EP0270762B1 - Presse supportée élastiquement dans la direction verticale avec son bâti - Google Patents

Presse supportée élastiquement dans la direction verticale avec son bâti Download PDF

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Publication number
EP0270762B1
EP0270762B1 EP87114479A EP87114479A EP0270762B1 EP 0270762 B1 EP0270762 B1 EP 0270762B1 EP 87114479 A EP87114479 A EP 87114479A EP 87114479 A EP87114479 A EP 87114479A EP 0270762 B1 EP0270762 B1 EP 0270762B1
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EP
European Patent Office
Prior art keywords
press
tool
gripper
press according
handling device
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
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EP87114479A
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German (de)
English (en)
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EP0270762A1 (fr
Inventor
Helmut Messner
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Bruderer AG
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Bruderer AG
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B30PRESSES
    • B30BPRESSES IN GENERAL
    • B30B15/00Details of, or accessories for, presses; Auxiliary measures in connection with pressing
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21DWORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21D37/00Tools as parts of machines covered by this subclass
    • B21D37/14Particular arrangements for handling and holding in place complete dies
    • B21D37/145Die storage magazines
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B30PRESSES
    • B30BPRESSES IN GENERAL
    • B30B15/00Details of, or accessories for, presses; Auxiliary measures in connection with pressing
    • B30B15/0076Noise or vibration isolation means
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B30PRESSES
    • B30BPRESSES IN GENERAL
    • B30B15/00Details of, or accessories for, presses; Auxiliary measures in connection with pressing
    • B30B15/02Dies; Inserts therefor; Mounting thereof; Moulds
    • B30B15/028Loading or unloading of dies, platens or press rams

Definitions

  • the invention relates to a press according to the preamble of claim 1.
  • Such presses are often designed as high-speed punch presses or as high-frequency presses with several hundred to over two thousand punching processes per minute. Of course, other presses could also be mounted to avoid vibrations. Such presses represent the highest level of performance today, with operation being largely automated.
  • this storage which is very damping for the operation, has disadvantages for this purpose, namely that its height can vary depending on the weight load of the machine.
  • rigid programming of their various positions is no longer sufficient.
  • robots as handling devices that can control the position to be controlled with the help of sensors, but these are not only relatively expensive, but also more prone to repairs. Of course, such problems also occur with conventional conveyor systems, but are easier to bridge.
  • DE-OS-2740042 describes a tool changing device for a machine, on which the individual machining steps are carried out with tool inserts which are independent of one another and also fastened independently of one another. The replacement of the individual tool inserts must therefore be carried out separately one after the other, in each case the die and the punch in a separate process.
  • a height adjustment or locking of the tool changing device is necessary in the mentioned DE-OS in the course of the movement during a tool changing process as one of the necessary steps. Adjustment of different spring-loaded positions of the press could again only be accomplished with the help of sensors or the like.
  • the invention is based on the object of designing a press of the type mentioned in the preamble of claim 1 in such a way that, on the one hand, optimum storage for operation is ensured, and on the other hand the introduction or removal of parts is facilitated.
  • a handling device especially for handling the punching tools with a weight of several hundred kilos, should be simplified to such an extent that an uncomplicated and therefore inexpensive, but nevertheless reliable manipulation device can be used.
  • the elastically supported substructure does not necessarily have to be the frame for the entire press, but rather parts connected to it can also be elastically supported, in particular with regard to damping the punching strokes.
  • a high-frequency punch press 1 is shown, to which the invention is preferably applied, because the high production speed in such presses means that a tool change is required more quickly and is therefore a problem in this regard.
  • Training as a high-frequency stamping Press is recognizable by the fact that counterweights 2 are connected to an eccentric drive 3, which incidentally also drives a feed drive 4 for the punched sheet 6 wound on a strip roll or coil 5, as is indicated by dash-dotted lines.
  • the counterweights 2 are arranged as shown, as has already been described in US Pat. No. 4,156,387, but it is understood that any other arrangement can be used for this.
  • the punch press 1 rests on a substructure 7, on which a holding device 8 for a stationary punching tool 9 is mounted.
  • the eccentric drive 3 moves a movable holding device 11 up and down in the vertical direction via plunger 10, to which a movable counter tool 12 is fastened. It goes without saying that it is only a matter of the relative movement of the two tools 9, 12, and that the upper one could be stationary and the lower one could be movable, as it would also be conceivable to make both movable.
  • the vertical arrangement is also preferred because the impacts emanating from the punch press 1 are diverted into the ground, but the invention is not restricted to this.
  • the base 7 is generally elastically supported.
  • support springs 14 are installed in the four legs 13 of the substructure 7 (only two are visible in FIG. 1). The function of this suspension for the purposes of the invention will be explained later.
  • the punch press 1 is expediently accommodated in a soundproof housing 15, which is accessible from the rear via a door 16 (FIG. 2) and can be entered at the front via an entrance 17.
  • the stamping plate 6 enters and exits via narrow openings 18, 19.
  • FIG. 2 also shows the motor M that drives the drives 3 and 4.
  • a tool magazine is accommodated in an auxiliary compartment 20 of the insulating housing 15, in which tools 9 and counter-tools 12 of the most varied types are placed one above the other on an orbital chain 21 (only indicated in FIG. 1) on axes 22 and pallets 24 suspended thereon via support levers 23.
  • a heating device (not shown) can be provided within the compartment 20 for the tool storage in order to keep the tools 9, 12 constantly at the working temperature, since the precision can be impaired by relatively small temperature differences during the punching process.
  • the compartment 20 is expediently closed and insulated on all sides, access from the outside being possible only through a sliding door 25, which can be moved, for example, by a cylinder unit 26.
  • a door 27 to be opened to the punch press 1 is provided with a cylinder assembly 28, which closes an opening 29.
  • a bearing body 30 for storing a handling device 31 is attached to the base 7 of the press 1.
  • the handling device 31 has a gripping arm 32 shown in FIG. 2, with which at least one tool 9 or 12 can be removed from the punching press as soon as it is released from its holding devices 8 or 11. For this it is necessary to explain some special features of such tools.
  • the movable holding device 11 is on the sides of four guide columns 33 fastened to it and moved with it, but moreover guide columns 34 are also provided on the tools 8, 12.
  • the respective tool 9 or 12 is held on its holding device 8 or 11 by means of a releasable fastening device, for example by means of rotatable clamping jaws 35, three of which are loosened in FIG. are shown rotated away from the tool 9, whereas the clamping jaw 35 'still grips over the tool 9 and holds it.
  • the handling device can grip both together with the columns 34 and must then (after loosening the clamping jaws 35) move them out of the narrow space between the sub-components 36 surrounding the guide columns 33.
  • the gripping arm would therefore have to be divided into two parts by a joint and, moreover, would still have to rotate around a further joint at its end facing the bearing body 30.
  • this sliding guide 30 can be a telescopic guide, but the bearing body 30 itself is preferably designed as a sliding guide.
  • the hand Habits réelle 31 this sliding guide 30 is slidable along, namely parallel to the plane of the holding device 9, 11 or perpendicular to the direction of movement of the movable tool 12 and its holding device 11. Because the bearing body 30 is seated on the base 7, its center of gravity is relatively low, if at the same time the punch is working with a vertical direction of movement. On the other hand, the storage on the substructure 7 makes it possible to keep the floor below the device 31 free of feet, so that an operator can get close enough to the press 1.
  • the handling device 31 is designed to be displaceable according to the representations of the other figures by means of a built-in motor or with the aid of a spindle running along the sliding guide 30 (in the manner of a lathe), its gripper arm 32 being connected by another one, also by means of the Fig. 3,4 explained drive in the manner shown in Fig. 2 is pivotable.
  • a common control unit e.g. with a microprocessor to be arranged in a control cabinet 37 (cf. FIG. 2), which controls the sliding movements of the handling device 31 and the pivoting movements of its gripper arm 32 in the manner described below with reference to FIG. 2.
  • the position of the handling device 31 that it occupies during the operation of the press 1 is shown in full lines in FIG. 2, while the handling device itself is at rest. It is important that the handling device is not switched on while the press 1 is in operation. It is therefore advisable to provide a corresponding safety device.
  • This can be designed, for example, in such a way that the handling device can only be switched on by actuating two switch buttons in order to prevent involuntary switch-on in a similar manner to that which occurs when switching recording heads in the case of magnetic devices.
  • Another possibility is to provide mechanical or electrical interlocking of the switches. This can be done most simply in the manner shown in FIG. 2, where a main switch S1 for the press motor M is connected via a single actuating element A to a standby switch for the program control 37 of the handling device 31 so that the one switch is switched on at the same time switching off the other switch means.
  • the handling device 31 can be put into operation, expediently via a further switch S3 in series with the switch S2. It can now be seen that the rest position of the handling device, shown in full lines, serves a dual purpose.
  • the load on the elastic mounting 14 (see FIG. 1) is also more uniform, which is important for effective damping because the handling device 31 and additional weight act on the two legs 13 facing it , so that it can be expedient to make the springs 14 stronger there than on the side facing the entrance 17.
  • the rest position shown ensures that the handling device can start to work immediately when it is switched on, without first having to be guided to the tool 9 or 12.
  • such a coordinated movement of the sliding and pivoting drive begins that the gripper 38 provided at the end of the gripper arm 32 within a path extending approximately along a straight line L (with the slight deviations shown in FIG. 2 ) emotional.
  • the pivot axis 39 of the gripper arm 32 moves along the sliding guide 30 into the position 39 ', while the gripper arm 32 pivots into the position 32', so that the tool 9 gripped by it on the line L is exactly in the middle between the sub-components 36 remains.
  • the pulling out or lifting of the tool 9 or 12 can be accomplished.
  • the tool 9 is in a tool removal position 9 ", while the handling device 31 has reached the position 31" along the sliding guide 30 and the gripper arm is in the position 32 ".
  • the arrangement of the tool storage in the compartment 20 is optimal insofar as the gripper arm 32 in the tool removal position 32 ′′ lies parallel to the sliding guide 30, so that the tool 9 can on the one hand just pass the base legs 36 for storage, on the other hand the tool does not protrude so far beyond the press frame that it obstructs operators or even requires an expansion of the soundproof housing 15.
  • the control required for this movement coordination is a program control of any type and otherwise known per se. If it is a step control, it is possible to find enough with a minimum of position transmitters, since each position depends on the number of steps from the end of the program .
  • the handling device in the wide If the course of the tool removal position 31 "is moved to the right (based on FIG. 2) along the sliding guide 30, it finally reaches a tool transfer position 31". Before that, however, it is necessary for the opening 29 to be opened, ie for the door 27 to be in the position shown in FIG. 1.
  • the control of the cylinder unit can be integrated into the step control, so that during handling the handling device 31 assumes a position in which the tool is just in front of the door 27 and at the same time the door 27 is opened.
  • a position transmitter for example with a light source 40 and a photo receiver 41, can be assigned to a control for the door 27 which is separate from the control 37, the moment at which the tool 9, the gripper arm 32 or the body of the handling device 31 is used Beam of light source 40 passes through, door 27 is opened.
  • the tool storage within the compartment 20 is now expediently designed in the manner of a lift control, so that the pallets 24 always assume predetermined positions and the tool thus safely reaches them (cf. the tool transfer position in FIG. 1). If particularly heavy tools with weights up to a ton are now to be moved, the suspension 14 can represent a decisive source of interference. On the other hand, it is important that the handling device itself is not subjected to very hard impacts, which is why the elastic mounting would also be expedient if it was not a high-frequency punch press, the elastic mounting being able to be provided between the base 7 and the bearing body 30. The problem thus arises of how, on the one hand, an elastic bearing can be provided and, on the other hand, its possible adverse effects can be avoided if such heavy tools actually have to be handled.
  • the solution may lie in the locking device shown in FIG. 1, which, if desired, prevents (elastic) movement of the substructure and thus of the bearing body 30 together with the handling device 31 in the manner of a scale lock and thus ensures that the gripper arm 32 always has a transfer position 32 '"in occupies the same height which corresponds to the position of a pallet 24.
  • the locking device can now be designed such that between the floor and the legs 13 of the base 7, which are held elastically by the springs 14, cylinder units 42 are provided, the pistons 43 of which assume the position shown in FIG. 1 during the operation of the press 1.
  • Such cylinder units 42 can only be provided on the side facing the handling device 31 on two legs 13 or on all legs of the substructure 7.
  • Each piston 43 has a piston rod 44 which, outside of the cylinder 42, has a support surface 46 directed against an extension 45 of the associated base leg 13, from which a guide bolt 47 expediently (but not necessarily) protrudes upward and passes through a guide opening in the extension 45. If the press 1 is now switched off by opening the switch S1 (FIG.
  • a solenoid valve MV can be excited by the control unit 37 immediately or only after the switch S3 has been switched on (which is preferred).
  • a line 49 is interrupted, which is intended to connect the cylinder assemblies 42 to a pressure medium source 50.
  • the solenoid valve (based on FIG. 1) is moved to the right, the connection to the pressure medium source 50 is released, whereupon the pistons 43 move upwards.
  • Her support surfaces 46 lie against the underside of the extensions 45 and thus directly support the legs 13, so that the springs 14 are relieved. As a result, the legs 13 are locked and can no longer carry out any elastic movement, the transfer position 32 ′′ of the gripper arm 32 being secured in its height.
  • this locking device 42 is also advantageous if the gripper mechanism is not mounted directly on the base 7 by means of the sliding guide 30, but rather the axis of rotation 39 of the gripper shown in FIG. 3a is mounted on a base located next to the press , so that the gripper is not mechanically connected to the press. The reason for this will be explained later with reference to FIG. 3a.
  • the substructure 7 consists of a bracket 51 provided with the legs 13 and a bearing bed 52. Also shown are the drives D arranged in the holding device 8 or 11 for the clamping jaws 35 (here, however, engaging in recesses of the tool), of which clamping jaws only one is shown.
  • the bearing body 30 is designed as a T-guide, and that therefore extensions 54 project upward and downward, T-shaped, from a fastening body 53 connected to the bearing bed 52.
  • extensions 54 are encompassed by guide lugs 55 of the handling devices 31.
  • the lugs 55 protrude from a housing 56 in which the drive parts of the handling device 31 are accommodated.
  • a sliding guide 54, 55 is shown here for the sake of simplicity, rollers can be provided on individual surfaces if desired.
  • the housing 56 can contain its own motor, in which case, however, its own power supply cable must be tracked. It is cheaper to drive a continuous spindle like a lathe from a fixed motor. Such a spindle could be the spindle 57 (FIG. 3a). On the other hand, this spindle 57 and a Similar spindle 58 are each driven by a drive unit 59 or 60 (Fig. 4a).
  • a helical gear 61 mounted in the housing 56 is in engagement with the spindle 57, on the axis of which a pinion 62 is in engagement with a toothed rack 63 provided on the sliding guide 30. In this way, the displacement movement is driven.
  • a hollow shaft 64 which has at its lower end a helical gear 65 which engages with the spindle 58.
  • the hollow shaft 64 carries a turntable 66 which is provided with bearing cheeks 67 for receiving a pivot axis 68 running in the plane of the holding devices 8, 11 or parallel to the same.
  • the gripper arm 32 can thus be pivoted up and down on the one hand about the axis 39 and on the other hand about the horizontal axis 68.
  • a piston 69 is displaceable within the hollow shaft 64, which - under the control of the control device 37 - pressure medium from a pressure source, e.g. can be fed to the source 50 (FIG. 1) in a manner not shown.
  • one or more drives are often provided for the gripper 38 itself in conventional handling devices, which would make very heavy gripper tongs necessary in the case of a conventional design. Another path was therefore taken here.
  • each adapter Ad consists of a fastening part 70, a neck part 71 and a bracket part 72. Since, as can be seen particularly from FIG. 1 and the tools in the compartment 20, the tools can have different dimensions, either adapters with different lengths are used for compensation the neck parts 71 are provided and kept in stock, or the neck part is adjustable in length, for example by the bracket part 72 with the neck part 71 via a bolt 73 indicated by a broken line, for example a screw bolt is connected, along which a length adjustment is possible.
  • the length of the neck part 71 can be set so that the bracket part 72 (regardless of the width of the tool 9) always comes to the same place. This avoids having to equip the gripper 38 with a complicated sensor control, which would first have to recognize the approach to the bracket or a gripping surface of the tool in order to control the further gripper movement.
  • the gripper 38 can be made extremely simple and in the exemplary embodiment shown a) simply consists of at least one, as shown in FIG. 4a, two fork-shaped hooks H. If the handling device is thus used for the first time, the turntable 66 becomes in brought such a position that the gripper arm points straight to the adapter Ad according to FIG. 4a.
  • the associated motor 60 is designed as a stepper motor, in which case this position can be controlled very precisely, but with expensive means; or an inexpensive, conventional motor 60 is used, in which case a latching is expediently provided.
  • the turntable 66 still has a certain degree of rotational mobility with respect to the hollow shaft 64 and is brought into the correct position at the end by a wedge catch 74, which can be actuated, for example, by a piston-cylinder unit 75.
  • a position transmitter can be provided for the turntable, with the motor 60, for example, only being switched off until the catch 74 has fallen into the associated (in plan view) funnel-shaped recess in the turntable 66.
  • the turntable 66 can be rigidly connected to the hollow shaft 64.
  • the gripper arm 32 rests on the piston rod of the piston 69 only under its own weight. It is therefore understood that during the operation of the press 1 there would be a risk of constant vibration, with the development of noise, and the risk of the pivoting bearing swinging out on the axis 68. It is therefore expedient to move the gripper arm 32 in its rest position, i.e. to clamp against a stationary part during the operation of the punch press 1. In itself, this could be any part of the press, but the gripper arm 32 is preferably clamped immediately against the bracket part 72, so that no special devices are required. This means that the piston 69 is kept under pressure in its upper position during press operation. This can be done either by providing a shunt line to the switch S2 for control of the valve controlling the pressure medium inflow (not shown), or by this valve connecting the pressure medium source 50 to the underside of the piston 69 when the magnet is de-energized.
  • At least one support surface F is expediently provided on the gripper 38, with the aid of which it can be supported on a counter support surface cf of the tool, but preferably of the adapter.
  • the support surface F of the gripper 38 is located on its front face, whereas the counter support surface cf on the fastening part 70 of the adapter Ad is opposite it. If adapters with adjustable neck part 71 are used, the counter support surface would either have to be adjustable as well, or be connected to the bow part 72, from which it must have a corresponding, predetermined distance for support on the gripper 38.
  • the gripper were not mounted on the press by means of the sliding guide 30, but would stand freely on a separate substructure next to the press, which, however, is expediently provided with the support springs 14 in the case of a high-frequency press, there would be an uncertainty when gripping the adapter Ad, which could be higher or lower depending on the load (e.g. by tool 9).
  • Relatively expensive gripper constructions are known, which can be found with the help of sensors to find the necessary position, but the gripper construction should be simplified as much as possible.
  • the locking device 42 is also of great interest for such cases because it then secures a predetermined height when the gripper arm 38 is intended to grip the adapter Ad.
  • any drive can be used by means of which the press and gripper can be brought to a predetermined height relative to one another, such as wedges, spindles with a motor drive, etc.
  • FIG. 2a and 2b illustrate a particularly advantageous embodiment of such a locking device, which is combined here with a damping system.
  • a double ring of helical springs 14, 14 ' each with an opposite spring winding, is provided to support one leg 13 in order to improve stability.
  • the springs 14, 14 ' are supported on the underside on a shaped plate 91 with a cone ring 92, which is opposed by a counter-cone ring 92' on the top.
  • the type of suspension is only shown in detail here by way of example and can easily be replaced by equivalent constructions, for example by replacing a spring ring surrounding the plate 91 with about four (or more) individual coil springs on the axes of a cross or the arms of one Star are arranged.
  • a cylinder 142 is formed or attached to the form plate 91 coaxially with the conical ring 92. As in the present case, the cylinder 142 can be open at the top.
  • a damping piston 93 is provided in the interior of the cylinder 142, which is filled with a hydraulic fluid, which is connected to a pin 96 screwed to a support plate 95 for the leg 13 via a ball 94 formed thereon (as a ball joint).
  • the shaped plate 92 is seated on a base plate G resting on the floor, from which a stationary base 97 protrudes.
  • the line 49 also lies in this base plate G (cf. FIG. 1), and it can also be seen that the cylinder 142 continues downward into a recess in this base plate G, where it can be seen more clearly from FIG. 2b
  • End wall 97 ' is completed. This end wall 97 'may be screwed in (as shown in FIG. 2b) or otherwise secured in any way.
  • the cylinder 142 is surrounded or closed on its underside by a cap 98 which is screwed to the molding plate 91.
  • the line 49 is connected to this cap 98 in the manner shown in FIG. 2b and supplies - when the solenoid valve MV (FIG. 1) is opened - fluid, e.g. a hydraulic fluid, into the interior of the cap 98, from where it can reach the interior of the cylinder 142 via at least one opening h in the end plate 97 '.
  • the damping piston 93 has two bores leading to its upper side, in which valves RV and PV are arranged.
  • the valve RV is constructed in the manner of a check valve, the valve member of which, however, is formed by a plate 99 with a thin opening, which can be moved up and down in a chamber of larger diameter. If the damping piston 93 is pressed downward, the liquid present in the cylinder 142 pushes the plate 99 upward, so that the est receiving chamber is closed with the exception of the small flow opening in the plate 99. Downward impacts, which naturally occur with presses, are therefore strongly dampened.
  • a pressure relief valve PV can also be provided in the piston 93, which is only indicated schematically here.
  • the cylinder 142 provided for this purpose is also used for locking the substructure 7 at a predetermined height.
  • the valves RV and PV it would be conceivable to design the valves RV and PV to be lockable and to use the damping piston 93 as the piston of the locking device (analogous to the piston 43 of FIG. 1).
  • the stop nut AN protrudes a little above the projecting parts of the valves RV, PV in order to protect them.
  • the predetermined position into which the damping piston 93 can be brought may be determined either by appropriate control of the solenoid valve MV (FIG. 1), since since the piston 143 always starts from the starting position shown in FIG. 2b, its height only depends on from the amount of hydraulic medium supplied, which can be easily regulated via the valve MV; or a stop is provided in the cylinder 142, which can be formed, for example, by an inserted ring Ri, but possibly also by an adjustable stop screw.
  • the gripper can also be elastically mounted separately.
  • a locking device for fixing a predetermined relative height of the press and gripper is favorable.
  • a separate elastic bearing of the gripper is particularly recommended to protect any electric motors, the bearings of which are often very sensitive to impact.
  • Fig. 2a now shows a partial view of the sliding guide shown in Fig. 1, but partly in section along the line a'-a' of Fig. 2b '.
  • the bed 152 is somewhat modified compared to the bed 52 of FIG. 3a and provided with a cover CO in order to be able to accommodate internals to be described later.
  • springs 114 are accommodated in recesses CA of the sliding guide 30 here.
  • the springs 114 are shown here as simple leaf springs, but a plurality of leaf springs can also be provided, as it would also be possible to use spiral springs or the like. to provide for support.
  • this elastic mounting means that the sliding guide 30 moves downward into a position 30 'under the load, and it is also possible for tilting moments (for example when the gripper is at one end of the sliding guide 30) that the sliding guide 30 at the other end moved up into position 30 ".
  • the sliding guide 30 can be locked in a predetermined position by providing a conical depression CN in it, into which a centering cone CC can engage for orientation.
  • FIG. 2a has a similar arrangement with depression CN 'and CC', the depression CN 'being provided in a plate of the stationary frame 97, the centering cone CC' on the upper side of the elastically supported substructure 7 is.
  • This arrangement can result in a double fixation when the piston 143 is raised, the height of the centering cone CC 'can expediently be adjusted and can then act as a stop for the desired predetermined position.
  • FIG. 2b ' This is similar in the case of FIG. 2b ', in which, however, an actuating drive for the centering cone CC must be provided.
  • a cylinder CY is provided for this, which can be a hydraulic or pneumatic cylinder or is formed by a powerful moving coil magnet. If you want to use the bed 52 without the cover CO, it may be advantageous to reverse the arrangement and to accommodate the depression CN on the bed, but the centering cone CC together with its actuating cylinder CY on the sliding guide 30.
  • a locking finger Fi shown in FIG. 2a ' can also be inserted into a corresponding opening of the sliding guide 30 by means of a solenoid SO (see also FIG. 2b') in order to prevent any slipping to prevent.
  • a plurality of such locking devices CC, CN, or at most Fi are expediently provided along the sliding guide 30, preferably at least two spaced apart.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Presses And Accessory Devices Thereof (AREA)
  • Automatic Assembly (AREA)

Claims (8)

1. Presse (1) supportée élastiquement dans la direction verticale avec son bâti (7), caractérisée en ce qu'en vue de l'alignement sur un appareil de manutention (31), il est prévu un dispositif d'arrêt (42; 142; 143; CC', CN; CC, CN) pour le bâti (7; 30) monté élastiquement pour la fixation de celui-ci sur une position de hauteur prédéterminée.
2. Presse selon la revendication 1, caractérisée en ce que la position de hauteur prédéterminée est fixée par une butée (Ri; CC', CN'; CC, CN) et en ce que de préférence, il est affecté un dispositif d'ajustage à la butée (CC', CN').
3. Presse selon la revendication 2, caractérisée en ce que la butée (CC', CN'; CC, CN) présente des faces obliques de centrage (CC, CC') auxquelles sont de préférence opposées des contrefaces (CN; CN') formées de façon correspondante.
4. Presse selon l'une des revendications précédentes, caractérisée en ce que le dispositif d'arrêt (42; 142; 143; CC', CN'; CC, CN) présente un entraînement d'actionnement de préférence fluidique, notamment hydraulique (42; 142; CY, SO).
5. Presse selon la revendication 4, caractérisée en ce que l'entraînement de commande fluidique (42; 142; 143) est associé du point de vue de la construction à un dispositif d'amortissement (93; 142) et en ce que de préférence, le dispositif d'actionnement (142; 143) et le dispositif d'amortissement (93; 142) présentent un vérin commun (142).
6. Presse selon la revendication 4 ou 5, caractérisée en ce que le dispositif d'amortissement (93; 142) présente une vanne anti-retour (RV) avec une ouverture de passage demeurant ouverte lors de la fermeture de celle-ci.
7. Presse selon la revendication 4, 5 ou 6, caractérisée en ce que le dispositif d'amortissement (93; 142) présente une vanne de surpression (PV).
8. Presse selon l'une des revendications 4 à 7, caractérisée en ce que l'entraînement d'actionnement (142; 143) est agencé centralement au milieu du logement élastique (14, 14') et de préférence entouré de ressorts hélicoïdaux (14, 14').
EP87114479A 1986-11-04 1987-10-05 Presse supportée élastiquement dans la direction verticale avec son bâti Expired - Lifetime EP0270762B1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
CH4366/86 1986-11-04
CH436686 1986-11-04

Publications (2)

Publication Number Publication Date
EP0270762A1 EP0270762A1 (fr) 1988-06-15
EP0270762B1 true EP0270762B1 (fr) 1991-01-09

Family

ID=4274761

Family Applications (1)

Application Number Title Priority Date Filing Date
EP87114479A Expired - Lifetime EP0270762B1 (fr) 1986-11-04 1987-10-05 Presse supportée élastiquement dans la direction verticale avec son bâti

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US (1) US4916951A (fr)
EP (1) EP0270762B1 (fr)
JP (1) JPS63260700A (fr)
DE (1) DE3767291D1 (fr)

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Publication number Priority date Publication date Assignee Title
JPH061393Y2 (ja) * 1988-10-31 1994-01-12 住友重機械工業株式会社 射出成形機支持装置
DE69011895T2 (de) * 1989-02-20 1995-02-02 Nippon Steel Corp Vorrichtung zum Anritzen kornorientierter Elektrostahlbänder.
JPH0811320B2 (ja) * 1991-10-21 1996-02-07 将男 秋元 油圧支持装置
JP3174115B2 (ja) * 1991-12-20 2001-06-11 株式会社放電精密加工研究所 順送り加工装置用カセット交換装置
DE19643163A1 (de) * 1996-10-18 1998-04-23 Amada Gmbh Werkzeugwechselvorrichtung für eine Umformpresse sowie Umformpressen-Werkzeugwechselvorrichtungs-Anordnung
JP6371034B2 (ja) * 2012-10-19 2018-08-08 株式会社アマダホールディングス 板材折曲げ加工システム
DE102013008115B4 (de) * 2013-05-11 2023-12-07 Neumayer Tekfor Engineering Gmbh Verfahren zur Bruchtrennung eines Pleuels und entsprechende Vorrichtung
DE102014101349A1 (de) * 2014-02-04 2015-08-06 Benteler Automobiltechnik Gmbh Umformwerkzeug mit Lochstempel
DE102016208942A1 (de) * 2016-05-24 2017-11-30 Robert Bosch Gmbh Pedalkraftsimulatoreinrichtung, Fahrzeug
SG11201909974SA (en) 2017-09-15 2019-11-28 Bruderer Ag Spring-damper element for the mounting of a punching press
JP7249456B2 (ja) * 2017-09-15 2023-03-30 ブルーデラー アーゲー パンチングプレスを取り付けるためのばねダンパ要素

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US3111100A (en) * 1958-01-16 1963-11-19 Danly Mach Specialties Inc Quick die change press
SU574254A1 (ru) * 1971-05-10 1977-09-30 Предприятие П/Я Г-4367 Узел креплени в штампе сменной детали
DE2642538A1 (de) * 1976-09-22 1978-03-23 Gemminger Maschinenbau Gmbh Vorrichtung und verfahren zum oeffnen bzw. trennen von werkzeugen, vorzugsweise in ein ober- und ein unterteil
JPS5395178A (en) * 1977-01-31 1978-08-19 Sumitomo Precision Prod Co Ozone treating reaction apparatus
SU725901A1 (ru) * 1977-04-19 1980-04-05 Предприятие П/Я В-2994 Устройство дл установки и сн ти прессформ со стола пресса
DE2740042C2 (de) * 1977-09-06 1985-10-24 L. Schuler GmbH, 7320 Göppingen Werkzeugwechseleinrichtung in einer Mehrstufen-Massivumformpresse
JPS5739043A (en) * 1980-08-19 1982-03-04 Matsushita Electric Ind Co Ltd Changeover metallic mold
SU1013306A1 (ru) * 1982-02-08 1983-04-23 Научно-Исследовательский Институт Тяжелого Машиностроения Производственного Объединения "Уралмаш" Выдвижной стол пресса
US4553795A (en) * 1982-04-02 1985-11-19 Shozo Takagi Mold supporting arrangement

Also Published As

Publication number Publication date
US4916951A (en) 1990-04-17
EP0270762A1 (fr) 1988-06-15
JPS63260700A (ja) 1988-10-27
DE3767291D1 (de) 1991-02-14

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