hollow body is preferably inextricably connected form-fitting manner with the support element.

In a further embodiment of the invention, at least one support element is releasably connected to the die, which is separated during the process from the rest of the die. In this case, a support element in the first process step may initially be connected loosely, non-positively or via a predetermined breaking point with the other part of the die. Alternatively, a support member may be magnetically fixed to the other part of the die. In this way, a more or less complex functional element can be prefabricated from a different material front hollow body. Such a functional element can then be connected to the other part of the die in order to act as a support element in a method step of the method according to the invention and be connected in a later step with the hollow body and released from the remaining part of the die. In this way, as functional elements are first used as part of the die ("tool segments") to be separated later from the die and subsequently to take over another function on the hollow body can. As complex functional elements and electronic components such as sensors, switches or permanent magnets, but also diamonds, natural stones or the like are providable. In a further embodiment, teeth are provided as functional elements for the construction of a gear or blades for the construction of a turbine wheel in a different material of the hollow body material.

In a further embodiment of the invention, the support elements together form a uniform profile, in particular a toothing and / or a negative image of a toothing. It is particularly preferable to provide a tooth profile for a straight-toothed or helical gear via the support elements on the inner contour of the die. By means of the method according to the invention, therefore, it is possible with particularly simple means to form a circumferential annular bead together with a toothed rim on a hollow body in the form of a tubular element. Bead and sprocket then preferably consist entirely of the material of the tubular element.

In a further embodiment of the invention, the hollow body is heated in a first process step in the forming to a temperature above ambient temperature, when using a hollow body made of steel, in particular to a temperature between 400 ° C and 1250 ° C. Furthermore, in a second method step, the hollow body is mechanically compressed with the aid of an axial pressing device in the direction of the main axis and plastically deformed with permanent shortening of its length, wherein the hollow body transversely to the main axis during the second method step by means of the die at a plurality of spaced apart locations in the forming area During the second method step, the outer contour in the forming area of the hollow body is approximated to the inner contour of the die, wherein during the second method step material of the hollow body is pressed from outside the forming area into the forming area, so that in the forming area - in particular forming an outside Bead - at least partially results in an increase in the wall thickness of the hollow body. In this way, strong forming operations can be realized on the hollow body to form wide, thick and / or profiled flanges. According to the invention, a temperature between 400 ° C and 700 ° C is selected when using hollow bodies of steel as the temperature in the forming area in a first variant; the hollow body is thus transformed half-warm. When using hollow bodies made of steel, a temperature between 850 ° C and 1250 ° C are selected in a further variant; the hollow body is thus hot-worked. When using other materials for the production of the hollow body (aluminum alloys, copper, magnesium alloys, etc.), of course, appropriately adapted temperatures are predictable.

In a further embodiment of the invention, an enlargement of the wall thickness by at least 50%, in particular by at least 100% based on the output wall thickness of the hollow body causes in the forming region of the hollow body. Such an enlargement of the wall thickness of the hollow body in the forming area results in particular in a bead on the hollow body, which can extend outwards and / or inwards.

In a further embodiment of the invention, the hollow body during a process step on the outside by means of a hollow body annularly surrounding die and at the same time on the inside with a hollow body at least partially supported by spine supported. With the help of the mandrel, the hollow body can be supported on the one hand on the inside.

The object is also achieved by a method according to claim 11, wherein the hollow body at the beginning of the process in a forming a predetermined inner contour, wherein the hollow body is placed in a process step in the axial direction under compressive stress and thereby plastically deformed, so that the hollow body is surrounded at least partially by the at least one die on the outside of the forming area, wherein the hollow body is at least partially pierced by at least one mandrel on the inside of the forming area, wherein the mandrel is arranged adjacent to the forming area Mandrel contour has, which is designed unequal to the predetermined inner contour of the hollow body in the forming area. On the inner contour of the hollow body, the wall thickness is increased in the course of a Axialpressvorgangs in the forming area, in particular, the predetermined inner contour arched inward and material is pushed from adjacent areas of the hollow body in the forming area. In the forming area, at least transitionally, an annular bead is thus produced. The pushed in the bead material of the hollow body finally presses against the first outer contour of the mandrel. At the bead creates a new inner contour, which at least partially adapts to the outer contour of the mandrel. Conversely, the first outer contour of the spine then imposes its new shape on the bead. This process is facilitated by a particular section-wise heating of the hollow body in the forming area. An inventive mandrel is preferably positioned in the forming area with a small distance from the predetermined inner contour of the hollow body. The outer contour of the mandrel preferably has a (possibly complex) profiling, which is impressed on the bead. In one embodiment, a tube element with a round (inside) cross-section can be stamped on the inside with a non-round shape.

The object is also achieved by a device according to claim 12 having a tensioning device for exerting compressive forces on a hollow body along a main axis of the hollow body and with a hollow body externally on a forming at least partially surrounding the female mold, wherein the die has at least one support element, which during a plastic deformation of the hollow body can press a predetermined profile in the material of the hollow body. The die acts as a kind of stamp, which supports the hollow body at a section and prevents buckling, while it selectively releases the contour of the hollow body at an adjacent section. The at least one support element may be designed such that it surrounds the hollow body in sections annularly. When using a plurality of identical or different support elements, which can each be arranged at a distance from each other in an annular manner, a negative image of a tooth structure or a toothed rim can be formed.

In a further embodiment of the invention, the device has at least one support element, which is designed during the plastic deformation of the hollow body connected to the hollow body and separable from the female mold. Thus, according to the invention, a die is provided with a support element protruding from a base body, wherein the support element can be at least partially surrounded by the material of the formed hollow body during the plastic deformation, so that a positive connection between support element and hollow body can preferably result. As support elements according to the invention are also preferred functional elements that can make a special technical function in subsequent use of the hollow body in cooperation with the hollow body, for example, come smaller pipe elements, dowel pins, sleeves, threaded inserts, etc. (especially from the material of the hollow body different material) in use.

Further features and combinations of features of the invention are given in the following description of specific embodiments, the accompanying drawings and the claims.

Show this

1 in a longitudinal section a hollow body while carrying out a first variant of the method according to the invention with the aid of a first die according to the invention,

2 a cross section through the hollow body after 1 along the line AA,

3 in a longitudinal section a hollow body while carrying out a second variant of the method according to the invention by means of a second die according to the invention,

4 a cross section through the hollow body after 3 along the line A'-A ',

5 in a longitudinal section, a hollow body during the implementation of a third variant of the method according to the invention by means of a third inventive die,

6 a cross section through the hollow body after 5 along the line A '' - A '',

7 in a longitudinal section, a hollow body during the implementation of a fourth variant of the method according to the invention with the aid of a fourth inventive die together with mandrel and

8th a cross section through the hollow body after 7 along the line BB.

In the 1 and 2 is an elongated, cylindrical hollow body 1 represented in the form of a tubular element during the implementation of a first variant of the method according to the invention. The hollow body 1 has in its initial state a predetermined, substantially uniform cylindrical outer contour 1a with a circular cross-section transverse to a main axis H, which at the same time is the axis of symmetry of the hollow body. The hollow body further has in its initial state, a substantially uniform output wall thickness t between predetermined outer contour 1a and a predetermined inner contour 1c on. Preferably, the hollow body is made by forging, casters, extrusion o. Ä. From an aluminum alloy or a steel. In principle, the hollow body can be made of any flowable material, in particular any metal or even plastically deformable plastic. Preferably, the hollow body has a longest extension along its main axis H, which is at least 20 times the initial wall thickness t. Preferably, the hollow body has a longest extension (esp. A diameter) transverse to its main axis H, which is at least 5 times the output wall thickness t. In a modified embodiment, the hollow body already partially has an enlarged wall thickness in the initial state, in particular a prefabricated flange, which can be arranged in a forming region of the hollow body described in more detail below.

For carrying out the method according to the invention in its first variant according to 1 becomes the hollow body 1 used in a tensioning device, not shown in detail, in particular a Axialpressvorrichtung, via which the hollow body in the region of its transverse to the main axis H oriented narrow end faces can be set under Axialdruckspannung. A usable Axialpressvorrichtung is for example from the EP 1611973 A1 or from the WO 2009/027789 A2 to which reference is made in full with respect to a basic design of a usable Axialpressvorrichtung. Part of the tensioning device or Axialpressvorrichtung is always a die 2 , in which the hollow body should be used so that the die 2 the hollow body 1 in the area of a forming section 1b the hollow body on the outside at least partially surrounds. Another component is a stamp, in the direction of a main pressing direction on the hollow body 1 acts, wherein the main pressing direction is preferably oriented parallel to the main axis H of the hollow body.

In a modification of known devices, however, in the present inventive method in its first variant comes a die 2 with a substantially rigid ring having a first inner contour 2a for use. The matrix 2 has at least a first portion with a first inner contour 2a on, with the first inner contour 2a the die unequal to the predetermined outer contour 1a of the hollow body 1 in its forming area 1b is designed. Specifically, the first inner contour 2a the die with at least one transverse to the main axis and transverse to the axial direction of extrusion contour designed, while the hollow body 1 in its initial state at the beginning of the process substantially with round contours, ie is designed circular-cylindrical. In a modified embodiment of the invention, however, this principle can also be used vice versa, by a non-circular hollow body with a substantially cylindrical internally shaped die cooperates.

The first inner contour 2a the die is according to the invention in particular by a plurality of support elements 3 determines which as constituents of the matrix 2 are made in one piece with this. In the present case are the support elements 3 formed substantially rod-shaped with an angular cross-section (transverse to the main pressing direction), so that between the support elements 3 elongated channel or groove-shaped recesses N are formed. The support elements protrude 3 radially (ie in the direction of the main axis H of the hollow body) from a base 2 B the matrix 2 , where the base 2 B the die can be designed as an approximately cylindrical, in particular circular cylindrical ring. It goes without saying that the support elements 3 alternatively as from the base 2 B protruding pins, knobs, mesh or the like can be made with almost any shape. Preferably, the support elements form 3 together a coherent profile, which is intended, in the course of the inventive method at least partially on the hollow body 1 to be transferred. In a preferred embodiment, the contiguous profile formed by the support members constitutes a negative image of a sprocket with helical or helical teeth. In a modified embodiment, the support members are releasable with the die 2 connected, for example, by frictionally arranged in holes from the base or held with magnetic force at the base. In such a configuration, it is conceivable that not only a profile formed by the support elements is transferred to the hollow body in the course of the inventive method, but also that one of the plurality of support elements is released from the die and connected to the hollow body.

The inventive method according to its first variant is now carried out as follows. The hollow body 1 becomes optional in its forming area in a first process step 1b heated to a temperature above the ambient temperature, so that an approximately uniform temperature profile in the forming area 1b results. In a modified embodiment is applied to the hollow body 1 a transmitted in the direction of its major axis H and / or circumferentially uneven temperature profile. According to the invention, a temperature or a temperature profile between 50 ° C and 1250 ° C is provided depending on the material used. When using a carbon steel according to the invention in the forming area 1b a temperature profile with temperatures between 850 ° C and 1250 ° C provided. In an alternative embodiment, a temperature in the forming range between 400 ° C and 700 ° C is provided for a hollow body made of steel. Then the hollow body 1 inserted into the Axialpressvorrichtung whose die 2 the hollow body 1 in the forming area 1b surrounds at a small distance. In this case, the predetermined outer contour 1a of the hollow body 1 and the first portion of the female mold having the first inner contour 2a positioned adjacent to each other. It is between the first inner contour 2a the matrix 2 and the predetermined outer contour 1a of the hollow body 1 provided a clear distance f. When symmetrical about the main axis H arrangement results on two sides in each case a distance f / 2 (see. 1 ). This clear distance f results as the difference between a smallest clearance F within the first inner contour 2a the die and the largest dimension D (in particular the outer diameter) of the hollow body 1 in the forming area 1b , According to the invention, it is preferable to select the clear distance smaller than the 2-fold output wall thickness t of the hollow body 1 , in particular smaller than the output wall thickness t. The inventors have recognized that in this configuration the further method steps can be carried out particularly reliably and in particular while avoiding undesired deformations (eg wrinkling, bulging of the hollow body).

In a subsequent process step, the hollow body 1 set in compression by means of the Axialpressvorrichtung in a manner not shown in the direction of its major axis H and compressed, so that in particular in the forming area 1b a plastic deformation of the hollow body 1 results. The plastic deformation includes in the forming area 1b in particular an increase in the wall thickness of the hollow body 1 opposite the output wall thickness t. This is material of the hollow body 1 from adjacent areas in the forming area 1b pressed. The dimension of the hollow body 1 in the direction of its major axis H is shortened; the hollow body 1 so compressed. Preferably, this forms a bead, which forms the outer contour of the hollow body 1 changed in the forming area. In this process step, the hollow body 1 with the help of the matrix 2 at a plurality of spaced apart locations in the forming area 1b supported transversely to the main axis H. Furthermore, during this process step material of the hollow body 1 from outside the forming area 1b is pressed into the forming area, so that in the forming area - in particular to form an outside bead - said increase in the wall thickness of the hollow body 1 results. It is particularly preferred if in the forming area 1b of the hollow body 1 a maximum increase in the wall thickness by at least 50%, in particular by at least 100% based on the initial wall thickness t of the hollow body is effected. At the edges of the forming area a (minimum) wall thickness change of close to zero is provided, so that a continuous or sliding transition from the output wall thickness t outside the forming area to the maximum increased wall thickness.

Advantageously, however, results not only a change in wall thickness, but also an adaptation of the outer contour 1a of the hollow body to the inner contour 2a the matrix. It is intended that between the support elements 3 Areas N of the outer contour 1a (Grooves, grooves, blind holes, other recesses or recesses) are provided by the die 2 temporarily not supported in the same process step, but released for a material flow. In a modified embodiment, areas N are between the support elements 3 provided in which the material of the hollow body can flow freely during the process and / or is supported with lower forces. According to the invention is the support elements 3 Assigned a double function: On the one hand, sle support the hollow body during the forming process selectively or in sections, so that an undesirable buckling, bulging, etc. of the wall of the hollow body is suppressed in the forming area. On the other hand, they shape the plastically deforming hollow body on the outside of a later technically usable shape structure (eg teeth, grooves, threads, knurls, etc.) up to a macroscopic roughness with irregular structural features. How to do this 2 results, the areas N between the support elements 3 not necessarily completely filled with the material of the hollow body during the process.

In a modified embodiment, the hollow body during a process step on the outside by means of the hollow body annularly surrounding die and at the same time on the inside with a hollow body at least partially cross-cutting cylindrical mandrel supported. The mandrel should thus effectively prevent a wall thickness change inwards. For this purpose, only slight play is provided between mandrel and inner contour of the hollow body.

In a further modified embodiment, the die is designed in such a way that at the end of the method it can be divided along a plane through the main axis H and / or along a plane perpendicular to the main axis.

In the 3 and 4 is an elongated, cylindrical hollow body 1 represented in the form of a tubular element during the implementation of a second variant of the method according to the invention. An implementation of the second variant of the method according to the invention is carried out substantially identical to the first variant according to the 1 and 2 so that reference may be made to the foregoing description in order to avoid repetition, unless otherwise stated below. Incidentally, the same or equivalent components are provided with the same reference numerals as in the above description.

Deviating from the first variant is as part of a Axialpressvorrichtung invention a modified die 2 ' intended. This is constructed in two parts; it has a preferably annular support element 3 ' on which is in a base ring 2 B' is frictionally engaged. On the annular support element 3 ' is a gear contour 3a ' provided that a modified first inner contour 2a ' the modified template 2 ' forms. The tooth structure 3a ' has sections undercut. In a modified embodiment, a plurality of support elements 3 ' be provided with undercut or support elements 3 according to the first variant of the method with support elements 3 ' be combined according to this second variant of the method.

In the second variant of the method according to the invention, by means of the axial pressing device, in turn, a compressive stress in the direction of the main axis H on the hollow body 1 exercised, so that this in the forming area 1b plastically deformed. As part of the plastic deformation material of the hollow body is in the forming area 1b pressed so that there is an increase in wall thickness in the form of a bead (or an existing bead is increased). This changes the outer contour according to the invention 1a of the hollow body 1 in the forming area 1b , The changing outer contour 1a of the hollow body 1 is in a process step in the forming area 1b such against the support element 3 ' pressed that material of the hollow body 1 flows around the undercut. This will be the gearing structure 3a ' at least partially surrounded by the material of the hollow body. Consequently, the outer contour connect 1a of the hollow body 1 and the tooth contour 3a ' positively with each other.

In a subsequent process step, the support element 3 ' from the base ring 2 B' (ie from the main part of the matrix 2 ' and thus also from the Axialpressvorrichtung) separately. The support element 3 ' thus forms a "lost" tool element and takes over at a later date another technical function in cooperation with the hollow body 1 , As a support element 3 ' For example, is a prefabricated ring of a material of the hollow body 1 provided different material that can be produced with other processing methods and possibly (compared to the quality requirements of the hollow body) meets increased quality requirements, higher hardness or rigidity can have. To carry out the method according to the invention are supporting element 3 ' and base ring 2 B' so releasably connected together that during the process according to the invention a reliable hold, but also an intact separation is possible. Such a connection can be made using a transition fit between the support element 3 ' and base ring 2 B' be prepared, in addition or alternatively reversible adhesive or solder joints come into question. In an alternative embodiment, support element 3 ' and base ring 2 B' initially executed in one piece, but provided with a predetermined breaking point. In a further modified embodiment, a plurality of annular support elements in the direction of the major axis H adjacent to each other are arranged to form a die according to the invention within a base ring, which may be provided between these plurality of support elements interstices, which form quasi-annular recesses into which material of the Hollow body can flow.

In the 5 and 6 is an elongated, cylindrical hollow body 1 in the form of a tubular element during the implementation of a third variant of the method according to the invention. An implementation of the third variant of the method according to the invention is carried out substantially identical to the first and second variants according to the 1 to 4 so that reference may be made to the foregoing description in order to avoid repetition, unless otherwise stated below. Incidentally, the same or equivalent components are provided with the same reference numerals as in the above description. Incidentally, features of the various process variants can also be combined with each other.

Deviating from the first variant is as part of a Axialpressvorrichtung invention a modified die 2 '' intended. This is constructed in two parts; it has a preferably annular support element 3 '' on which is in a base ring 2 B'' is used. On the annular support element 3 '' is a gear contour 3a '' provided, which is part of a modified first inner contour 2a ' the modified template 2 '' is. The tooth structure 3a '' has no undercut, but a paragraph 3b '' in the form of a (circumferentially) non-circular collar segment. In a modified exemplary embodiment, a tooth structure according to this third variant of the method according to the invention can be combined with a tooth structure according to the second variant of the method according to the invention and / or with a tooth structure according to the first variant of the method according to the invention.

In the third variant of the method according to the invention, a compressive stress in the direction of the main axis H is again applied to the hollow body by means of the axial pressing device 1 exercised, so that this in the forming area 1b plastically deformed. As part of the plastic deformation material of the hollow body is in the forming area 1b pressed so that there is an increase in wall thickness in the form of a bead (or an existing bead is increased). This changes the outer contour according to the invention 1a of the hollow body 1 in the forming area 1b , The changing outer contour 1a of the hollow body 1 is in a process step in the forming area 1b such against the support element 3 '' pressed that material of the hollow body 1 around the tooth structure 3a '' flows. It results on the part of the hollow body 1 one to the collar segment 3a '' corresponding recess 1d within an otherwise preferably cylindrical flange 1e , After completion of the third variant of the method according to the invention, the support element 3 '' again on the hollow body 1 remain and in cooperation with the hollow body 1 fulfill other technical functions. In this case, the collar segment will work for later use 3a '' on the one hand as anti-rotation and on the other hand as a one-sided stop for the (former) support element 3 '' in its new function.

In the 7 and 8th is an elongated, cylindrical hollow body 1 represented in the form of a tubular element during the implementation of a fourth variant of the inventive method. An implementation of the fourth variant of the method according to the invention is carried out substantially identical to the first, second variant according to the 1 to 6 so that reference may be made to the foregoing description in order to avoid repetition, unless otherwise stated below. Incidentally, the same or equivalent components are provided with the same reference numerals as in the above description. Incidentally, features of the various process variants can also be combined with each other.

Deviating from the first variant is as in the second variant as part of a Axialpressvorrichtung invention a modified die 2 ' intended. This is constructed in two parts; it has a preferably annular support element 3 ' on which is in a base ring 2 B' is used. On the annular support element 3 ' is a gear contour 3a ' provided, which is part of a modified first inner contour 2a ' the modified template 2 ' is. The tooth structure 3a ' has (at least optionally) an undercut.

In the fourth variant of the method according to the invention, the hollow body 1 not only on the outside with the help of the hollow body 1 annular surrounding matrix 2 ' , but at the same time on the inside with a mandrel which passes through the hollow body 4 supported. The thorn 4 has in the present embodiment, a two-part design consisting of a first mandrel part 4b and a second mandrel part 4c , Between the first spine part 4b and the second mandrel part 4c is a functional element 5 used.

The thorn 4 has an adjacent to the forming area 1b arranged mandrel contour 4a on which unequal to the predetermined inner contour 1c of the hollow body 1 is designed in the forming area. In particular, both have mandrel parts 4b . 4c each a constriction 4a on. The constrictions 4a represent a changing in the axial direction outer contour of the mandrel, which is different from the circular cylindrical inner contour 1c of the hollow body.

During the implementation of the fourth variant of the method according to the invention, a compressive stress in the direction of the main axis H on the hollow body is again produced by means of the axial pressing device 1 exercised, so that this in the forming area 1b plastically deformed. As part of the plastic deformation material of the hollow body is in the forming area 1b pressed so that there is an increase in wall thickness in the form of a bead (or an existing bead is increased). In this case, according to the invention change the outer contour 1a and the inner contour 1c of the hollow body 1 in the forming area 1b , wherein an inwardly and externally increasing wall thickness of the hollow body 1 in the forming area 1b results. The changing outer contour 1a of the hollow body 1 is in a process step in the forming area 1b against the support element 3 ' pressed. The changing inner contour 1c of the hollow body is in the same process step in the forming area 1b against the outer contour 4a of the thorn 4 pressed.

The changing outer contour 1a of the hollow body 1 is therefore in the forming area 1b such against the support element 3 ' pressed that material of the hollow body 1 around the tooth structure 3a ' flows and results in a positive connection between the support element and the hollow body. After completion of the fourth variant of the method according to the invention, the support element 3 ' again on the hollow body 1 remain and in cooperation with the hollow body 1 fulfill other technical functions.

The changing inner contour 1c of the hollow body 1 is in the forming area 1b so against thorn 4 and functional element 5 pressed that two separate, the functional element 5 embracing bulges 1d within the outer contour 4a of the thorn 4 result. After completion of the fourth variant of the method according to the invention is the functional element 5 positive fit in the hollow body 1 and can fulfill other technical functions below.

It goes without saying that the features of the variants described can be combined with one another, so that further variants of the method according to the invention result.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 1611973 A1 [0002, 0028]
• WO 2009/027789 A2 [0004, 0028]

Claims (13)

Method for producing a wall thickening on a hollow body extending along a main axis (H) ( 1 ), which at the beginning of the process in a forming area ( 1b ) a predetermined outer contour ( 1a ), in which - the hollow body ( 1 ) is set in a process step in the axial direction under compressive stress and thereby plastically deformed, so that the predetermined outer contour ( 1a ) of the hollow body in the forming area ( 1b ), wherein - the hollow body ( 1 ) on the outside of the forming area ( 1b ) by at least one die ( 2 . 2 ' . 2 '' ) is at least partially encompassed, wherein - the die ( 2 . 2 ' . 2 '' ) adjacent to the forming area ( 1b ) at least a first portion having a first inner contour ( 2a . 2a ' . 2a ' ), wherein - the first inner contour ( 2a . 2a ' . 2 '' ) of the die ( 2 . 2 ' . 2 '' ) in the first section unequal to the predetermined outer contour ( 1a ) of the hollow body ( 1 ) is designed in the forming area. Method according to claim 1, characterized in that the predetermined outer contour ( 1a ) of the hollow body ( 1 ) is configured substantially round transversely to the main axis (H), while the first inner contour ( 2a ) of the die ( 2 ) is designed transversely to the main axis (H) is substantially out of round. Method according to one of claims 1 to 2, characterized in that the first inner contour ( 2a ) of the die ( 2 ) a plurality of inwardly projecting support elements ( 3 ), wherein the changing outer contour of the hollow body in a process step in the forming area against the support elements ( 3 ), wherein between the support elements ( 3 ) Areas (N) of the outer contour ( 1a ) resulting from the die ( 2 ) are not supported in the same process step, or at a later date or with less force. Method according to one of claims 1 to 3, characterized in that the smallest clearance (F) of the first inner contour ( 2a . 2a ' . 2a ' ) of the die ( 2 . 2 ' . 2 '' ) by a clearance (f) is greater than the largest dimension of the predetermined outer contour ( 1a ) in the initial state of the hollow body ( 1 ), wherein the clear distance (f) is smaller than an initial wall thickness (t) of the hollow body ( 1 ) in the forming area ( 1b ). Method according to one of claims 1 to 4, characterized in that the first inner contour ( 2a ' . 2a ' ) of the die ( 2 ' . 2 '' ) at least one inwardly projecting support element ( 3 ' . 3 '' ), which has an undercut and / or a tooth contour ( 3a ' . 3a '' ), wherein the changing outer contour ( 1a ) of the hollow body ( 1 ) in a process step in the forming area ( 1b ) in such a way against the support element ( 3 ' . 3 '' ) is pressed, that the outer contour ( 1a ) of the hollow body ( 1 ) and undercut or toothing contour ( 3a ' . 3a '' ) connect positively with each other. Method according to one of claims 1 to 5, characterized in that at least one support element ( 3 . 3 ' . 3 '' ) detachable with the die ( 2 . 2 ' . 2 '' ) and during the process from the rest of the matrix ( 2 B' . 2 B'' ) is separated. Method according to one of claims 1 to 6, characterized in that the support elements ( 3 . 3 ' . 3 '' ) together form a uniform profile, in particular a toothing and / or a negative image of a toothing. Method according to one of claims 1 to 7, characterized in that the hollow body ( 1 ) in a first process step in the forming area ( 1b ) is heated to a temperature above the ambient temperature, in particular to a temperature between 60 ° C and 1250 ° C, and that the hollow body ( 1 ) is mechanically compressed in a second method step by means of an axial pressing device in the direction of the main axis (H) and is plastically deformed with permanent shortening of its length, wherein the hollow body ( 1 ) during the second method step with the aid of the die at a plurality of spaced-apart locations in the forming area ( 1b ) is supported transversely to the main axis (H), wherein during the second method step, the outer contour ( 1a ) in the forming area ( 1b ) of the hollow body of the inner contour ( 2a . 2a ' . 2a ' ) is approximated to the die, wherein during the second process step material of the hollow body ( 1 ) from outside the forming area ( 1b ) is pressed into the forming area, so that at least in sections an enlargement of the wall thickness on the hollow body (in particular with formation of an outside bead) in the forming area ( 1 ). Method according to claim 8, characterized in that in the forming area ( 1b ) of the hollow body ( 1 ) an increase in the wall thickness by at least 50%, in particular by at least 100% based on the initial wall thickness (t) of the hollow body ( 1 ) is effected. Method according to one of claims 1 to 8, characterized in that the hollow body ( 1 ) during a method step on the outside with the aid of a hollow body ( 1 ) annularly surrounding die ( 2 . 2 ' . 2 '' ) and at the same time on the inside with a hollow body ( 1 ) at least partially penetrating thorn ( 4 ) is supported. Method for producing a wall thickening on a hollow body extending along a main axis ( 1 ), which at the beginning of the process in a forming area ( 1b ) a predetermined inner contour ( 1c ), in particular according to one of claims 1 to 9, in which - the hollow body ( 1 ) is set in a process step in the axial direction under compressive stress and thereby plastically deformed, so that the predetermined inner contour ( 1c ) of the hollow body in the forming area ( 1b ), wherein - the hollow body ( 1 ) on the outside of the forming area ( 1b ) by at least one die ( 2 . 2 ' . 2 '' ) is encompassed at least in sections, wherein - the hollow body ( 1 ) on the inside of the forming area ( 1b ) by at least one mandrel ( 4 ) is pierced at least in sections, wherein - the thorn ( 4 ) one adjacent to the forming area ( 1b ) arranged mandrel contour ( 4a ), which unlike the predetermined inner contour ( 1c ) of the hollow body ( 1 ) is designed in the forming area. Device in particular for carrying out a method according to one of Claims 1 to 11, with a clamping device for exerting compressive forces on a hollow body ( 1 ) along a major axis (H) of the hollow body ( 1 ) and with - a hollow body ( 1 ) on the outside at a forming area ( 1b ) at least partially encompassing die ( 2 . 2 ' . 2 '' ), where - the die ( 2 . 2 ' . 2 '' ) at least one support element ( 3 . 3 ' . 3 '' ), which during a plastic deformation of the hollow body ( 1 ) a predetermined profile in the material of the hollow body ( 1 ) can press. Apparatus according to claim 12, characterized in that at least one support element ( 3 ' . 3 '' ) during the plastic deformation of the hollow body ( 1 ) with the hollow body ( 1 ) and from the die ( 2 ' . 2 '' ) is designed separable.

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