DE2124417C3 - Die support in a hydrostatic extrusion press - Google Patents

Description

For this reason, blanks are expediently based and related means and warm

pressed. Presses have been developed in which F i g. 4 a possibility of die supports and

NEN to train the liquid pressure medium with the warm raw release agent so that this in the matrix

ling is held in zenstütze only after the pressure chamber has been closed.

Touch comes. 45 In the figures, 1 denotes a press frame. In In a press of this type (cf. Swiss this is a horizontal block pick-up 2 axial Patent specification 471 676), the preheated blank is arranged to be displaceable. The required actuation a likewise preheated, in the pressing direction from supply cylinders are not shown. At one end The die pushed out of the pick-up is inserted. An actuating cylinder 3 is located on the frame By means of a piston 4 in the form of a differential piston which can be axially displaced 5 ° in the receiver bore, with pressure on the back of the blank, with which a pressure stamp 5 is connected. pressable blank holder, the blank is between This protrudes into the transducer 2 and is generated see this and the die clamped and apply the pressure required for extrusion triert. Against the compressive force of the blank holder of a pressure chamber 6, which extends from the cylinder 2, From the die side, the blank including 55 face plates 7 and 8, the piston 5, and one in the ent holder and die into the end of the cylinder which is positioned opposite the receiving bore. The die itself is composed to accommodate the trize 9 and a die support 10, during the pressing process occurring pressure with a The plunger 5 is actuated by relatively large area on a die pressure medium from a pressure medium support, not shown on. In such an arrangement there is 60 source either a room 11 or a room the disadvantage that due to the contact surface between 12 between the cylinder 3 and the piston 4 to die and die support removes a lot of heat from the blank. The leads are labeled 13 and 14 the die is led away to the die support. net.

When the die and the blank tip cool down There is a blank holder in the pressure chamber

however, increases for a certain compression ratio 15 in the form of a freely loaded in the cylinder bore

nis the required pressure. That can do with accessible pistons. The blank holder 15 shares the

ren that the required Dnick at the beginning of the space 16 of the pressure chamber 6 in two separate

Extrusion process can not be achieved, spaces 16 α and 16 b. He is with a sealing ring

17 provided, which is heated against the bore of the receiving A

mers 2 seals. Furthermore, it has an overflow of a ^^ ""! ^ "" ^ "WlrdenT between the valve 18 with a valve cone 19 which rests against a gripping organs 39» "J" B ^ 7 £ k1 '_{& e} die valve seat 20 seals and is pressed against this by a spring 21, the end plate 8 of which is the ^D ™. ^Ck * f ^ " ₆ ™ i _{rd tension is regulated to the} right with the aid of an adjusting screw 22 5 support 10 © ^^ JS ^ of the pressure generation the delayed until he end face of the JJR β _b chamber 16 'and the valve 18 is a channel 23 stempeis 5, the is between the P ^ htungen ^ "> una between a space 24 on the Auslaufsejie in the end plate. 7 the Hardly valve and slots 25 on the circumference of the blank - now a pressure medium from emer m holder, channels 26 are arranged so that pressure medium is supplied to the pressure medium source whose """- * tel can reach the space 16 6. The one ter the opening pressure of the vennjs i · | The side of the blank holder facing the blank 27 has blank holder 15 shifts below the surface of a cone 28 through which the blank kung of the pressure medium is centered in space and to ^Ma J ^ze ζ f / ^ bolts or tie-rods against the ends of the cylinder .5 die support 10 nut emer W ^ ^ev ™ ^a ™ ders2 pressed. An α both ends of the pressure chamber pressure difference between the spaces 16 and are two seals with A certain distance 16 b is attached depending on each other. Seals 30 and 31 dich- The blank is through the ten between the pressure generating stamp 5 and the that the Hantieningsvorncntung end face? a high pressure seal. A channel 32 runs in the end plate 7 and the pressure generating station 32, which is displaced axially to the right between the seals 30 and and opens into the in r 1 fr zge-31. The channel 32 can be brought into position via a line. The strength of the Kingte valve and a valve (not shown) with one or more is chosen so that pressure medium sources are connected at the JtueUen Hairen. A * 5 tekraft between the die S »and the_itetn ^ seal 33 seals against the die support 10 and support 10 a gap is created. This creates a layer of air that isolates the cylinder 2nd between the heated die support 10 has an annular groove 34 and the cold die support, creating a (Fig. 3), and in this groove there is an annular spring ^ tn »wjbrend the link 35 in the form of a plate spring. The thickness of the gauge of the pressure chamber is prevented ^ if the terials of this spring is equal to or somewhat smaller than the pressure chamber is completely closed » ^s ^ in [ig. zge the depth of the groove 34, so that the spring is completely in the shows, the pressure of the pressure medium can be pressed into the groove when the die 9 is exposed to a space 16 "substantially above the opening pressure of the large axial force. The matrix valve 18 increases, so that pressure medium flows into the space then on the inner surface of the matrix support 35 16 b and the air ω this space aur em. The spring 35 must be compressed in some way into a small volume that this e air the Beder groove 34 in the die support 10 is held in the movement of the pressure generating ram. The outer edge of the groove can, for example, from the following increase in the pressure in the pressure chamber of a ring 37 with an L-shaped cross section, be exposed to extrusion pressure when the is pushed in (Fig. 4). One leg 38 of the ring is directed only insignificantly inwards into the space 16 α , so that it flows into an abutment. When the pressure increases, press ^ to ώβ measure for an annular extension 36 of the ring 35 bil- trize 9 acting force Spring element 35 in the det, that is, it prevents the ring 35 from falling out of the Mar-shaped groove 34. As a result, the die rests directly on the die support 10. on the die support.

1 sheet of drawings

Claims (2)

i.e., the pressing operation cannot thus be carried out. It is also used in mechanical hot pressing 1. Die support in a hydrostatic already known (see British patent specification Extrusion press for pressing warm raw 5,966,777). an insulating insert between the malingen, in which the die is axially guided and provided trizenhalier and the die to the with its back on a die support - heat loss lies over the die holder small zjihall, characterized in that the th. This known seal is in the multiple Die (9) against the pressure of a spring element- angled receiving opening of the die holder (38) can be pressed against the die support (15) in which the die is fully fitted. is. This seal requires an exact fit 2. Die support according to claim 1, the die. It also becomes the heat insulating characterized in that the spring element from the intermediate layer mechanically through the full pressing force an annular spring in the form of a Tellerfe- claimed. who sees (35). 15 The invention is based on the object of a Die support for a hydrostatic extrusion press to be developed for pressing warm blanks - none, in which the die cools during insertion of blank and die is kept as small as possible by the contact 30 with the die support The invention relates to a die support in and, during the pressing, to a fixed abutment of the a hydrostatic extrusion press for pressing the die against the die support is available. of warm blanks in which the die is axially. leads and proposed with its back on a matrix support of the type mentioned, support. 25 which is characterized in that the die is In hydrostatic extrusion, the raw material is subjected to the pressure of a spring element on the matrix ling pressed in a transducer, the cylindrical support of which can be pressed on. The spring force of the die element is trimmed to form the die and measure into the die from the other so that it keeps the die and die support from one end of the bore inserting a plunger separate from the other if the blank and die can be selected . This generates when inserting! during the closing of the pressure chamber by the takers, the high pressing force of the blank holder required for extrusion can be held.
Pressure in a pressure medium that surrounds the blank. An exemplary embodiment of the invention is described in greater detail with reference to the drawing, in order to make a hydrostatic extrusion press highly useful ratio of the blank face cross-section to the profile F i g. 1 schematically a press with a matrix cross section, Made as big as possible. The achievable zen support, The compression ratio depends, among other things, on F i g. 2 the pressure chamber on a larger scale, on the temperature at which the blank is pressed F i g. 3 the die, the die support and the will. It increases with increasing temperature. Made of 40 to keep the die and the die