DE3032440A1 - Press ram balancing device - uses pressure signals from seating of connecting rod in ram for controlling air cylinders - Google Patents

Abstract

The device used on a press has a connecting rod driven by a crank mechanism. The other end of the connecting rod (2) is seated in the upper surface of ram (1). The seating is formed by pressure areas (5,6) on connecting rod and ram and a play (S) is created between the two parts. On the pressure area (5) provided on the ram a channel system (8,9) is provided. Channel (9) terminates outside the ram and is connected by pipe (9) to pressure switch (11). The other connection of the pressure switch has an orifice (14) which monitors pressure variations in the system, which is kept under pressure by oil pump (13). The ram works together with a limit switch fitted to the upper tool assembly. The oil pressure variations transmitted from the connecting rod seating produce impulses by which the loading of air cylinders, which compensate the weight of the ram, are controlled.

Description

Mechanical press with slide weight compensation

The invention relates to a press with one of a crank mechanism via a connecting rod driven plunger, which is mechanically parallel to the piston is connected to the direction of movement of the plunger arranged Luitzylindern.

The air cylinders are pressurized with compressed air to the plunger and - if attached - to push the upper tool upwards. The air pressure will expediently chosen so that the force acting on the plunger from below, which results from the existing air pressure in the cylinders multiplied by the piston area results, is approximately equal to the weight of the ram (ram weight compensation). The force resulting from the compressed air can expediently exceed a small amount have shot to turn off the existing games in the joints of the drive.

Known presses of this type have between the compressed air supply and the air cylinders have an adjustable pressure control valve (pressure reducing valve). The outlet pressure of the pressure control valve must be reset manually with each tool change can be set, the weight of the upper tool by weighing beforehand must be determined. The outlet pressure of the pressure regulating valve speaks the curve PL = (GS + GW): AK, which can be read in a suitable form on the press, - where PL is the air pressure in the air cylinders GS is the weight of the plunger GW the weight of the respective upper tool -ÄK- the total effective piston area.

The adjustment of the air pressure in the known presses is extreme cumbersome and tedious and therefore unprofitable for the company.

In other known presses there is already a largely automatic one Adjustment of the air pressure -im. Pressure accumulator provided (see e.g. DE-AS 22 06 323) -.

With .these --- presses, the. upstream of the pressure accumulator Valve arrangement controlled by two sensors housed in the tappet, which in turn operated by a cam connected to the connecting rod. will. These.

However, due to their function, presses require the presence of a hydraulic overload protection.

The invention is based on the object of a mechanical press of the type mentioned at the outset, both of which the respective upper tool adjusted air pressure automatically, quickly and. can be reliably achieved, even if the press has no hydraulic overload protection.

This object is achieved according to the invention in that the pressure surfaces The connection formed between the tappet and the connecting rod is a non-zero Has play, and that the pressure surface of one of these press parts has a bore, which is connected to a line connected to an oil pump, this Line is provided with a pressure switch. When the generated by the air cylinder If the tappet weight compensation is too low, the tappet hangs on the connecting rod and it closes a gap in the connection between the tappet and the connecting rod that of the oil pump Funded oil can escape through this gap without significant resistance, whereby the pressure of the oil at this point drops. In the pressure switch, the oil pressure as an input to a signal for controlling the air supply to the air cylinders being transformed. When the air pressure present in the air cylinders for the slide counterbalance sufficient, the gap between the pressure surfaces of the tappet and the connecting rod to zero and the resulting oil pressure is used as an input signal by the pressure switch used to switch off the air supply to the cylinders.

In the design of a press according to claim 2, a draining can of air from the air cylinders when dismantling an upper tool in an advantageous manner initiated and stopped again.

An embodiment of the subject matter of the invention is in Drawing shown and is described in more detail below. 1 shows a press with the parts necessary for the subject matter of the invention in -schematic Representation Fig. 2 shows the connection between the connecting rod and the tappet in a longitudinal section Fig. 3 shows the arrangement of the switching elements Fig. 3a, the switching elements in different, in the Be-3b description explained in more detail switch positions.

The ram 1 of the press is via a connecting rod 2 with a crank or Eccentric shaft - 3 connected. The plunger 1 has at its connection point the connecting rod 2 has a pressure switch 4 with a concave pressure surface. 5 into which the Connecting rod 2 with; a correspondingly convex pressure surface 6 engages. To record of tensile forces between the tappet 1 and the connecting rod 2, a bolt 7 is provided.

The connection between the tappet 1 and the connecting rod 2 has a the production-technical dimension going beyond, from zero play on, so that a - albeit small - relative movement from the tappet to the connecting rod 2 in the pressure direction is possible. The pressure shell 4 and the plunger 1 have a common bore 8 which is connected to a line 10 via a further bore 9 in the plunger 1 is. -At. this line 1O or directly on the bore 9 of the plunger is a Pressure switch 11 connected. The line 10 and the bore 9 are also available Via a flexible line 12 with an oil pump 13 in connection. Just before the pressure switch 11 - seen from the oil pump 13 - a panel 14 is arranged, to avoid a pressure drop in the oil between the pressure areas 5 and 6 of the plunger 1 or the connecting rod 2 from the pressure switch 11 to be able to detect.

In each case between two guides 15 there are cantilever arms 16 on the side of the ram 1 attached, which are mechanically connected to the pistons 17 of air cylinders 18. The air cylinders 18 have a line connection 19 to a compressed air supply 20 - e.g. B. a factory compressed air network - on. In this line connection 19 a 3/3-way valve 21 is arranged, which is only indicated symbolically with the help of a Spring arrangement held in the locked or basic position b and with the help of magnetic coils 22a and 22c can be brought into switching positions a and c, respectively. In the in Fig. 1, the line connection 19 is interrupted. the Position a allows air to flow from the compressed air supply 20 into the air cylinder 18 and the position c blocks access to the compressed air supply 20 and gives for this the way from the air cylinders 18 to the open air is free. About the compression of the air is to be kept as small as possible in the air cylinders 18 during a ram stroke the line connection 19 is provided with a pressure accumulator 23. The line connection 19 also has a pressure switch 24 and a transducer 25.

On the eccentric shaft 3, a cam disk 26 is attached, which in At the top reversal point of the crank mechanism, a cam switch 27 is actuated. The cam switch 27 is intended to enable the air pressure PL to always be in the same reference state - at the greatest possible Volume in cylinder 18 - can be queried. There is a limit switch on plunger 1 28 arranged, the feeler pin .29 attached to an upper tool W. Stop or is operated by the upper tool itself.

Functional sequence 1. The press drive is at the top dead center.

No upper tool is attached to the ram 1-. Because of the missing The limit switch 28 of the upper tool is in the switching position shown in FIG. 3. The 3/3-way valve 21- is in position b, i.e. the air cylinders 18 are empty and the tappet 1 is hanging on the connecting rod due to the lack of weight compensation 2. With reference to FIG. 2, this means that the two pressure surfaces 5, 6 of the pressure shell 4 or. Des- connecting rod 2 form a gap s through which the oil pump 13 through the bore 8 pumped oil can flow off without appreciable resistance.

On pressure switch 1 1. is therefore. there is no significant pressure, so that the pressure switch 11 assumes the switching position shown in Fig. 3 and - always presupposed - that the cam switch 27 is closed, i.e. that it is the press drive is in the upper reversal point - the solenoid 22a of the 3/3-way valve 21 is excited. The valve 21 is thus switched to the switching position a, so that Air from the air supply 20 into the air cylinder 18e and in-the. Pressure accumulator 23-can flow in and the pressure: the air rises accordingly. With increasing Pressure is the plunger 1 from; below. supported. If the. L.uf; tdruck'bed-ingte Force of the piston 17 on the plunger 1 is greater. than the weight G5 of the ram 1, the gap between the pressure shell 4 and the connecting rod -2 is practically zero decreased so that. the oil pumped by the oil pump 13 as it flows out of the Gap experiences noticeable resistance and the oil pressure at pressure switch 11 increases, so that the pressure switch 11 assumes the switching position shown in Fig. 3a. The electrical connection to the winding 22a is interrupted so that the valve 21 initially returns to the blocking position b. In the air cylinders 18 there is now the pressure PO 'i.e.

the pressure that compensates for the weight GS of the ram 1 without a tool.

In the case of pressure switch 24, a small restoring force is initially set, so that the pressure pO in the pressure switch 24 is the switching position shown in Fig. 3a evokes.

Now there is a continuous electrical connection via the pressure switch 11, 24 and the limit switch 28 to the solenoid 22c of the valve 21 is made, so that the valve 21-is brought into the switching position c and some of the air out the air cylinders 18 can escape into the open via a silencer 31 as long as until the air pressure PL equals. of the ram weight can no longer apply and the gap s arising between the connecting rod 2 and the pressure shell 4 decreases of the oil pressure causes the pressure switch 11, whereby the valve 21 in turn the switching position a causes and new air flows in. The restoring force at the pressure switch 24 is now set gradually higher until the restoring force of the spring is greater than that of the air pressure p ,, and the pressure switch no longer the one shown in Fig. 3a Assumes switching position but remains in the switching position shown in FIG. 3. This interrupts the continuous electrical connection to the magnetic coil 22c, so that no more air from the air cylinders 18 through the line connection 19 got into the open.

This once set restoring force on the pressure switch 24 for the Weight G5 of the ram 1 without the upper tool is then no longer changed.

2. A first upper tool W1 will now be attached to the ram this installation, the limit switch 2B is transferred to the switching position shown in Fig. 3b. The existing air pressure pO is too low to support the weight of the 'ram 1 and the Balance upper tool W1 together (GS f Gw). The plunger 1 is now hanging again at the connecting rod 2, so that the gap s between the connecting rod 2 and the pressure shell 4 again arises and the valve 21 in the already described way in the position a is brought.

So it flows again air into the air cylinder 18 so that the air pressure PL increases above the pressure pO until the pressure Pl sufficient to balance the weight of the ram 1 and the upper tool W1 together. The gap s between the connecting rod 2 and the plunger 1 or the pressure shell 4 closes again.

The pressure switch 11 then goes in the manner already described: in the position shown in Fig. 3a over. The coil 22a of the valve 21 is thus de-energized, but there is also a continuous electrical connection to the coil 22c not, so that the valve -21 passes into the blocking position b and so on the upper tool W1-related air pressure p1 is set without manual intervention and is available.

3. When dismantling the first upper tool W1 - and generally every upper tool Wi - the limit switch 28 is again in the switching position shown in FIG. 3a brought. The remaining switches 11, 24 have the switch position shown in Fig. 3-a, so that the coil 22c is reactivated and the valve 21 the way from the air cylinders 18 releases into the open. The air flows out until the air pressure pn reaches the value pO has reached and the set restoring force of the pressure switch 24 the in Fig.

3 brings about switching position shown. But that is the current path interrupted for the coil 22c, so that the valve 21 falls back into position b and the air pressure pL is kept constant at approximately p0.

4. When adding a second - or generally - any - Upper tool W2 or W; those described when attaching the first tool are repeated Switching positions, but at the end of the air pressure P2 is reached, which is the weight of the ram and the second upper tool (GS + GW2) is able to compensate.

The resulting air pressure pL = Pi = Pl, P2 'is used to keep it constant of the pressure in the event of leakage losses is entered into the transducer 25 and stored there.

In the upper reversal point of the crank mechanism, the valve 21 can be used to maintain of the pressure in each case by a signal emitted by the transducer 25 for a short time be opened.

L e r s e i t e

Claims (1)

A-n s p r ü- c h e: 1. Press with one of a crank drive over a connecting rod. drivable plunger that mechanically moves with --the piston from - parallel to the Direction of movement of the plunger arranged air cylinders is connected, thereby characterized in that the connection formed by pressure surfaces (5, 6) between the tappet (11-. and the connecting rod (2) has a game other than zero, urid that the pressure surface of one of these press parts (1) has a bore (8) which is connected to a single oil pump (13) connected line (10), the Line (10) - for controlling the air supply to the air cylinders with a pressure switch (11) is provided; 2. Press according to claim 2, characterized in -that the ram (1) with a limit switch (28-) and which can be actuated by an upper tool (W, W1) the supply line (19) from the compressed air supply (20) to the air cylinders (18) a second adjustable pressure switch (24) is equipped.