DE1900741C3 - Device for shaping conical metal tubes - Google Patents

Description

25th

The invention relates to a device according to the preamble of claim 1.

On this known device (US-PS 3,327,513) only conical tubes with a straight longitudinal axis can be produced, because only mandrels with such a Axis are described.

For certain purposes, conical tubes with a curved longitudinal axis are also required. The invention is therefore based on the object of designing the known device so that with it such tubes can be manufactured.

In order to achieve this object, what is covered in the characterizing part of claim 1 is provided according to the invention suggested.

This has the effect that the conical mandrel is moved through the die can and the conical tube with a curved longitudinal axis automatically deforms under the action of the die.

An advantageous further development of the invention is covered in claim 2.

The device according to the invention offers the following advantages, some of which also apply to the known device given are:

1. The conical tube produced in this way is not limited to those with circular cross-sections, but rather it can also be conical tube of polygonal or elliptical cross-section if used a similar and unique process can be obtained.

2. The wall thickness distribution of the conical tube produced in this way is surprisingly uniform Accuracy of the product is noticeable because of its tight containment of the mandrel surface be improved.

3. There are no cracks or furrows on the surface of the conical tube, which means that subsequent There is no need for surface treatment.

4. No complicated or expensive systems, ⁶ S and no high level of skill on the part of the operator are required. The production process is significantly cheaper.

5. With the movable die holder, the angle of incidence of the die holder is always automatically adjusted so that it forms a right angle with the center line of the mandrel, the curved Pipe can be generated automatically.

The device according to the invention is explained in more detail below with reference to figures, for example. Show it

F i g. la, Ib perspective views of a die before and after the operation,

Fig. 2 is a plan view of the inventive Contraption,

F i g. 3 is a view of the FIG. 2 device shown,

F i g. 4 shows a section through the main part of an inventive Device for pulling bent pipe,

F i g. 5 is a perspective view of the die holder as it is used for the production of curved conical Pipe is used.

In Fig. La a die 8 is in the initial state and in Fig. Ib after completion of the drawing step.

The die 8 can be made of soft iron, brass, bronze, aluminum. Lead, polyurethane or similar material be provided with sufficient deformability and elasticity. If the die 8 also as a comparative thin disk is shown, it can be of any desired shape, such as it corresponds to their respective material and the drawing conditions of the shell. The material of the die 8 should have a greater resistance to deformation than the metal of the tube blank and preferably made of one made of a different material. If the same types of metal are used for the die 8 and the shell the process of galling often occurs between the two pieces. The size of the die should be 8 can be determined such that its inner diameter 9 is approximately equal to that of the thinner end of a conical one Mandrel 1 is, and the outer diameter of the die 8 should be much larger than the wider end of the conical mandrel 1 is so that part of the die 8 is not plastic even in the last phase of the drawing process Is subject to deformation (Fig. 4).

The edge zone of the inner opening 9 of the die 8 is beveled or compressed. However, it is Die 8 of a flat shape so that the inner opening can be punched out. The resulting Deformation around the punched opening can be used for the subsequent drawing step.

A die holder 10 has an inner opening 11 of a sufficiently large diameter. The die 8 is held by a stepped stop 12 in the die holder 10, which in turn is movable attached to a fixed plate 13 (Figs. 4 and 5). An inner ring 26 has an externally curved surface 25 which is concentric with the inner surface 24 of the fixed plate 13. One with the die 8 The associated die holder 10 is mounted in the interior of the ring 26. Between the inner surface 24 and the outer ring surface 26 balls or rollers 27 are arranged in a retaining ring or in a cage, so that the inner ring 26 is freely rotatable within the inner surface 24 of the fixed plate 13, and the die 8 is always held perpendicular to that part of the curved center line of the mandrel 1 which is in the center of the fixed plate 13 is located.

A tube blank 14 consists of a metal tube with

an inner diameter roughly equal to the maximum inner diameter of the desired pipe. One end of the shell 14 is bent inward. so that this section of the billet is held in position by the thinner end 2 of the conical mandrel 1 can.

Furthermore, the Lupp; 14 over the conical Mandrel 1 drawn, which as in F i g. 4 shown, has been prepared so that one end of the hollow 14 is against the thinner end 2 of the conical dome 1 rests, and it gk ichzeit between the end face of the connecting piece 4, which connects the conical mandrel 1 to the movable plate 6, and the thinner end 2 of the conical dome 1 is clamped.

If the movable plate 6 is moved, e.g. B. by actuating a screw in such a direction that the conical mandrel 1 is pulled to the left, the die 8, which is rigidly attached to the die carrier 10, acts on the shell 14, as if the die 8 on the Moving the surface of the tube bobbin 14 was de. Since in this case the inner diameter of the opening 9 in the die 8 is determined so that it is smaller than the outer diameter of the billet 14, the billet 14 is subjected to a strong deformation resistance force of the die 8 and is deformed until it touches the conical mandrel 1. However, the pressing force of the die 8 cannot exceed the high strength of the mandrel I. Therefore, the inner opening 9 of the die 8 is enlarged by deformation. If the conical mandrel 1 is moved further to the left, the section of the tubular blank 14 that comes into the die is continuously deformed and brought into contact with the conical mandrel 1. At the same time, the inner opening 9 of the die 8 continuously increases its diameter, the desired conical tube finally being obtained.

In the course of the process described above, if the material and thickness of the die 8 in relation are selected to match the material and the thickness of the tubular blank, the tubular blank 14 is plastically compressed and the compressed material is stretched vigorously in the longitudinal direction and deformed in such a way that that a partial increase or decrease in the wall thickness over the length of the tube blank 14 is almost eliminated. It should also be noted that it is because of the beveled or compressed edge surface the inner opening 9 of the die 8 does not give rise to damage to the billet during the time since the die 8 is moved relative to the billet, whereby a smooth and shiny surface of the produced Rohres can be obtained.

Although what has been described above applies to the case that The conical tube is produced in just one drawing step, such a process can also be done in two or more Steps are divided in case the taper of the pipe is too strong, and a final shape in one step is not feasible. The strongly conical tube can be of the same cheap quality can be obtained as explained above.

The F i g. Figures 2 and 3 show an apparatus showing practical use. In the drawing, a fixed plate 13 and support plates 17 parallel thereto are attached to both ends of a device frame 16. On both sides of the plates 13, 17 described above, a pair of connecting bolts 18 are arranged in the horizontal direction. Fig. 6 shows a movable plate which is guided by these connecting bolts 18 so that it is freely displaceable in the longitudinal direction of the device. On the surface of the movable plate 6, in the direction of the fixed plate 13, a coupling claw 7 and on the other side of the movable plate 6 a threaded bolt 19 are attached, which is guided through the bores of the support plates 17 and non-rotatably attached. This threaded bolt 19 has a drive element 20 which is freely rotatably mounted thereon and is mounted between the pair of support plates 17 described above. A toothed chain wheel is fixedly attached to the drive element 20 and is set in rotation by an articulated chain 22 which extends between the toothed chain wheel and another chain wheel attached to a drive shaft 21. With the help of these two toothed chain wheels, the drive element 20 is rotated around the threaded bolt 19, and due to the internal thread of the drive part 20, which is in engagement with the thread of the threaded bolt 19, the drive element can move the movable plate 6 together with the threaded bolt 19 along the connecting bolt 18 move back and forth.

In addition, in the embodiment shown in the drawing, a connector 4 is on the thinner end of the conical mandrel 1 is provided, which is attached to the coupling claw 7 by the socket pin 23 is attached, whereby the conical mandrel 1 together with the movable plate 6 in the longitudinal direction of the device is moved.

On the other hand, on the die holder 10, which is arranged in the middle of the fixed plate 13, a plastically deformable die 8 attached. Through the inner bore of this die 8 are the Tube blank 14 and the conical mandrel 1 out.

In another embodiment, shown in FIG. 5, the so-called "universal joint" is used, a ring 29 between the inner edges of the fixed plate 13 by a pair of vertical pins 28 is held so that the ring 29 is freely rotatable about the vertical axis. Besides, there is another Ring 31, which is mounted in the same way by means of a pair of horizontal pins 30 so that it is around the Pins 30 is freely rotatable. The die 8 is fixed in the second ring 31 and works in the same way as described above.

The connection between the coupling claw 7 and the connecting piece 4 can also be done in other ways than can be obtained with the socket pin 23, for example by a construction of the coupling elements which the coupling claw 7 is provided with a projecting drive plate 33 and also has a recessed part 32. On the other hand, there is a groove 34 at one end of the adapter 4 is provided, the throat 34, as shown in FIG. 8 and 9, engages the recessed portion 32. the Groove 34 can be arranged to mate with a similar recessed portion 35 of a connecting plate 36, which is installed inside the driver plate 33, engages in such a way that the connecting plate 36 is movable to a certain extent in the vertical direction. In this way the connector 4 connected to the movable plate 6 with the possibility of a certain vertical movement will.

The device for creating conical tubes described above works as follows:

First, the tubular bobbin, one end of which is bent inward, is slipped over the conical mandrel 1. The connector 4, is at the thinner end

of the conical mandrel 1 attached. The so connected Tube blank and the conical mandrel 1 are passed through the inner opening 9 of the die 8 and the intermediate piece 4 attached to the movable plate 6 with the coupling claw 7. After switching on the motor the drive element 20 is set in rotation by the chain 22 and the chain wheels, and the threaded bolt 19 moved away from the support plates 17 to the outside (to the left in Figs. 5 and 6).

When the threaded bolt 19 is moved facing outwards, the movable plate 6, which is connected to the conical Mandrel 1 and the tubular blank 14 is connected, together with the threaded bolt 19 on the connecting bolt 18 moves along, and pulls the koni see mandrel 1 and the tube blank 1 located on it through the die 8. The die, which is attached to the Matrizenhai ter 10, acts on the tubular blank 14, wäh rend the two are moved against each other, and the tube blank 14 is thereby from the edge of the inner Boh tion 9 of the die 8 is subjected to a strong compressive force, since the bore of the die 8 is smaller than: the outside diameter of the tube blank 14. The tube shell 14 is plastically deformed and brought into contact with the surface before the conical mandrel 1, where is created by the desired conical tube.

For this purpose 3 sheets of drawings

Claims (2)

Patent claims: 1. Device for shaping conical metal tubes with a conical mandrel on which a Tube blank is pulled up, one according to the conicity of the conical mandrel plastically deformba Ren die, which is stored in a die holder, which is on one opposite to a horizontally movable Plate arranged fixed plate is held by the connected to the movable plate conical mandrel is movable, characterized in that the die holder (10) is freely rotatable with respect to the pipe's longitudinal axis and which has a curved center line »The end of the conical mandrel (1) can be moved freely with the movable plate (6) through an intermediate piece (4) connected is. 2. Device according to claim 1, characterized in that that the die (8) is gimbaled (Fig. 5.