DE2231371C2 - Device for the production of an elliptical, corrugated waveguide - Google Patents

Description

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

The main problem in the manufacture of such flexible waveguides is compliance Mechanical dimensions that are as uniform as possible. Only then can the reflection level be below a given one Maximum values are kept and pronounced, caused by equidistant changes in dimensions Only then can reflection peaks be avoided. DE-AS 12 97 722 is now a method and a Device has become known as it is covered in the preamble of the claim and with the help of it these requirements can also be met in most cases. Especially because of the good However, in the known case, the corrugation required for flexibility of the waveguide is often uncontrollable Influences that lead to a reaction of the elliptical cross-section producing wheels on the Lead wave device, whereby a compression or elongation of the corrugated waveguide sometimes can not be avoided. The uneven wave slope associated therewith, for example, results Dimensional changes that affect the controlled drive of the shaft device and the trigger of the waveguide can easily become systematic and thus lead to pronounced reflection peaks. Farther this also has an adverse effect on the welding process, which leads to a systematic change in the Weld quality and thus leads to additional reflections.

The invention has for its object to design the known device so that the electrical properties of elliptical, corrugated waveguides are improved, whereby it is ensured that the U the reflection level does not exceed a specified level and also avoids reflection peaks

who are.

According to the invention, this object is achieved by what is stated in the characterizing part of the patent claim.

An advantage of the invention is to be seen in the fact that by ι the controllable drive of at least one of the wheels systematic repercussions on the shaft device are avoided so that the reflections caused by this can no longer occur urü that the Weld comes in an area in which the

ίο deformation of curvature has a medium degree this brings about an improvement in the transmission quality of the waveguide, since the weld seam in areas lower field strength is shifted and fluctuations in the quality of the weld seam are only insignificant borrowed can affect. Besides these improved electrical properties results in the further advantage that the entire device with a higher speed can be operated, so the manufacturing process is more economical.

The method according to the invention is explained below with reference to figures, for example

In Fig. 1 is a schematic representation The device for carrying out the method according to the invention is shown and FIGS. 2 to 4 show on an enlarged scale, sections through FIG. I along the lines H-II or JII-III and IV-IV.

1 with a drum is referred to, on which a metal band 2, for example a copper band, is wound. This metal band 2 is by means of

jo forming rollers 3 formed into a tube with butt abutting edges which in the welding device 4 by means of a longitudinal seam 16 (Fig. 3 and 4) are welded together. The pipe produced in this way is by means of the extraction device 5, which

«Be designed as a collet puller, for example can, moved in the direction of arrow 6 and passed into the shaft device 7, where the tube with a Helical or annular corrugation provided wild. From the shaft device 7 then emerges a corrugated tube 8 with a circular cross-section. This pipe is then inserted into the Guide channel 9 out, which is located between the two wheels 10 and 11, the diameter should be very large compared to the diameter of the

■ »'> pipe 8. The ratio of the diameter of pipe 8 and wheels 10 and 11 should be about 1:40, which in the drawing is not shown accordingly for reasons of space.

As shown in FIG. 2 days

'■ o can be seen, a fillet-shaped circumferential surface and run off on the pipe 8. The two wheels iind arranged so that they are aligned with each other and When unrolling, the previously circular tube 8 deforms into the elliptical waveguide 12. To adapt to

«Different dimensions of the tube 8 is at least one of the two wheels in height adjustable arranged. The waveguide is then wound onto the drum 13, whereby it is still possible between the wheels 10 and II and the drum 13

w) to arrange an extruder for applying an outer protective sleeve.

According to the invention, at least one of the wheels 10 and 11 - in the illustrated case the wheel 11 - is driven by a motor 14 which can be regulated in terms of its speed driven. This drive can be made, for example, by means of a belt. The base speed of the Motor 14 and thus the wheel 11 is accordingly the withdrawal speed for the waveguide 12

is set and the control is then carried out by means of the tap 15, for example a dancer roll running on the pipe 8. The controlled variable supplied by the tap 15 is accordingly dependent on the withdrawal speed of the pipe 8, with the controlled variable being tapped only after the shaft device in order to eliminate influences of the manufacturing device, namely in an area where the pipe 8 is due to the distance A between the shaft device and the guide channel 9 and its own weight sags. This sagging of the tube 8 also has the advantage that the shaping device of the wheels 10 and 11 is mechanically decoupled from the shaft device within certain limits

The distance A between the "fixed" deformation point given by the wheels 10 and U and the shaft device is set according to the invention in such a way that the weld 16, which is initially overhead during manufacture, comes to lie as a result of the rotation of the tube 8 caused by the shaft device is in the ^: ellipse formed by the wheels in the area between the two axes of this ellipse. For electrical and mechanical reasons, it has been found to be the most favorable if the visual weld seam is in an area which includes an angle of 30 to 60 ° with respect to the minor axis of the ellipse. In this way, the weld seam is shifted from the area of maximum field strength to areas of lower field strength, so that fluctuations in the weld seam quality can only have an insignificant effect. The distance A is not a constant

ι »size, but must be for each type of waveguide to be manufactured are first determined, in particular the material used, the wave depth, the wave pitch and the diameter of the circular tube 8 are entered as parameters.

· The one with the method according to the invention manufactured waveguide has optimal? mechanical and electrical properties, as it is characterized by the corrugation on the one hand can bend well and on the other hand by manufacturing inaccuracies due to the drive of the wheels

3 »conditional reflections reduced to a minimum will.

1 sheet of drawings

Claims (1)

Claim: Device for the production of an elliptical, corrugated waveguide, in which a tube with a circular cross-section is formed from a longitudinally running metal band, the butt-abutting edges of which are welded together and then corrugated and then by means of two rotatably mounted, aligned wheels, the ones provided with a groove Roll circumferential surfaces on the tube, is elliptically shaped, characterized in that at least one of the wheels (10, U) is driven at a speed which can be regulated as a function of the withdrawal speed of the waveguide (12), the withdrawal speed serving as a control variable on the waveguide between the Shaft device (7) and the wheels (10, 11) is tapped, and that the distance (A) between the shaft device (7) and the wheels (10, 11) is selected so large that the weld (16) in the finished waveguide (12) as a result of the twisting of the hollow tube caused by the shaft device (7) ters comes to lie approximately in the middle of the area between the two axes of the ellipse, preferably between 30 and 60 °, measured from the small axis of the ellipse.