DE612879C - Hydraulic press, preferably forging press - Google Patents

Description

Hydraulic press, preferably forging press The invention relates to a hydraulic press system, preferably a forging press, with a driving device with direct drive by an electric motor o. The like., Which in a known manner both the press water for the way to work and for the retraction of the ram supplies. The new system has the advantage that for both strokes of the ram only a driving device is required, but still the retraction path of the ram can be increased or decreased regardless of the size of the working stroke.

According to the invention this is achieved in that in the driving device additional retraction cylinders can be optionally switched on and off and a valve arrangement is provided by draining the press water from the retraction cylinders of the Press a lowering of the ram onto the workpiece without starting the driving device only with the help of the dead weight of the ram and the associated Piston permitted.

There are already hydraulic presses known in which the lowering the ram takes place by its own weight, but leave these facilities no change in the retraction path of the ram when using only one driving device to.

An example embodiment of the subject matter of the invention shows the drawing in a diagrammatic representation, namely the fig. i to q. the system and its control lever in different positions again.

For the sake of clarity, the pipes in which there are flowing Water is located, hatched in black and white. The rest of the pipelines that don't are specially marked, usually also contain water, but not in agitated condition. The arrows next to the pipelines show the direction the flow, while the arrows on or next to the moving machine parts indicate their direction of movement.

The device shown in the figures consists of four main parts, namely the press i, the driving device 2, 3, the control 21 and the filling container i i. The press has a main plunger that slides in the master cylinder 13 and two retracting plungers that move in the cylinders. The controller 21 has three valves, the valves 12, 22 and 9, which, as far as their linkage allows, can also work as check valves. The valve linkage can be adjusted using levers 5 and 25. A so-called dead gear is engaged in the linkage in that a slot block 3o is arranged on the connection control lever 24, into which the lever 9 'engages. The driving device consists of the cylinder block 3 and the support piece 2. On the latter, the main compression piston 16 is arranged on one side and the four retraction pistons ig and 2o on the other side. The cylinder block 3 is by means of the gear q. and a rack built into it moves back and forth, the water being displaced from the cylinder 15 or the cylinders 17 or 18, respectively. The filling container ii is intended to absorb or dispense excess water. There is also a check valve 28 which allows excess water to pass from the retraction cylinders zö into the filling container i i, - but is kept so tightly closed by a spring that when the press retracts, the water moving the retraction cylinders does not escape. According to Fig. I, the lever 25 is in position 26 and the lever 5 in position 7. In this position of the lever 5, the ram of the press i sinks through its own. Weight. When the lever 5 is brought from the right, ie from the position 6 into the position 7, it pushes the valve 9 open by means of the rod 8. The rod 8 acts on a rod 9 ′ of the linkage of the valve 9. The end of the rod g 'engages in a slotted block 3o which is connected via the rod 24 to the linkage of the valves 12 and z2. When the rod 9 'is pivoted around its pivot point g ″ by the rod 8, its end moves from right to left in the slot of the slot block 30. As a result, the slot block 30 can also move to the left and the valve 12 can open, until the slotted block 30 again strikes the end of the rod g '. As can be seen from Fig. i, the valves 12 and 22 are open in this position moved into the open position under the influence of the water pressure acting on its underside, taking along the rod 2 [and the slotted block 3o. As a result of the weight of the bar of the press i, the water is displaced from the cylinders io in the direction of the arrow a, passes through this and the valve 22 under the valve 12, which is raised by it, and from here into the cylinder 13. When the water exiting from the cylinders io n If it is not sufficient to fill the cylinder 13, further water can also enter the cylinder 13 from the filling container ii through the valve 12. The driving device does not move in this lever position.

According to FIG. 2, the lever 5 is in a position which lies between the positions 15 and 15. Between positions 7 and 15 are the contacts for the motor that drives the shaft q. drives. In the lever position shown, the shaft q. set in motion and the cylinder block 3 of the driving device moved in the direction of the arrow. By moving the lever 5 into the position shown, the rod 8 has opened the valve 9 even further, while the end of the rod g 'in the slot of the slot block 3o has moved approximately half the length of the same from right to left. In addition, the valve 12 has closed under the effect of the pressure on it. and moves the slot block 30 over the rod 2, 4 to the right so far that the left end of its slot has come to rest on the end of the rod g '. As a result of the movement of the cylinder block 3, water is pressed out of your cylinder i5 through the piston 16 into the working cylinder 13. The spar of the press i goes downwards and presses the forging 1q .. The water in the cylinders io must escape through the downward gear of the retraction cylinder and pass through the valve 9 into the cylinder 18 or directly into the cylinder 17. Missing water quantities for the cylinders 17 and 18 are taken from the filling container ii through the valve 22. The line 29 leads to auxiliary devices of the press. Water can return from it even with this lever position, so that a lowering of these cylinders is possible. Depending on whether the lever 5 is pressed more or less in the direction of the position 15, more or less current is supplied to the motor, so that the driving device can therefore be precisely regulated in its effect.

According to Fig. 3, the lever 5 is in position 6. This results in a limited retraction of the press. The Holni of the press i is only raised so far that a machined forging can be removed and a new forging can be inserted or the forging can be turned while it is being machined. If the bar of the press i is to be raised completely, it is necessary to move the lever 25 from position 26 to position 27, which will be discussed later in connection with Fig. Q. will be described. The pivoting of the lever 5 into the position 6 has the consequence that the rod 8 is withdrawn from the rod g 'and that the motor is switched backwards so that the gear q. rotates in the direction of the arrow. The cylinder block 3 therefore moves from left to right and pushes the water present there from the cylinders 17 directly into the retraction cylinder io, causing the valve 9 to close, which is possible because the end of the rod 9 'is in the Slot of the slot block 30 can move from left to right. The ram of the press i is raised. At the same time, water is displaced from the cylinder 13 and enters the expanding space of the cylinder 15. Also = in the cylinders 18 water is displaced. It moves the auxiliary devices connected to the pipeline 29 or passes through the valve 22 into the filling container i i. The valve 22 does not close because the slot block 3o cannot move to the left.

If according to Fig. Q. the lever 25 finally moves to position 27, while the lever 5 continues to hold the position 6, the valve 22 is on its Seat lowered while valves 9 and 12 open. So there is the possibility given to lift the ram of the press i completely, as both the cylinders 17 as well as the cylinders 18 send pressurized water into the retraction cylinders. The motor is still set to decline by means of the lever. The cylinder block 3 moves so in the direction of the arrow to the right. The water squeezed out of the cylinders 17 passes through the piston 2o and the pipeline directly into the retraction cylinder ok The water first flows from the cylinders 18 to the control device 21, but cannot pass through the closed valve 22 and consequently flows through the valve 9 in order to also get into the cylinder io from here. Of the The fluid path out of the cylinder 13 is the same as in Figure 3. Any excess liquid goes through the now open valve 12 to your container i i.

Claims (2)

PATENT CLAIMS: i. Hydraulic press, preferably forging press, with a driving device directly driven by an electric motor or similar, which, depending on their direction of movement, both the press water for the working stroke also supplies for the retraction of the ram, characterized in that the driving device (2, 3) has a plurality of return stroke cylinders (17, 18) which can be used for any Enlargement of the punch return stroke can optionally be switched on and off by a Control device (2i) with three valves (9, 12, 22), the first of which is through one control lever (5), the other two (12, 22) by a separate control lever (25) are adjustable by engaging a dead passage (slot block 30) in the connecting rod (2q.) of the control levers (5 and 25), and that the ram (i) with the propulsion device (2, 3) at a standstill by draining off the press water the retraction cylinders (io) through the three open valves (9, 12, 22) Dead weight can be lowered onto the workpiece. 2. Hydraulic press according to claim i, characterized in that the return stroke cylinder (17, 18) or a part of these are in drive connection with hydraulic auxiliary devices of the press.