DE834395C - Device for deforming hollow bodies - Google Patents

Description

Device for deforming hollow bodies Devices and methods for deforming sheet metal are known in a wide variety of AttsfÜhrun ;; en. To the For example, you have simple metal sheets between the open end of a printing cylinder and clamped in a die and by means of hydraulic fluid located in front of the piston the corner is deformed. Other devices work without a piston. liei this will the hydraulic fluid by a pump against the more or less sliding clamped Pressed sheet and this according to the die located behind the sheet deformed. However, this often leads to the formation or destruction of wrinkles deforming sheet metal. Furthermore, methods have been proposed, two superimposed To deform metal sheets by -between these compressed hydraulic fluid, whereby then mostly an upper and lower glee; is available. The sheets to be deformed are then no longer completely flat, but already slightly pre-cambered, and the deepest With this method, points of the crowning are screwed to tubes, which guide themselves in the two dies in the appropriate places. Through the pipes will the fluid is pressed between the sheets to be deformed, and there between If there is also liquid in the sheets and dies, it will be in -sucked off to the same extent as DritA liquid between the sheets to be deformed is pressed. In the further development of this process, one then went over to the liquid that is between the metal sheets to be deformed and the upper or lower die is to hold under a certain counter pressure. While one but so far it has only been able to lay flat on top of one another by this method and if necessary to theirs Edges of welded sheets closed deform, the invention gives the opportunity to (learn the same procedure Hollow body to be deformed, through a special device. which according to the invention consists of sealing sleeves arranged at the ends of the hollow body, the ring flanges of which protrude into the end of the hollow body and create all the hollow body inner walls. It does not matter whether it is tim faßförniigc or conical hollow bodies or vases or urns. It is only necessary, the zti deforming sheet metal to a cylinder or truncated cone to prepare the appropriate diameter.

The cuff is elastic. If you press lins to about ioo atm it is possible to use only one of the Z_vlin, derinnetiraum i-mid of the die cavity 1 5 are discharged through appropriate venting and liquid state drains first druclelo: s filled with liquid (see Alb. i). By from a high basin The hydraulic fluid is generated via a pressure pump (not shown) through (read valve i6 with upstream Nfalionicter 17 from below into the die is pumped in and flows first into (lein cylinder i4 as well as through the with _ \ 1> sl> errvcntilen 18 provided leadership i9 in the Councilim 15 (see. Dep. 2). The air escapes which is located in the cylinder room approx., via line 20 with a pressure indicator 21 and shut-off valve 22. The air from space 15 outside the area to be deformed Cylinder 3 escapes via line 23 niit: \ llslterrventi'1 24. Furthermore, noai a line 2; with I) ruclzanzeiger 26 and a valve 27 provided.

The 1'reßvorgang proceeds as follows: After the die with the inserted. cylinder 3 to be verforinendeii is filled with pressure liquid: cit and the air from the chambers i-1 and i is closed via the lines 20 and 23, the Abspcrrvelltile 18, 22, 24 and 27 are closed. Pressure fluid continues to be pumped in at valve t6, while the pressure indicators 17 and 26 are observed and care is taken that the pressure on manometer 26 is always a few atmospheres lower than ani \ lanoineter 17. This counter pressure can easily be seen on the Regulate valve 27. 1) (Deforming with pressure up to 100 atmospheres is shown in the upper half of the drain. nieliellel-like and presses it against the end 30 of the die, at the same time the ring flange 13 with its outer surface 12 rests against the end 3 of the cylinder 3 and seals the two spaces 1 and 1.5 against one another As the deformation begins, the cylinder 3 is pulled away from the bottom of the rope in the direction of the arrows 32 as soon as the valve 27 is opened while maintaining the appropriate counter pressure.

The hollow cylinder 3 vcrforint in the direction of the arrows 28. 111 you 11e1111 eat rushing ring1ltlt 33 presses the outer surface 12 of the ring flange 13 to the cuff 6 and thus improves the seal between the bridges 14 and 15 Pressure gauges 17 and 26 time all that the pressing process is finished. After the space has been emptied, the die can be opened and the finished part removed 1> e1 inferior sheet quality, defect-free drawn parts, since in the hot cli.escni process the material has enough time. zti deform and compensate for the resulting tensions.

In the lower half of the _1111>. 2 an exemplary embodiment is shown, Weiiii sheets are to be deformed, which require higher pressure than 100 atmospheres. The Gesenl: hailn here to use the same guniinielastic cuff. In this case, according to the invention, this cuff is arched inwardly in an annular manner and the outer surface of the king flange is inclined towards the inner wall of the hollow body. Have to Sheet metal are deformed, sometimes requiring higher pressures than 100 atmospheres, so is the invention the sleeve is designed in such a way that it rests against the inner wall of the sleeve flange the mantle of a disc lays. tyelclie on the Ztileiturigsrolir for the pressure fluid sits.

The subject of the invention is shown in the drawing in two examples shown.

\ 1> 1>. 1 shows 1111 section a two-part PreßgcI., Vilk with the both cuffs for work his ioo atü, both the hollow body interior as well as the advice outside of it, not 11112 (2r pressure.

. \ 1> 1>. 2 shows the partially deformed one in section in the upper half Hollow body according to the device for pressures his ioo atii. In the lower Half of the .- \ b1). 2 the device for pressures above ioo atii is shown as well schematically the emergency fittings, lines for carrying out the pressing on the die and control devices.

The I'reß "esenk n consists of the parts and 2 after deni l; insetzen of 1 prepared according lohlzylinders be drawn together or -gedrückt.

Seals are provided between the upper and lower dies. At the two ends of the hollow cylinder 3 sit in the die halves i and 2, the rubber-elastic sleeves 6, which on their circumference 7 in a corresponding annular groove of the upper bztv. Are held lower die. The bottom of each cuff is screwed in the middle on a pipe socket 8 by means of washer 9 and ': nut 11o finite (learn the bottom of the die half. The interior of the hollow cylinder is also filled through the pipe socket 8. The bottom of the sleeve is at the point marked ii The outer surface 12 of the circular wall 13 of the '-cuff 6 is inclined inward, to be precise to the inner wall of the 1I (rlllcylitider 3rd form atiflveiseii as hot ('"in the previously described, also the arrangement (necessary Lines, pressure indicators u1) <1 shut-off valves can be the same since. However, the cuff is designed in such a way that the NTttiiscllettenllodeti rests flat on c1 <# 11) 13 model 35 of the lower die part 2. Even here the N.Ianschettenboden34 by means of disk 9 and \ lutter to with your lower die 2: chranl @ t. Against the surface 36 lies the licedc "eggie-disk37, the 1: onic -. \ lantern surface 38 against the inside of the 'Ianschettenringflansclles 39 applies. This annular flange lies down with his. @ UL @ etHÜchc 40 gegeit the inner wall of at verforilrendeii 1lohlzylinders 3. Since the two hollow cylinder ends, the same \ fauschetten seated while working with this apparatus a1) 34, of course, two disks 37 are necessary. In some cases, these two disks are doubled at points 43 with an I) istailzrolir .t2. I) <ts spacer tube is provided with bores 4,: + for the pressure fluid to enter the space 14. The: 11) position of the two disk bottoms 45 is chosen so that when the hollow cylinder 3 is inserted into the lower die part 2, the two cuffs 34 with i111 -en 1 ring flanges 39 already lie firmly in place when the two die halves are put together Cuffs 34 are in contact and the specially designed lateral surfaces 3.8 of the clip part 37 the Zing flanges 39 of the cuffs ge << ii the linwinvand 4o of the hollow cylinder 3 111-esse1l.

After these preparations, the actual bouncing process begins Egg-directed and proceed in the same way as the method with pressures Iris iooatü, the hollow cylinder is deformed as described above. There too move the ends of the hollow cylinder in the direction of arrows 46, the Ring flange 39 of the cuff 34 between: \ lailtelfläclle38 of the disk37 and the inner wall 4o of the wooden valve 3 pressed and heredi1rch also a good seal achieved between pressure chamber and counterpressure chamber 15.

Claims (3)

PATENT CLAIMS: Device for deforming both ends of open Hdhlkbodyei- by means of a pressure fluid introduced into the hollow body and an adjustable fluid Counter-pressure standing liquid located between the outer wall of the hollow body and the die, characterized by sealing sleeves arranged at the ends of the hollow body, whose ring flanges protrude into the end of the hollow body and when pressurized Apply to the inner wall of the hollow body. 2. Device for deforming both ends more open Hollow body according to claim r, characterized in that the bottom of the rubber-elastic 1-Ianschette is arched inwardly in a ring shape and the outer surface of the ring flange is inclined to the mine wall of the hollow body. 3. Device for deforming both ends open hollow body according to claim r, characterized in that against the inner wall of the 'cuff flange of the; jacket of a disc that attaches to the supply pipe for the hydraulic fluid.