EP1294501B1 - Method and device for producing steel, especially stainless steel press fittings. - Google Patents

Abstract

Special steel press fittings are produced in two process steps, which can be performed simultaneously, or also one after the other. The cut to size blank is widened in a die is upset in order to form the desired pipe connection areas.

Description

For piping installation, both for heating pipes as well as for the drinking water installation or for Gas pipes are increasingly used as connection technology pressfittings came into use, the connection to Pipe ends together and for the production of pipe branches serve. Press fittings are used for production pushed the pipe connection to the respective pipe ends, one in an annular bead of the press fitting held O-ring establishes a fluid-tight connection. The pressfitting will then work on one accordingly provided pressing area radially inward plastically deformed, whereby it mechanically secured to the pipe end becomes. The compounds thus obtained are reliable producible and long-term stable.

According to the piping material pressfittings needed from the same material. For installation Copper pipes use copper press fittings. The production is concerned with EP 0649689 B1. to Production of these copper press fittings serve longitudinal or transversely divided matrices into which a correspondingly preformed Blank with flared pipe end is insert. The female mold has an annular groove in its inner shape, which form the outer shape of a press fitting to be formed Ringsicke sets. To form this annular bead serves a compression device with a mandrel, the Support in the open tube end of the lying in the die Blanks is introduced. To the wall material of To bring blanks for inflow into the annular groove, points the compression device a caster or compression sleeve on, with the tube end axially compressed in the die becomes. The wall material of the press fitting flows plastically in the annular groove. Then the seat for the O-ring reliable in the required precision, be the mandrel and the trailing sleeve from the tool removed and a rolling process is performed. Serves a rotatably mounted, on a finger held roll, which is inserted into the pipe end and pressed radially outward against the trainees annular bead becomes. The role now executes a few rounds, where she rolls the corresponding ring bead.

This process is specially for the production of Copper press fittings designed and suitable. It requires a blank, the outer dimensions of the recording room the die is adjusted so that he is fed up the die rests. The blank must therefore before the Upsetting to form the annular bead first the corresponding Coarse form. For this he has to be at his end be widened. This step is before perform. After inserting the pre-expanded blank he is cut to size in the matrix. In the mold is then calibrated on the pre-expanded and calibrated to length (cut to length) blank an upsetting and rolling step performed to produce the desired ring thickness. It will get copper pressfittings, which are against the Pipe mouth recessed annular bead have. A Pressing the press fitting is with appropriate Pressing tools or pressing tongs possible at the same time the existing on both sides of the O-ring parts of the Capture fittings, thereby also when using copper as a fitting material a very good mechanical connection between the pipe end and the press fitting is obtained.

The tools for pressing the press fittings are specifically designed for the special shape of the pressfittings. When using otherwise shaped press fittings the installer concerned needs new tools purchase.

Stainless steel pressfittings for stainless steel pipe installation are usually constructed in such a way that immediately at its free end an O-ring seat is formed. A typical representative of such press fittings is the EP 0361630 B1. This press fitting has a Connection portion, the inner diameter of the Outer diameter of a pipe to be connected expanded is. At the end of the press fitting is the wall of the same initially bent radially outward and then under Forming an annular bead crimped inwards. such Pressfittings can not handle the same tools be pressed, as they are already for copper press fittings in use, one on each side of the O-ring Pressing area exhibit.

The production of press fittings requires machines and methods that press fittings in very large Quantities are reliable to produce. To be reliable To achieve pipe connections, the press fittings be manufactured with low tolerances. This must be be possible as low as possible production costs. Corresponding intended to manufacture the machine or device the press fittings are simple and robust yet reliable pressfittings in the desired Quality can produce.

DE-A-2110758 discloses a method of preparation a coupling sleeve of a single copper pipe section. For this purpose, the copper pipe section in a the Tube section outside comprehensive die inserted and by means of a step mandrel widened by this means a hydraulic drive in the copper pipe section is introduced. The step mandrel points to his from the penetrating section at the far end of an inclined Ring shoulder on, towards the end of the expansion process with the end face of the copper pipe section comes into contact. The annular shoulder is conical. The opposite lying surface of the die comprising the pipe section is mirror-inverted conical. The conical Sections of the expansion punch and die take one outward arching section of the copper tube on.

On this basis, it is an object of the invention, a Apparatus and method for making press fittings Made of stainless steel, with the easily pressfittings the desired Quality and with the required process reliability to let. Moreover, it is an object of the invention Stainless steel pressfittings to create that inexpensive and can be used in practice.

This object is achieved by a method of manufacture of press fittings according to claim 1 and by a Apparatus for the production of press fittings according to claim 6 solved.

For the production of pressfittings is made of steel pipe from which pieces are cut to length. The cut to length Pipe pieces are in an integrated process step with two steps to a press fitting transformed, with the two procedural Teilschrritte sun are designed so that they immediately without intermediate step successively executable in a tool.

To manufacture the press fittings, the cut to length Pipe sections expanded and with an annular Beading provided, which serves as an O-ring seat. The expansion and the beading (i.e., the formation of the bead) occurs thus, so to speak, in one go. Between the two In process steps, the pressfitting neither to transported by another tool, still being worked on, e.g. recalibrated or cut to length. The sequence of steps is therefore cut to length, expansion, Corrugations. By the possible summary of the widening and sipping to one in a single workstation feasible forming stage comes the processing machine with a reduced number of processing stages out. The summary of the widening and the beading allowed on the machine for manufacture the pressfittings a very significant reduction of Construction and construction work, which ultimately in a considerable cheapening of the stainless steel pressfittings reflected. On the other hand, it has been shown that despite the omission of an intermediate calibration between the Expansion and beading, i. despite the summary both individual steps to an integrated process step, the required press fitting in the required Dimensional accuracy and quality make, so that with the mass-produced press fittings to produce faultless pipe connections.

In the method, the diameter of the pipe end the blank preferably by more than a double wall thickness widened. This creates the possibility of emanating from the tube material of the Type has been cut to length in the later installation to connect with the press fittings. For the production The press fitting is therefore not a particularly pipe material required, which in turn lowers costs and simplifies the production. The widening of the pipe ends also has the effect of being produced on the Pressfitting is formed a spigot that the axial insertion depth of the pipe to be connected limited. This creates defined conditions, so that the produced Crimp the required axial tensile strength receives.

To carry out the method is first a Mandrel for expanding the tube end of the blank in the same pushed axially under pressure. The conical frontal At the end of the mandrel the pipe end widens, the is stretched in the circumferential direction and thus with a radial inward pointing force on the outer cylindrical Lateral surface of the mandrel rests. The outer diameter of the mandrel and the inner diameter of a corresponding one Section of the blank receiving shape so matched to each other that the wall of the widened Blanks now also, at least almost, on the inner wall the shape is applied. In the now following Process step that coincides with the expansion step may overlap, i. can start even before this too End is, the pipe end is with a compressive axial force acted upon, for example by a provided on the mandrel Ring shoulder or a separate pressure sleeve. Surprisingly the material bulges the wall of the Pipe end despite radially inward-pointing bias by the axial compression force in a ring area after outside in a provided in the form of annular groove, wherein The stainless steel material in the circumferential direction even further stretches as already done in the widening step. Around to be able to do this in the illustrated form, is a stainless steel material with high pressure resistance and Toughness required. That in the water pipe installation commonly used stainless steel material meets these Requirements.

The method is suitable for the pressfittings starting from a welded pipe material. In the field of, for example, produced by laser welding Weld may have a surface finish be present for the tight fit of an o-ring not suitable. This may be the case in particular be when the pipe material has been welded from the outside is. Here can be remedied by the Stauchschritt a post-processing, in particular the weld, he follows. This can, for example, in a rolling process done by from the inside, in particular the weld area, is rolled several times. As a rolling process can be carried out, for example, a so-called rolling, in which one carried by a finger and rotatably mounted Roll introduced into the pipe end and on an orbital track rolled along in the formed bead. Preferably, several thousand, preferably more than ten thousand repetitions performed at where the roller is pressed radially outward. Especially the weld area is smoothed here. alternative the ring groove can be ground. It can it may be sufficient, just the weld area to grind. While the rolling the preference has to close pores and craters by squeezing them be, can be in the grinding process especially short clock cycles and particularly good bead geometries receive.

The press fittings to be produced can be one, two, have three or more pipe ends - depending on the application. The simplest application is a straight pipe connector with two pipe ends. End caps only show a pipe end. Branch pieces can be three or more Have pipe ends, wherein the blanks of such branches thus prepared in a preparatory step be that appropriate straight pipe ends in the desired number are available. Should bow fittings are produced, a cut piece of pipe in a corresponding shape first bent, after which then performed the method steps discussed above become.

The device suitable for producing the press fittings has a combined expansion and compression station on, to the at least one multi-part tool, an expansion mandrel and a compression member belong. Of the Expansion mandrel and the compression element can in one Part combined or formed separately. Both elements, the expansion mandrel and the compression element, arrive at the same tool (shape) used simultaneously or successively. The combined Expansion and compression station is thus a single Processing station, in which both the expansion as also the beading without intermediate step is performed. The upsetting and beading in just one processing station enables a particularly cost-effective yet precise Manufacture of press fittings, i. the production the pressfittings mass-produced in a quality that a reliable production of long-term tight press connections allowed.

The tool preferably has a receiving space containing several sections, i. at least a first and a second section having a different one Have diameter and on an annular shoulder merge. The diameter of the first section is preferably consistent with the outer diameter of the unexpanded blank match while the blank of the second portion about the outer diameter of the blank after performing the expansion step should. The between the first and the second cutout trained annular shoulder is used to define the outer shape of the press fitting in transition from its unexpanded to his expanded area. additionally The annular shoulder can be used as a stroke limiter for the expansion mandrel serve, in particular if its drive means does not specify the stroke depth.

The tool can be parallel to the longitudinal direction of the Pipe end or be divided across this. At the parallel Division becomes the tool (the form) by two Form halves formed, the dividing line substantially at a height with the center line of the blank lies. The formed in the mold halves annular groove for Determining the outer shape of the trainee bead is in both mold halves present and in their axial extent unchangeable. On the other hand, the transverse division allows the half of the form creating a dividing line centered to the annular groove, leaving the annular groove in its axial extension is changeable. Here it is particularly advantageous the shape during the expansion and / or compression process to move so that the annular groove gradually closes, i. their axial extent from a larger one Dimension reduced to the nominal dimension. This succeeds, first to expose a larger area of the pipe wall to the outside, whereby the bulging wall may be better clings to the shape of the annular groove. But the essential thing is that the annular groove is closed before wall material too far outward, i. in the gap between the mold halves has penetrated.

It is possible the mandrel and the upsetting element unite by an annular shoulder on the expanding mandrel is trained. Here is the upsetting element and the expanding mandrel always in sync with each other, giving a high process reliability and a simple tool results. If necessary, however, the compression element can be a separate driven, slidably mounted on the mandrel pressure sleeve being on the pipe end and this one upsets after the pipe end is fully expanded has been. Here it is possible, the pressure sleeve, eg. remotely controlled or force-controlled to optimum To achieve production results. Anyway, the Stroke the pressure element so that the material of the Tube end in the area of the annular groove bulged outwards, but not to a flat disc flange is pushed together. This is preferably done by Path control of the pressure element achieved. In contrast, the Aufweitdorn, for example, with the interposition of a relative hard spring connected to its drive device be so that he bouncy against the annular shoulder between the first section and the second section of the tool starts.

The device can additionally with a roller burnishing station be provided. This can be done in a separate processing station be arranged when a very fast Working cycle is desired. However, it is preferred the burnishing station also in the expansion and compression station to integrate. To the rolling station belongs one rotatably mounted on a finger roller and a drive device, with the finger in the widened and sucked tube end retracted and moved there in a circle until the formed bead, especially in the Area of a possibly existing weld seam of the pipe wall has the desired shape. Instead of the rolling station can also be provided a grinding device.

With the method and the device can be Press fittings made of stainless steel, which is a widened Pipe end and in this an annular bead for receiving having an O-ring as a sealing element. The peculiarity this stainless steel press fitting is that on both sides of the O-ring, i. the ring bead, tubular pinch areas of the same diameter and approximately the same axial length are present as Can serve pinch area. This is the stainless steel pressfitting on both sides of the O-ring with one to be connected Pressed pipe end. This not only increases actually the mounting safety and the strength of the Connection, but also acceptance in the market and allowed in addition, the use of squeezing tools, as used to date for copper pressfittings have found.

Advantageous embodiments of the invention are Subject of the drawing, the description or of Dependent claims.

Fig. 1 eine Vorrichtung zur Herstellung von Pressfittings, mit einem Werkzeug, einem Dorn und einem Stauchelement, während des Aufweitschritts, vor dem Stauchen, in einer schematisierten Schnittdarstellung,

Fig. 2 das Werkzeug nach Figur 1, nach Abschluss des Aufweitschritts und des Stauchschritts, in einer schematisierten Schnittdarstellung,

Fig. 3 das Werkzeug nach Figur 1, während eines Rolliervorgangs,

Fig. 4 eine abgewandelte Ausführungsform einer Vorrichtung zum Herstellen von Pressfittings während des Aufweitschritts, in einer schematisierten Schnittdarstellung,

Fig. 5 die Vorrichtung nach Figur 4, nach Abschluss des Aufweit- und Stauchschritts, in einer vereinfachten und schematisierten Schnittdarstellung,

Fig. 6 eine weitere Ausführungsform einer Vorrichtung zur Herstellung von Pressfittings, während des Aufweitschritts, in einer schematisierten Schnittdarstellung,

Fig. 7 die Vorrichtung nach Figur 6, nach dem Aufweiten und Stauchen, in einer schematisierten Schnittdarstellung,

Fig. 8 eine weitere Ausführungsform der erfindungsgemäßen Vorrichtung, mit beweglicher Matrize, während des Stauchvorgangs, in einer schematisierten Schnittdarstellung,

Fig. 9 die Vorrichtung nach Figur 8, zu Ende der beiden Bearbeitungsvorgänge (Aufweiten und Stauchen) in schematisierter Schnittdarstellung, und

Fig. 10 einen fertigen Edelstahl-Pressfitting zum Verbinden zweier Edelstahlrohre, in einer schematisierten Schnittdarstellung.

In the drawings, embodiments of the invention are illustrated. Show it:

1 shows a device for the production of press fittings, with a tool, a mandrel and a compression element, during the Aufweitschritts, before upsetting, in a schematic sectional view,

2 shows the tool according to FIG. 1, after completion of the widening step and the upsetting step, in a schematic sectional representation,

3 shows the tool according to FIG. 1, during a rolling process, FIG.

4 is a modified embodiment of an apparatus for producing press fittings during the expansion step, in a schematic sectional view,

5 shows the device according to FIG. 4, after completion of the widening and upsetting step, in a simplified and schematized sectional representation,

6 shows a further embodiment of an apparatus for the production of press fittings, during the expansion step, in a schematized sectional view,

7 shows the device according to FIG. 6, after widening and swaging, in a schematic sectional representation, FIG.

8 shows a further embodiment of the device according to the invention, with movable die, during the upsetting process, in a schematic sectional illustration,

9 shows the device according to FIG. 8 at the end of the two machining operations (widening and swaging) in a schematic sectional view, and FIG

Fig. 10 shows a finished stainless steel press fitting for connecting two stainless steel tubes, in a schematic sectional view.

FIG. 1 shows a device 1 for the production illustrated by pressfittings, as for example. As a straighter Press fitting 2 of Figure 10 can be seen. The Device 1 according to Figure 1 is used to produce arcuate Press fittings, including pre-bent, cut to length and tubular blanks 3 with constant Inner and outer diameter is assumed.

The device 1 has a held on a base 4 and divisible mold or die 5, which has a receiving space 6 with a first section 7 and a second Section 8 encloses. The first section 7 of Receiving space 6 has an inner diameter, which with the outer diameter of the blank 3 matches. Of the second section 8 serves to receive a pipe end 9 of the blank 3, which is the later crushing area of the trainee Press fittings will form. The inner diameter the substantially cylindrical second portion 8 of the receiving space 7 is larger than the outer diameter of the non-deformed pipe end 9. Preferably the inner diameter of the second section 8 is about the double wall thickness of the pipe end 9 greater than that Outer diameter of the undeformed pipe end 9. In the transition between the two sections 7, 8 of the interior 6 a conical annular shoulder 11 is provided. In some Distance to the annular shoulder 11 and in a preferably even greater distance from the open end 12 of the receiving space 7, an annular groove 14 is formed in the tool 5, the outer contour of a press fitting on the second trainees annular bead 15 determines. The annular groove 14 forms a closed ring consistent, approximately semicircular, Section.

The illustrated in Figure 1 tool 5 is parallel divided to a longitudinal direction 16 of the receiving space 6. The longitudinal direction 16 agrees with the two axial directions the open tube ends of the blank 3 match.

To the tool 5 includes a widening mandrel 18, a Upset element 19 and a drive device 21 for this. The expansion mandrel 18, the compression element 19, the Drive device 21 and the tool 5 form a combines expansion and compression station 22 of the device 1.

The Aufweitdorn 18 is a cylindrical, at its End face with a bevel 23 provided element whose Outer diameter is slightly larger than the outer diameter of the not yet expanded pipe end 9. The Bevel 23 defines a conical annular surface whose diameter immediately after the front of the Expansion mandrel 18 is less than the inner diameter of the unsuspected pipe end 9. The chamfer 23 includes a tip cone angle, which is such that the Aufweitdorn 18 under expansion of the pipe end 9 in this can be inserted without the pipe end 9 in front of him push together. The length of the expanding mandrel 18 is greater than the distance between the annular shoulder 11 and the annular groove 14th

The Aufweitdorn 18 is rigid and, if necessary, in one piece connected to the compression member 19, which in the embodiment the device 1 of Figure 1 by a Cylinder body is formed, which with a step or annular shoulder 25 in the cylindrical expansion mandrel 18 passes. The cylinder body has a Outer diameter, which is the inner diameter of the widened Pipe end 9 exceeds. Preferably, the Outer diameter of the cylinder body lower than that Inner diameter of the second portion 8 of the interior 6, so that from the expansion mandrel 18 and the cylinder body formed thorn or body in the second section 8 of the receiving space 6 of the tool 5 retract can.

For operation and movement of this combined Expansion and compression mandrel serves the drive device 21, in the present embodiment by a hydraulic drive is formed. Belongs to this a piston 26 in a cylinder chamber 27 a working space 28a and another working space 28b divides. The piston 26 is, for example. Via a piston rod 29 with the Expansion mandrel 18 and the compression member 19 connected. Not further illustrated fluid channels are the optional loading of the working spaces 28a, 28b with pressurized hydraulic fluid. This allows the Piston rod 29 targeted in both axial directions respectively in the direction of arrows 31, 32 are moved.

The device 1 described so far works like follows:

It is made of cut and pre-bent tubular Blanks 3 assumed a constant diameter. This is inserted into the tool 5, after which the tool is closed. The blank 3 sticks out with his Pipe end 9 in the section 8 of the receiving space 6, wherein he is not present here on the tool 5. By the curvature of the blank 3, this is in the tool 5 axially fixed. The mandrel 18 is as far as possible in its in FIG right position and not in contact with the pipe end 9. It is now the working space 28b with fluid acted upon, whereby the piston 26 and with this the Piston rod 29, the upsetting element 19 and the expansion mandrel 18 are moved to the tool 5, as is indicated by the direction of the arrow 31. The expansion spike 18 sets with his chamfer 23 at the preferably deburred and, if necessary, with a small Inside and Außenfase provided end face of the pipe end 9 on. Due to the continued axial movement of the expansion mandrel 18 penetrates this under expansion of the pipe end 9 in this one, without this much together. Due to the now occurring strain of the wall the pipe end 9 in the circumferential direction can have a certain Shortening of the pipe end 9 occur. The widened pipe end 9 is under tension on the lateral surface of the expansion mandrel 18 at. This slides ever further into the Interior of the pipe end inside and expands ever longer Sections of the pipe end. Even before the bevel 23 the Ring shoulder 11 reaches, sets the compression member 19, i.e. the corresponding level 25 (ring shoulder) on the End face 9a of the pipe end 9. In the further movement of the piston 26, the tube end 9 is now compressed, whereby the wall of the pipe end 9 against its own radially inward bias in the area of Ring groove 14 spontaneously bulges outwards. This is done on the entire scope. The length of the compression stroke is included so that the upsetting process is terminated when the wall of the pipe end 9 completely in the annular groove 14th is applied. This is illustrated in FIG. The compression stroke is about as long as the difference between wall length the annular bead and axial length thereof.

The length of the hub can be through appropriate design the drive device 21 are dimensioned, for example. by the piston stroke is limited accordingly. Is the Go through the working stroke, i. the pipe end 9 expanded and compressed, as illustrated in Figure 2, the Working space 28b relieved of pressure and the working space 28a pressurized so that the piston 26 and with it the Compression member 19 and the expansion mandrel 18 in the direction of the arrow 32 extend from the tool 5 and the manufactured Release pressfitting. This one can now off The mold 5 are removed by these open and a new blank 3 is inserted, after which the above explained Repeated working cycle. For the production of Pressfittings is thus only a single piston stroke of the piston 26 required. The production is effective and precise.

In particular, in the case that the blank 3 of A welded pipe has been cut to length to join another step in the same tool 5 or in a separate tool can be carried out. In the illustrated in Figure 3 Example becomes of the former possibility Made use of. The blank 3 is already compressed and remains for the Rollierschritt still in the Form 5. To perform the rolling step is a Rolling device 34. To this belongs a finger-like Carrier, at the free end of a roller 36 rotatably mounted is, whose diameter is significantly lower than that Inner diameter of the flared pipe end 9. The carrier 35 is with a drive and positioning 37, which is adapted to the roller 36 at the wall is applied. Then the carrier is moved, that the roller 36 to move into the interior of the pipe end 9 and then moving in the radial direction so that the roller 36 in the formed annular bead 15 a Circulating movement. For example. the rolling process becomes 2 up to 4 seconds at a speed of more than 5,000 RPM performed. This results in more than 10,000 Circulations that provide sufficient smoothing of the ring bead their inside, especially in the area of a possible Weld effect. Alternatively, instead of the role 36 a driven grinding wheel are provided the entire annular bead 15 or only the area of Welded over.

A modified embodiment of the device 1 is illustrated in FIG. As far as the device 1 coincides with the device 1 of Figure 1, is recourse to the same reference numerals and to the referenced above.

In contrast to the device 1 described above The device 1 according to FIG. 4 has a drive device 21 with separate drives 21a, 21b for the Expansion mandrel 18 and the upsetting element 19 on. The expansion spike 18 is at its far from the chamfer 23 Side provided with a blind bore 40, one of which Compression spring 41 is added. This is based on the Bottom of the blind bore 40 from. In the blind hole 40 dives a piston rod 42 of a hydraulic piston 43. This is disposed in a hydraulic cylinder 44 and divides there two workrooms 45a, 45b from. By targeted admission the working spaces 45a, 45b with pressure can the Expansion mandrel 18 in both directions 31, 32 moves become. The stroke of the piston 43 is so great that start the expansion mandrel 18 against the annular shoulder 11 can. This serves as a stroke limiter for the piston 18th The spring 41 is so hard that it retracts when retracting Expansion mandrel 8 in the pipe end 9 is not or not essential is compressed. This causes a precise Shape of the diameter transition of the blank 3 from expanded pipe connection region 9 to the unexpanded Area. In addition, the device 1 is insensitive against positioning tolerances between the Tool 5 and the drive device 21.

Another feature of the illustrated in Figure 4 Embodiment of the device 1 is located in the Compression element 19. This is designed as a sleeve, the slidably mounted on the expansion mandrel 18. The Sleeve is provided with its own drive device 21a, to a piston 46 mounted in a cylinder 47 heard. This divides two working spaces 48a, 48b, selectively and selectively pressurized with hydraulic fluid can be. In this way, the sleeve in the direction the arrows 31, 32 are moved selectively to their Face on the end face 9a of the pipe end 9 to set and to compress the pipe end 9. Both drive devices 21a, 21b are independently controllable, whereby the expansion and compression of the pipe end. 9 can be optimized. In particular, this embodiment has their meaning when on a machine frequently the tools 5 are to switch to different To produce press fittings.

While Figure 4 illustrates the expansion of the pipe end 9, FIG. 5 shows the state of the device 1 after the end of the compression step. The expansion mandrel 18 has the pipe wall firmly against the inner shoulder eleventh pressed. The pipe end 9 is fully expanded and the sleeve is so far immersed in the tool 5 and has the pipe end 9 compressed so far that the Pipe wall, the annular groove 14 just fills and thus the desired bead 15 is formed.

FIG. 6 shows a further embodiment of the device 1 illustrates. As far as conformity with above embodiments, is based on the same reference numerals to the above Description referenced.

In contrast to the embodiments described above the tool 5 of the device 1 is not only two parts, but three parts. In addition to his Division parallel to the longitudinal central axis 16 is in a plane shared, which lies in the annular groove 14. In order to a tool part 5a is present before, during or be applied to the rest of the tool 5 after upsetting can. For centering serves a corresponding cylindrical Seat 50. Preferably, the tool part 5a attached to the seat 50 to the tool 5, before the Compression step begins. For this purpose, the tool part 5a by means of a corresponding positioning device in Direction of the arrow 31 to the tool 5 moves. The Positioning device also carries the drive device 21 for actuating the expansion mandrel 18 and of the compression element 19. Are both processing steps, i.e. the widening and upsetting has done the Device 1 the illustrated in Figure 7 state. It is now the piston 26 by pressurizing the Working chamber 28 a withdrawn from the pipe end 9. After that the tool part 5a is moved away from the tool 5 and Although in the direction of arrow 32. This will be the pipe end 9 partially released. After opening the rest of the tool 5, the press fitting 3 can now be removed. Of the Advantage of this embodiment is that the Tool part 5a, the two other parts of the tool. 5 on the seat 50 holds together and here in particular in Area of the annular groove 14 in a simple way a precise working Tool can build.

A modified embodiment of the in Figure 6 and 7 illustrated device 1 is shown in FIGS and FIG. 9. While in the above-described embodiment (Figures 6 and 7) of the expansion mandrel 18 and the upsetting element 19 is movable relative to the tool part 5 guided and driven, is the expansion mandrel 18 in the embodiment of the device 1 according to the figures 8 and 9 rigidly on the tool part 5a held and the upsetting element 19 is as annular Pressure surface 25 'formed on the tool part 5a. This is altogether with a not further illustrated Drive device connected and in the direction of Arrows 31, 32 selectively movable.

The tool part 5a has following its Half 14b of the annular groove 14, the other half 14a in the rest of the tool 5 is housed, a bore 52nd on, which is at a certain distance to the ring half 14b to the diameter of the expansion mandrel 18th reduced. This penetrates the rest of the bore 52. An his end he is provided with an end plate 18 ', the clamped by the tool part 5a against an abutment 53 is. The thus formed unit of abutment 53, Tool part 5a and expansion mandrel 18 is by means of Drive device as a whole on the tool 5 back and moving away from it. The distance between the ring surface 25 'and the annular groove 14 is in turn dimensioned that the widened pipe end 9 when closing the mold 5, 5a is compressed so far that the bulging Pipe wall just filling the closing annular groove 14. This is illustrated in FIG. It will be here with you a total of three-part form and a single drive device both for the expansion mandrel 18 as also the compression element 25 'worked.

With the above-described devices and the corresponding Method can be made press fitting 2, as exemplified in Figure 10. Such a stainless steel press fitting is made of a welded Pipe piece manufactured, the weld 60th is illustrated schematically in Figure 10. He points one, two or more pipe connection portions 61, 62, the are formed in total hollow cylindrical. Each pipe connection area 61, 62 has two hollow cylindrical sections 61a, 61b; 62a, 62b on, between each one the annular bead 15 is arranged. The two cylindrical ones Sections 61a, 61b; 62a, 62b have the same inner diameter on. They form pinch areas for connection of pipes. The pipes to be connected are then on both sides of the respective O-ring 63 mechanically with connected to the press fitting 2.

The presented method allows the production of stainless steel pressfittings virtually in one Operation involving two process steps, the at the same time or in succession. The cut to length Blank is widened in a tool and compressed to the desired pipe connection areas 61, 62 train. The process has been designed for stainless steel pressfittings proved to be reliable. It can Other pressure-resistant and tough metals for use come. The method is particularly suitable in connection with a downstream Rollierschritt or Grinding step for the production of press fittings from welded Stainless steel tube.

Claims (16)

1. Process for the production of metal press fittings starting from blanks (3) each with at least one pipe end (9),
   with a first process step, in which at least the pipe end (9) is received by a tool (5) and is widened with an expanding mandrel (18), the outside diameter of which exceeds the inside diameter of the pipe end (9) by the expanding mandrel (18) being inserted into the pipe end (9) in axial direction,
   with a second process step, in which directly following the first process step the pipe end (9) is deformed in the same tool (5) to form an annular groove, characterised in that
   the blank (9) is made of special steel, and
   that the widened pipe end (9) is axially upset in a section lying in the tool (5) in order to bend a ring-shaped region of the pipe end (9) radially outwards into an annular groove (14) configured in the tool (5).
2. Process for the production of press fittings, characterised in that in the first process step the diameter of the pipe end (9) is widened by more than double the wall thickness of the pipe end (9).
3. Process for the production of press fittings, characterised in that the expanding mandrel (18) run into the pipe end (9) in the first step remains in the pipe end (9) while the second step is performed.
4. Process for the production of press fittings, characterised in that the blank (3) is produced from a welded special steel pipe.
5. Process for the production of press fittings, characterised in that a cut to length piece of welded special steel pipe is used as blank (3).
6. Device (1) for the production of press fittings made of special steel using the process according to Claims 1 to 5,
   with a combined expanding and upsetting station (22), to which at least the following elements belong:

   a multipart tool (5), which has a receiving area (6) for the blank (3), wherein the receiving area (5) for receiving the pipe end (9) of the blank (3) has at least a first section (7) with the same diameter as the blank (3) and a second section (8) with an inside diameter, which is larger than the outside diameter of the pipe end (9), wherein the second section (8) has an annular groove (14) on its inside face to define the outer shape of an annular bead to be formed on the pipe end (9),

   an expanding mandrel (18), which is movably guided axially into the section (8) of the receiving area (6) and out of this, and is connected to a drive means (21) and its outside diameter exceeds the inside diameter of the pipe end (9) and is also smaller than the inside diameter of the section (8), into which the expanding mandrel (18) is to be run, so that defined between the expanding mandrel (18) and the inner face of the section (8) is an annular space, the radial thickness of which corresponds approximately to the wall thickness of the press fitting (3), and

   an upsetting element (19), which is movably guided axially towards the annular groove (14) of the tool (5) and away from this, and is connected to a drive means (21), and which has a ring-shaped pressing surface (25), which is arranged to be moved into abutment with the pipe end (9) and to upset the pipe end (9).
7. Device according to Claim 6, characterised in that the inside area (6) of the tool (5) has an annular shoulder (11) between the first section (7) and the second section (8).
8. Device according to Claim 6, characterised in that the tool (5) is configured in two parts and is divided along one face, which is arranged parallel to the longitudinal direction (16) of the pipe of the press fitting (9).
9. Device according to Claim 6, characterised in that the tool (5) is divided transversely to the longitudinal direction (16) of the pipe of the blank (3).
10. Device according to Claim 6, characterised in that the expanding mandrel (18) is connected to its drive means (21 b) via a spring means (41).
11. Device according to Claim 6, characterised in that the expanding mandrel (18) is rigidly connected to its drive means (21).
12. Device according to Claim 6, characterised in that the expanding mandrel (18) is rigidly connected to the upsetting element (19) and the drive means (21) for the expanding mandrel (18) at the same time forms the drive means (21) for the upsetting element (19).
13. Device according to Claim 6, characterised in that the upsetting element (19) and the expanding mandrel (18) have mutually independent drive means (21a, 21b).
14. Device according to Claim 6, characterised in that a part (5a) of the tool (5) is rigidly connected to both the expanding mandrel (18) and the upsetting element (19).
15. Device according to Claim 6, characterised in that the device (1) additionally has a tumbling means (34).
16. Device according to Claim 6, characterised in that the device additionally has a grinding station with a grinding disc, which can be run into the pipe end (9) and in a radial movement can be moved into the annular bead (15) to perform a grinding operation in this.

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