DE659904C - Forging press with pressurized fluid propellant driven by an electric motor - Google Patents

Description

Forging press with hydraulic fluid propellant driven by an electric motor The invention relates to a forging press of the type in which the Prerdruck from a hydraulic fluid propellant driven by an electric motor a fluid linkage is transferred to the plunger and in the case of the @ 'e Definition of the stroke end positions of the plunger (read the fluid linkage through Ztigabe can be lengthened by water and shortened by abbeing water.

The invention continues with a press with working and retraction pistons from, in which the retraction cylinder is constantly in retraction, # iiine under liquid pressure stand.

According to a known proposal for the execution of a hammer-like effect Press, in which between (a working stamp and the driving device moving it a fluid linkage variable in its length is switched on, which is used to shift the working stroke, it is used to extend the fluid rod used liquid through a pump into the line leading to the working piston fed in. These are equipped with counterweights for the retraction of the working piston However, the press does not meet the requirements in practice, because the one stroke Amount of liquid conveyed by the feed pump, which is used to lengthen the liquid rod is not sufficient if larger stroke displacements are suddenly necessary. In contrast, the invention makes use of the displacement of the liquid guide rod a pressurized water tank, the dimensioning of which is not bound by any limits and which is therefore always able to get the water necessary for each stroke extension to deliver within a short time.

I It is now a hydraulic press with a steam-powered propellant became known, in which the retraction of the working piston by pressurized water the extension of the fluid rod from a weighted pressurized water collector.

But even this well-known design cannot suffice in practice, since the collector is fed by the same propellant that, also the Press operated. There is a risk here that the forging process will be interrupted must when the propellant has to fill the empty collector. This press is also therefore not always the requirements that are placed on presses of this type grown.

This is how the invention counteracts this. (iaß the drive for the driving apparatus at the same time to operate an independent pump for feeding from the front of the propellant of the pressurized water tank is used. The two representing the invention Peculiarities compared to the known facilities still apply because of the coming continuously working Treil) -apparat drive, how he was known from the type mentioned in the first place above, the advantage that with the driving apparatus running through, i.e. with continued up and down. =. Movement of the Tool, the desired stroke displacements of the same can be carried out.

A shift in the stroke is also possible with that known press which transfers the movement of a piston to the Working piston is transferred, in such a way that this liquid buffer enlarged or reduced during operation under the effect of compressed air or the like will.

Finally there is a press with two independently working Propellants. got it, with the interaction of the two propulsion apparatuses Stroke extensions and stroke changes of the working piston are possible.

One possible embodiment of the invention is shown in the drawing.

With i the Preßzvlinder and with 2 the associated working piston is designated. This carries the pressing tool 3 and also the retraction piston 4, the cylinder of which is denoted by 5, in a known manner. The anvil belonging to the press is denoted by 6 and a 4A 'piece in the ready position is denoted by 7. A safety valve 8 is connected to the working cylinder i in a known manner. With the cylinder i is through the line 9 of the cylinder. io connected to a pump driven by the crankshaft ii, the piston of which is denoted by 12. The crankshaft ii is driven by the engine 14 via the preliminary gears 13. The crankshaft 11 works not only on the piston 12 of the cylinder 10 but also on a piston 15 of the cylinder 16, which is connected to the valve block 22 through the line 17. The line 17 is connected via a check valve i9 to a line 18 which opens into the pressurized water line 4.1 of a pressurized water reservoir 2o. In addition to the line 18, the line 17 is connected via an automatically controlled valve 21 to a line 23 which opens into the elevated water tank 24. The line 25 branches off from the line 18 and opens into the cylinder 26 of a piston 27. This piston 27 is connected to the valve 21 through the plunger 28 and is held in the retracted position under the action of a spring 29.

A line 30 opens into the line 9, which in turn connects to a valve block 31 is connected. There is a check valve in this valve block 32, a throttle valve 33 and two manually controlled valves 34 and 34 35.By means of a hand lever 36, the latter are switched to closing or open position moved. From the pressure line coming from the pressurized water tank 2o 41 branches off a line 37 which also opens into the valve block 31. One third line 38 going out from valve block 31 leads to the elevated water tank 24.

It can be seen that when the valve 33 is closed, the reciprocating stroke of the piston 2 brought about during the operation of the driving apparatus 1o, 12 remains the same and changes its height. If valve 33 is opened, as is valve 34, when valve 35 is closed, pressurized water flows from pressurized water tank 2o through lines 41 and 37, via check valve 32, through line 30 into pressurized water line 9, see above that the piston: 2 and thus the pressing tool 3 is lowered onto the workpiece 7. This process takes place against the constant pressure on the retraction pistons which are held under the pressure of the pressure vessel 2o by the line 4_1 7, when the engine 1.4 is started, there is a working stroke of the piston 2, the depth of which can be regulated with the aid of the throttle valve 33 in conjunction with the valves 34 and 35. If the valve 33 and also the valve 34 are closed, then this corresponds to Pressing stroke according to the effective pressure surfaces of the pistons 12 and -2 is the stroke of the former can this be done with the pump io, 12 switched off, that when the throttle valve 33 is open, the valve 3a. closed and the valve 35 is open. In this state, the pressure in Gien cylinders 5 lifts the excess water back through line 38 into the elevated tank 24.

The check valve 32 prevents an overflow of pressurized water. from line 9 into line 37 when the pressure in the pressurized water tank is lower is than the pressure in the line 9 or in the cylinder i.

The pressure in the container 2o is kept at the desired level by the pump 15, 16 in cooperation with the device 21, 26, 29. If the pressure exceeds the set maximum pressure due to the operation of the pump 15, 16, the piston: a7 is raised against the spring 29 by the pressurized water from the line 25 into the cylinder J6, so that the pump i5, i6 over the open valve 21 empty on the elevated water tank 24 works. It can be seen that the lowering of the working piston 2 can also be carried out when the pump is working by adding press water through the line 30 when the pressure in the pressurized water tank exceeds the pressure in the line 9.

Claims (1)

PArEXTANsrrrczi: forging press with an electric motor driven Hydraulic fluid propulsion apparatus, in which the fluid linkage between propulsion apparatus and the length of the plunger is variable i and the retraction piston constantly kept under liquid pressure "-erden., characterized in that the Pressurized water for the retraction piston (5) is taken from a pressurized water tank (2o) is, which at the same time via controlled valves (32, 33, 34) pressurized water for extension of the fluid rod between the propellant (ro) and plunger (a) delivers. and that the drive for the propellant also for feeding the pressurized water tank by a pump (i5, i (-.) which is independent of the driving apparatus.