DE1402788A1 - Extrusion press for pressing easily oxidizing metal blocks - Google Patents

Description

Düsseldorf, the l6. May 1969 Pat / 805 / Kia

- 1359 P 14 02 788.4

Extrusion press for pre-pressing of slightly oxidizing Metal blocks

The invention relates to an extruder for pressing slightly oxidizing metal blocks in one that adjoins the die to accommodate the pressed strand and is provided with protective gas filled protective tube in which the die holder is divided and each part can be withdrawn approximately perpendicular to the main axis, and in which the die together with the press residue, the press strand and the protective tube surrounding it can be lifted out of the extruder.

In such presses, it is important to use the pressed Keep the line free from the effects of the outside air for as long the temperature is still so high that there is a risk of oxidation. To solve this problem, the in the device shown in German patent specification 1 0I6 676 known, that the tube is hermetically sealed before being removed is, however, about the way of closing no further details are given. In this device, however, at least it cannot be prevented that in the period between the pushing back of the closure members until the closure of the pipe, it is open at the top, so that the air can penetrate unhindered and there is a risk that the compressed strand, at least in its upper area can oxidize to an undesirable extent.

The invention is therefore based on the object in the protective tube also when removing the protective tube from any

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MeUÖ Unteriagen (ArtZSlAbe ^ no,! SateldeeÄhderunaeeee. * 4,9.1967t

to protect against air ingress. This is done on an extruder of the type described at the outset achieved in that the protective tube is connected to the die in a gas-tight manner.

The advantages of the invention are that when lifting out the protective tube to maintain the protective gas atmosphere no additional More measures are required and the conversion time required for the replacement process is thereby considerably reduced will. Furthermore, the insertion of the protective tube is also unproblematic, since this is already connected to the die in a gas-tight manner outside of the extrusion press, while in the known device the protective tube is inserted into the counterholder in a separate operation, regardless of whether the die is installed and only then can be connected to this in a gastight manner.

In the drawing, the invention is explained using an example, namely show

Pig. 1 shows the view of the essential parts of an inventive Press, partly in section,

2 shows the central part of this press on a larger scale in an axial section,

3 shows a transducer together with a heating device on a larger scale of a somewhat differently designed press.

On the counter holder 1 of a press there is a two-part die holder 2a, 2b, the part 2a of which with the aid of a displacement device 3 to the left and its part 2b extended to the right with a similar displacement device (not shown) can be. The transducer 4 in a transducer holder 5 is axially displaceable in the usual way. The traveling beam 6 of the press can be raised by piston rods 8 and by means of a Piston, which is arranged in the press cylinder 9, downwards

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be pressed. The press cylinder 9 sits on the piston crosshead Io, which is connected to the counter holder 1 of the press by tie rods 11.

The space between the crosshead Io and the counter holder 1 of the press is closed off to the outside by a cylindrical jacket 12, for example, and closable with not shown Provide openings through which protective gas can be blown and through which a press block can be made using appropriate devices IJ can be brought into the position shown. The protective gas is under slight overpressure, so that when the block is introduced, no air penetrates into the protective space, only air small part of the protective gas can escape. From the drawn In position, the press block can be guided down through the press ram 14 into a heating device 15, which consists of a housing 16 and a heating coil 17 and rests on an insulating plate 7. There are vertical metal sheets inside the coil I7 18, for example silicon sheets, which are not connected to one another in the circumferential direction, that is, by inductive heating the coil 17 are not excessively heated. Through a line 19 can supply cooling water to the heating coil and through a pipe 2o can be derived.

The transducer 4 has in the usual way a transducer socket 21, with which the transducer is supported against the die 22, which in turn is held in the two-part die holder 2a and 2b is. The die 22 is centrally and gas-tightly connected to a double tube 23, through its hollow wall in the direction of the arrow 24 cooled protective gas can be driven, which can enter through openings 25 into the interior of the protective tube. if the two parts 2a and 2b of the die holder are moved apart to opposite sides, the die 22 can with the protective tube 23 are lowered down. The cooling of the pressed residue and the pressed product can then be carried out outside

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the press are ended while a new die with a new protective tube 24 is used for the next operation.

In particular from Fig. 3 it can be seen that the press block, the core 26 of which consists of fissile material, for example plutonium or uranium etc., and is surrounded, for example, by a zirconium sheath 27 is, sits in a e.g. copper or aluminum sleeve 28, the upper part 28a of which is solid and an annular extension or welded or soldered holding cams 28b carries with the the press block is supported on the edge of the housing 16. While the parts 26, 27 are fully pressed out, forms only the part 28a the press residue and finally fills the die 22, so that no easily oxidizable or combustible press residue remains in the die.

The way it works is something like this;

The press ram 14 is withdrawn so far that a press block I ^ brought into the position shown in FIGS can be. The space inside the housing 12 is not necessarily filled exclusively with protective gas. One then lets the block Γ5 fall into the position in the heating device 16, where it is supported with the upper edge 28b. Then the housing 12 is closed, so that the desired overpressure the protective gas builds up again by the inflow of further protective gas, whereupon the heating device 16 is put into operation. If the block is hot enough, it is pressed by the press die 14 pushed down into the pickup sleeve 21 and then pressed out. At the end of the pressing process there is only e.g. copper or aluminum of part 28a in the die, so that the Pressed strand, which is taken up by the double pipe 24, also after is protected against air contact at the top. The double tube 24 was already filled with protective gas and is being filled with protective gas before the start of the extrusion flushed with protective gas during pressing to cool. After pressing is complete, the die holder parts 2a, 2b are

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borrowed procedure and the protective tube 23 together with the die 22, the press residue and the extruded strand from the press removed. At the opposite end, not shown, a closable opening is provided, which is opened to Pass cooled protective gas through the protective tube 23 for the purpose of cooling to be able to until the press product has cooled down to a temperature that its contact with the air as seems harmless.

909842 / Q346

Claims (2)

- 1359 - Claims Extrusion press for pressing easily oxidizing metal blocks in a protective tube that is connected to the die and is filled with protective gas to accommodate the pressed strand, where the die holder is divided and each part can be moved out approximately perpendicular to the main axis, and in which the die together with the press residue, the press strand and the protective tube surrounding this can be lifted out of the extrusion press, characterized in that the protective tube is connected to the die in a gastight manner. 2. Extruder according to claim 1, characterized in that the protective tube designed as a double-walled tube open at the bottom and for flushing with preferably cooled protective gas is provided with holes at the top for the passage of the gas into the space between the pressed strand and the inside of the pipe. 909842 / 0-3 * 6 New documents IArtZIlAbs, 2NrJ SatzSdesÄnderuns ^ ea.v.4.9.19e7)