DE429584C - Process for the production of pipe elbows, pipe bends, pipe coils u. like - Google Patents

Description

It is a process for the production of pipe bends, pipe bends, pipe coils and the like known (Patent 367518), in which the bending of the straight pipe workpiece by eccentric expansion of the latter is brought about. The eccentricity of the expansion is such that there is no stretching of the pipe wall at the outer curve. The eccentric expansion is done with the help of a dome with a one-sided side Approach that eccentrically enlarges the circular end face of the dome. That about the The mandrel driven straight pipe workpiece is expanded eccentrically by the mandrel attachment and thereby bent.

With the help of this procedure, no pipe bends ο. Like. With on her one or on straight pipe sections continuing at both ends are obtained; also enables this method does not produce a number of curvatures in one piece that are directed in different directions in space, for example S-shaped pipe elbow. In such cases, the pipe bends must be made for themselves and straight pipe sections are welded to this or the pipe bends in the desired different directions can be joined together by welding.

It has now been found that even when using the known symmetrically circular

around reinforced mandrels for expanding straight pipes, a curvature of the expanded pipe can be achieved if the strength of the pipe building material is reduced on one side during the expansion under pressure and tension by unilaterally acting heating. The bending of the pipe then arises from the fact that on the side of the pipe on which the heating does not take place, the undiminished compressive strength of the building material causes the feed over the mandrel to remain unchanged, while on the heated side of the pipe it is softened by the heating Building material is compressed as a result of its lower compressive strength and thereby a delay takes place in the feed, which causes the curvature of the pipe towards this side. As a result of the heating, however, at the same time the extensibility of the building material is significantly increased, and this extensibility has the consequence that the compressed building material is stretched out again transversely in both directions as the expansion progresses. This stretching of the compressed building material a ₅ on the inside of the curvature results on the one hand in an eccentric widening because there is no stretching on the outside of the curvature, on the other hand, the uniformity of the wall thickness is also achieved by stretching transversely in both directions.

Since the one-sided heating of the pipe workpiece from all directions around the The latter is easy to carry out, a pipe section can be several in different directions get lying curvatures one behind the other. It is particularly important that the elbow or pipe bend with one or both sides adjoining straight pipe sections and any Combinations of straight pipe sections with connecting or connecting pipe bends can be produced by the new process.

The one-sided heating of the pipe workpiece is expedient by means of a gas heating flame causes the against the pipe workpiece at the point where the reinforcement is in it of the dome is located, but the pipe workpiece is directed to that side on which the inside curvature side should arise. If go after generating a pipe bend in this Way to connect to the latter another opposite pipe bend, for example lies in the same plane (S-shape), the opposite point of the pipe workpiece is heated. This can be done by moving the burner to the other side or, if the burner is stationary, with a corresponding one Rotation of the pipe workpiece can be effected. In order to produce pipe bends with a straight pipe extension, after production The curvature interrupts the heating, or the pipe workpiece becomes uniform all around heated.

The execution of the method is illustrated, for example, in the drawing. The illustration shows the production of an approximately S-shaped bent pipe section, the two ends of which have a straight extension. At the beginning of production, the straight part I is first generated with the help of the symmetrical all around a reinforcement a at one end possessing dome b. The pipe workpiece c is heated evenly all around with the mandrel reinforcement α , which is indicated by the arrows in the part! and the points that are here equally everywhere are indicated. Due to the reinforcement α of the dome, the pipe workpiece is expanded evenly all around. In part II , the pipe workpiece c was only heated on the left side of the mandrel reinforcement α , that is to say on one side; This unilateral heating of the pipe part II is shown by the arrows and points indicated here. As a result of this one-sided heating and softening of the building material, the advance of the pipe workpiece is delayed here, so that a curvature has arisen towards the heating point. In the case of part III , the pipe workpiece had heated up on the right side of the mandrel reinforcement, as indicated by the arrows and dots present in part III. The opposite curvature of part III has therefore arisen towards the heating point. In order to connect a straight extension to the curved part III , the pipe workpiece is again heated evenly all around, as in part J, and the latter is cut off after the required length of the straight extension has been achieved.

If successive curvatures are to lie in different planes, this will be Pipe workpiece heated only on the relevant side.

Claims (1)

Patent claim: Process for the production of pipe bends, pipe bends, pipe coils and the like., characterized in that when using a mandrel with reinforced all around End the pipe work piece driven over the mandrel where the mandrel reinforcement is is located, is heated on one side. For this purpose ι sheet of drawings.