DE1045957B - Angle press head for sheathing cables with lead or aluminum - Google Patents

Description

The invention relates to an angle press head for sheathing cables with Lead or aluminum, in which the pressed material is undivided into a surrounding the rear part of the mandrel holder Entrance deflection chamber and from this through an annular channel of large cross-section and a throttle ring channel enters the extrusion zone formed by a base ring and the mandrel tip.

The undivided entry of the material to be pressed is to be understood as meaning that the material to be pressed passes through the entry opening immediately, in the case of two compressed material supply ducts as a result of their connection through a slot, reaches the circumference of the mandrel holder, so that on the side of the annular channels adjacent to the transducer no seam formation occurs.

The invention is based on the object of reducing the pressure around the mandrel holder and the mandrel compensate so that either a base ring can be used, the inner surface of which is concentric with the mandrel tip surrounds, or that at least a small supply of different base rings with eccentric Sufficient inner surface to achieve cable sheaths with the greatest possible wall thickness accuracy.

It has been proposed to solve the problem in such a way that the pressure differences already As far as possible in an additional zone upstream of the throttle ring channel through different strong throttling can be reduced. For this purpose, the deflection chamber was designed according to known proposals or the adjoining ring zone around the mandrel holder and with it in the axial direction or saddles protruding to different depths in the radial direction in the deflection chamber or in the annular zone Mistake.

The additional throttling leads to the fact that the Preßgutdurchfluß along the mandrel holder in the the area lying on the transducer side is more inhibited than on the area facing away from the transducer Page. As a result of the additional throttling, there is necessarily an increase in the baling pressure, which is particularly important when extruding aluminum. In addition, the in saddles of the additional throttle device protruding into the deflection chamber in the event of operating errors Get damaged.

The invention is based on the idea that the pressure compensation is essentially not by an additional one Throttle effect, but through a pressure equalization chamber designed in this way with a large cross-section to achieve that an unimpeded, essentially tangential flow of the pressed material in Direction of the pressure gradient towards the side of the mandrel holder facing away from the transducer is possible. After the material to be pressed has passed through the angle press head for wrapping of cables with lead or aluminum

Applicant:

Dipl.-Ing. Paul Wieghardt,
Magdeburg, Louis-Braille-Str. 11

Dipl.-Ing. Paul Wieghardt, Magdeburg,
has been named as the inventor

Pressure equalization chamber still existing pressure differences are determined by different degrees of throttling balanced in the throttle ring channel adjoining the pressure compensation chamber.

It is already known for an angle press head for standing lead cable presses, between the deflection chamber and a throttle ring channel surrounding the mandrel, an annular channel with a large cross section to be provided. The invention consists in that the upstream of the throttle ring channel Ring channel by widening the channel cross-section on the side facing away from the transducer is designed as a pressure equalization chamber.

The throttle ring channel is here, as in all newer embodiments, in the area of the mandrel holder, so that the channel cross-section - depending on; the structural design of the Dornhaiterung - held independently of the setting of the cathedral or can be set.

In the drawing, a split angle press head is shown to illustrate the invention, namely shows

Fig. 1 a vertical longitudinal section,

Fig. 1 a part of the press head in a different design in the same sectional view,

Fig. 2 in the left half a section along the line HrII; and in the right half a section along the line II _r -II _r in Fig. 1,

Fig. 3 is a top view of the lower press head half with the mandrel holder removed and

Fig. 4 is a top view corresponding to Fig. 3 with the mandrel holder inserted.

The press head consists of a lower half 1 and an upper half 2, which in a known manner are connected to each other by screws. Two of the line of the pressed material in the antechamber of the Press head serving channels 3 and 4 stand through

809 698/177

a slot 5 in communication with each other. The material to be pressed is therefore pressed undivided into spaces 6, 7 of the antechamber, which are located on both sides of the mandrel holder 8. This rests with its part protruding into the chamber on a rib 9 a, which is located on a cylindrical body 9 inserted into a recess in the lower half 1.

An annular channel connects to the antechamber, which is limited by the cylindrical peripheral surface 8 a of the central part of the mandrel holder 8 and the surfaces facing it la and 2 a of the press head half th and serves as a pressure equalization channel. The generatrices of the surfaces la and 2a extend either in parallel or partially in parallel and partially inclined relative to the circumferential surface 8 a as shown in Fig. 2 indicated on the left. The angle of inclination of the surface lines of the surfaces 1 α and the distance between the surface lines of the surfaces 1 α and 2 α from the surface of the mandrel holder change along the circumference, namely the distance in the lower half of the press head is greater than in the upper half. But even in the upper half, the distance is still so great that an approximately tangential displacement of the pressed material in the direction of the pressure gradient is possible in the pressure equalization channel, so that only pressure equalization occurs, but no throttling.

The pressure equalization channel is followed by a throttle ring channel of smaller cross section, which lies between the peripheral surface 8 b of the front part of the mandrel holder 8 and the inner surface 10 a of a throttle ring 10. The cross-section of the throttle ring channel is of different sizes, namely the difference between the smallest and largest cross-section and thus the difference in throttling, the smaller the greater the pressure differences are already balanced in the pressure equalization channel. The throttle ring 10 is arranged in a recess in the press head. When the press head is tested for the first time, it is therefore possible, if necessary, to remove the throttle ring and install a more expediently designed throttle ring. If, for example, it turns out during the initial test that there are still pressure differences to be compensated, and if the surfaces 1 a run according to the dash-dotted line in Fig. 2, a relatively large difference in the passage cross-section of the throttle ring can be ensured, so that this greatly expanded towards the bottom. Instead, the surfaces la can be reworked in order to increase their distance from the surrounding surface 8 α of the mandrel holder.

As illustrated in FIGS. 3 and 4, the throttle ring 10 is held by a threaded bushing 16. Between the front conical part 11a of the dome 11 and a base ring encompassing this part 12 is the extrusion chamber.

Adjustment of the wall thickness of the cable jacket between the tip of the mandrel and the die

ίο 13 emerges, is carried out in a manner known per se axial displacement of the mandrel holder with the mandrel. The die is stored in the die holder 14, in a manner known per se by means of radial displacement relative to the tip of the mandrel of the adjusting wedges 15 can be set so that a cable jacket of satisfactory wall thickness accuracy arises.

While in the embodiment according to Fig. 1, the front part of the mandrel holder is cylindrical, has

ao this part in the embodiment according to Fig. 1 a has a spherical shape. In a manner known per se for the purpose of adjusting the wall thickness of the cable jacket in the first case the mandrel holder with the The mandrel and in the second case only the mandrel is axially displaced.

Claims (1)

Claim: Angle press head for sheathing cables with lead or aluminum, where the Pressing material enters undivided into a deflection chamber surrounding the rear part of the mandrel holder and from this through an annular channel of large cross-section and a throttle ring channel into the passes through a base ring and the mandrel tip formed extrusion chamber, characterized in that that the ring channel upstream of the throttle ring channel by widening the channel cross-section on the one facing away from the transducer Side is designed as a pressure equalization chamber. Considered publications:
German Patent Nos. 524 480, 548 731, 618 425, 618 446, 633 767, 673 678; "Excerpts from German patent applications", Vol. 20, issue date U. 7.1949, class 7b, pp. 104, 105, 106, 107 and 110: K 167 479, K 167 703, K 169130, K 169 782, K 171 695. 1 sheet of drawings