DE657540C - Crank press with a ram supported against several drive points by a liquid cushion - Google Patents

Description

The subject of the invention belongs to the class of crank presses, the ram of which has several Has drive points that apply their pressure to the Transfer ram. In these known presses, the liquid cushions are through a symmetrical pipeline network connected to each other, in its junction a Pressure relief valve is connected. The liquid cushions are in the idle state of the press dead; Tension is only created when working through the working resistance. The occurring here An increase in tension in the liquid of the cushion leads to an albeit smaller one Compression so that the slide movement is no longer completely rigid.

Attempts have also been made to reduce the rigidity of the slide movement in such presses to bring about that during the idle travel when the plunger descends by a pump driven by this Liquid is pressed into the cushion, creating a liquid tension which is slightly higher than the voltage caused by the work resistance. However, this has the disadvantage that the liquid is heated to a very high level as a result of the large amount of excess liquid which the pump during the movement of the plunger through the pressure relief valve must press. In addition, the tension of the cushion swings from zero to a maximum value and thus leads to very rapid wear of the seals.

Another disadvantage is as follows.

If the presses have very wide rams whose drive points z. B. several meters apart, there is a risk that an overload will occur on one side, for example if a tool remains under one side of the ram, onto which the ram hits while the other side of the plunger does not meet any resistance. Now kick this one-sided load causes the highest press pressure to be exceeded, so that the pressure relief valve comes into action, it must be on the side of the tappet on which the resistance occurs, the liquid cushion give way; on the opposite On the ram side that does not meet any resistance, the cushion does not yield. That has a tilting of the plunger to the extent of the overload path result. Is the cant of the plunger is greater than the dimension which the plunger guide itself allows, the plunger jams in the guides open under the overload pressure, d. H. the highest press pressure. The ram guides are

but unable to produce such a thing under the highest press pressure To record oblique printing.

The aim of the present invention is to eliminate these disadvantages. ■ - '

Their essence consists primarily in that the liquid cushion in the drive points of the plunger under a constant Tension can be maintained which is approximately equal to that due to the highest press pressure is the tension created in the fluid cushions. This can be B. can be done by installing a pump, whose drive takes place independently of the movement of the ram, so that the liquid cushion even during the rest time of the ram under constant tension are located.

; In addition, the invention aims to that when a one-sided overload occurs, the plunger is no longer under fj the overload pressure (the highest pressure! sendruck) can be tilted, but at most under such a pressure that the Able to accommodate guides without damage. For this purpose there is a pressure relief valve intended; which is automatically relieved of the clamping pressure at the moment an overload occurs. In the drawing, the subject matter of the invention is shown in two exemplary embodiments.

Fig. Ι shows a press ram in front view with crank drive in several points.

Fig. 2 shows a section through a drive point with a liquid cushion.

Fig. 3 shows a section through the pressure relief valve, while the

Fig. 4 to 7 another embodiment of a pressure relief valve in view and Illustrate cuts.

According to Fig. 1 to 3, the press ram ι through the double cranked crankshaft 2 by means of the two connecting rods 3 driven by two points. The pressure pans 4 of the two drive points are at rest on the piston S of the pad 6. On the press ram is a liquid pump 7 with a Reserve oil container 8 is arranged, which is driven by an electric motor 9. Of the The pump set can be chosen to be very small, since the pump only controls the amount of liquid has to deliver, which is necessary to maintain a constant fluid tension in the cushion 6 and replace the case drain. The pump comes with a Pressure adjustment valve, which is not shown, is equipped to adjust the delivery pressure of the pump to be able to regulate. The pump with the liquid cushions is through the pipeline 10 tied together. The liquid tension can be measured on the pressure gauge 11 can be read. If the pump is sensitive to pressure surges, so A check valve must be installed in the pipeline 10 installed so that a recoil on the pump is intercepted from the cushion will. The liquid cushions with the pressure relief valve are through the pipeline 12 13 connected.

The pressure relief valve is shown on a larger scale in Fig. 3. It consists of the cylinder 14 in which the piston 15 moves and controls the piston valve 16. The cylinder 14 is closed by the cover 17. There is an opening in the middle of the cover, which is closed by the cover χ 8. By means of the pipeline 19, compressed air with adjustable voltage is fed to the cylinder, which loads the piston 15 in the direction of the arrow and presses the piston valve 16 onto the seat of the valve sleeve 20. The valve sleeve 20 has various bores 21 at a distance L from the valve seat, which open into the annular channel 22, which in turn is connected by several channels 23 to the external air space 24 of the cylinder 14. The space 24 is connected to the reserve oil tank 8 of the pump through the pipeline 25.

The operation of the device is now as follows.

The pump 7 continuously conveys pressure fluid into the cushion 6 with a voltage that is slightly lower than the fluid tension generated by the highest press pressure. The pump usually only has to maintain the fluid tension and replace the leakage fluid. The pressure relief valve 13 is set to a pressure which corresponds to the highest press pressure or to a voltage that is slightly higher, so that the valve only responds when the highest press pressure is exceeded. When working, the liquid cushions will be completely unyielding as long as the voltage corresponding to the work resistance does not exceed the voltage set by means of the pressure relief valve. It does not matter whether the working resistance occurs uniformly or asymmetrically. The parallelism of the ram edge to the table edge is preserved. If an overload occurs, under the most unfavorable conditions, in that the resistance W occurs, for example, only on the right-hand side of the tappet (Fig. 1), it is required that the tappet does not suffer excessive tilting. As soon as the working resistance is greater than the highest press pressure, the closing pressure of the piston valve 16 is overcome, and the same

moves to the right, the compressed air being pushed back into line 19 by piston 15. When the piston valve is pushed back by the dimension L , the openings 21 are released and the liquid can flow out through the annular channel and the channels 23 into the outer air space 24 of the cylinder 14. The right cushion of liquid gives way and the liquid is displaced by the advancing piston S. The liquid will not escape from the left liquid cushion, since the plunger will not find any resistance on this side, and it will be inclined by the amount by which the right liquid piston 5 moves downwards.

Since the ram could tilt under the highest press pressure the press can easily break. In order to prevent this, the moment in which the piston valve 16 begins to release the openings 21, the tip 26 the thin Pierce the wall of the cover 18 so that the compressed air can escape instantaneously and the piston 15 is relieved. To prevent the compressed air from flowing out of the supply line 19, the line is closed by the resilient bolt 27.

Simultaneously with the relief of the piston 15, the two liquid cushions are also removed relieved, and the pistons 5 can displace the liquid from the cushions without significant resistance. The cant the ram by the unilateral work resistance was now under very little pressure, which the guides are able to absorb without damage. The shattering of the lid 18 shows the operators that an overload has occurred, and the press will only operational again when a new cover is put on.

In Fig. 4 to 7 a further embodiment of the pressure relief valve is shown. Instead of the breaker cover 18, two valves 28 are arranged (FIGS. 5 and 6). These valves are under the tension of the springs 29, which are supported on the one hand against the valves 28 and on the other hand against the parts 30. The part 30 is in turn supported against two pawls 31 (Fig. 7, section AA). Two pawls of the two valves are connected to one another by the shafts 32 (Fig. 4). The roller levers 33 sit on the shafts 32, the rollers of which run on the flattened piston rod 34 (Fig. 6) of the piston 15. When the piston 15 moves to the left under the overload pressure, the rollers of the roller levers run onto the bevels 35 of the piston rod and thereby move the latches 31 outward. This releases the parts 30, the springs 29 relax, and the valves no longer offer any resistance, so that the compressed air can flow out of the cylinder via the valves.

In addition, an electrical contact 36 (Fig. 6) can be arranged on which the piston rod 34 hits at the end of the movement and thereby the drive motor the press switches off. Once the cause of the overload has been eliminated and the valves 28 are energized again, so the piston 15 is moved again to the left duixh the compressed air, whereby the Valve closes. At the same time, the air that has flowed out into the external air space 24 is discharged through the piston 15 Liquid pressed back through the pipeline into the reserve oil tank of the pump. The pump fills the liquid cushions and puts them back under tension; with that the press is all over again ready for use.

Claims (10)

Patent claims: 1. Crank press with one against several drive points through liquid cushion supported plunger, whereby the liquid cushions are connected by a symmetrical pipeline network, a pressure relief valve is connected to the junction, characterized in that that the liquid cushion is kept under constant liquid tension which are approximately equal to that caused by the highest press pressure in the liquid cushions Tension is. 2. Crank press according to claim 1, characterized in that the constant Voltage is generated by a pump that can be regulated independently of the tappet drive according to the delivery rate and pressure. 3. crank press according to claim 1 and 2, characterized in that the the voltage of the liquid cushion generating pump and its drive motor no is built into the tappet. 4. Crank press according to claim 1, characterized in that the liquid cushion with a pressure relief valve (13) are connected, which at the moment of the occurrence of an overload is automatically relieved of the clamping pressure. 5. crank press according to claim 1 and 4, characterized in that the Pressure relief valve (13) from a cylinder (14), the piston of which is loaded with compressed air in a controllable manner on one side and acts on a piston valve (16) which when an overload occurs after having covered a certain distance Outflow openings (21) for the liquid of the pressure pad releases, at the same time a safeguard closing off the pressure chamber of the pressure relief valve (13) is canceled and thereby the pressure chamber of the pressure relief valve (13) is relieved. 6. crank press according to claim 1, 4 and 5, characterized in that at the same time When the safety of the pressure chamber of the overload valve is canceled, the supply line (19) of the compressed air is shut off will. 7. crank press according to claim 1 and 4 to 6, characterized in that the Fuse to relieve the pressure chamber of the pressure relief valve (13) a cover hole closing relief plate (18), which through one on the piston rod (15) of the pressure relief valve (13) seated tip (26) is pierced. 8. crank press according to claim ι and 4 to 7, characterized in that the Relief of the pressure piston (15) of the pressure relief valve by automatically triggered Valves (28, 30J. 9. crank press according to claim 1 and 4 to 8, characterized in that at When the press drive motor is overloaded, it automatically comes to a standstill is brought. 10. crank press according to claim ι and 4 to 9, characterized in that when overloaded from the liquid cushions escaped liquid when returning the pressure piston (15) of the Pressure relief valve (13) in the operating position through this to the reserve fluid container (8) is returned. 1 sheet of drawings