EP1304181A1 - Device for the stepwise advancing of a bandshaped workpiece - Google Patents

Abstract

The mechanism to feed strip material in steps into a press, and the like, has two oscillating feed rollers with an intermittent drive to advance the strip workpiece material (63). The lower feed roller (2) is mounted in the frame (1) of the feed station, and the upper feed roller (3) is mounted in a rocker (30). The rocker movement is controlled from a control disk (64) through a lever (40) and a rod (35). Both ends (33,34) of the rocker are supported at the frame by springs (36,39). The rocker is mounted to a jib at one side, with a bush and a projecting arm with a clamped shaft. The clamping bar is firmly bonded to the shaft.

Description

The present invention relates to a device for the gradual advancement of a band-shaped Workpiece.

Such devices are, for example for a gradual advancement of a metal band in a press, commonly referred to as a punch press, is used, in which punch press tools for processing the metal strip, for example stamping, embossing, bending, Rivets etc. are installed.

The gradual advancement of the band-shaped The workpiece can be operated using linearly oscillating pliers or rotatingly oscillating or intermittently rotating Feed rollers take place.

Depending on the product to be manufactured in such stamping presses bands with different Width, for example, in the range from 20 mm to 450 mm processed and two simultaneously arranged side by side Bands.

Accordingly, the devices to advance the tapes differently depending on the tape be trained. And this obviously means considerable Production costs.

The invention will remedy this.

The invention as characterized in the claims is, solves the task of a device for gradual advancement of a band-shaped workpiece to create, by means of which, if necessary, by a Twin arrangement of the same, band-shaped workpieces with different widths and also two band-shaped workpieces can be advanced at the same time.

It is also an object of the invention Device for gradually advancing a band-shaped Creating a workpiece that contains a frame two counter-rotating and oscillating Feed rollers for receiving an intermediate one and workpiece to be fed, the first the feed rollers are rotatable and immovable in the frame stored and the second of the feed rollers in a seesaw is rotatably mounted, which rocker a first and a second end opposite to the first and the second feed roller has an axis, and the contains a lifting device connected to the rocker, which is used to hold the one mounted in the seesaw second feed roller at a time of reversal a first direction of rotation of the feed rollers against the first feed roller in a feed position and in one further time of reversing a second direction of rotation the feed rollers away from the first feed roller a repositioning to move which lifting device a control device and a translationally up and down Movable handlebar element that with the rocker at its first end is connected to the seesaw together with the feed roller mounted in the same, contains a first compression spring at its first end in a region between the axis of the second feed roller and the second end is supported against the rocker and on the same side as the handlebar element and essentially in a direction of movement of the steering element that is too pure acts on the rocker in a parallel direction, contains a clamping ruler by the first compression spring is biased against a stationary counter organ in the frame around a workpiece during the return position to hold the second feed roller and that in the Feed position of the second feed roller from the counter organ which rocker is lifted on one side on a boom is rotatably mounted, which in turn is rotatable in the frame and is immovable.

The advantages of the invention are above all to be seen in that the device alone for advancing of band-shaped workpieces of different Width can be used, but also in a twin arrangement two such arranged facing each other Devices for parallel advancement of two side by side arranged band-shaped workpieces applied and that a twin arrangement is also possible in which the two devices are considerable Have a distance from each other, so very wide band-shaped workpieces can be advanced.

Figur 1 einen Schnitt durch ein gemäss der Erfindung ausgebildeten Vorrichtung zum schrittweisen Vorschieben eines bandförmigen Gegenstands,

Figur 2 einen Schnitt entlang der Linie II-II der Figur 1,

Figur 3 einen Schnitt entlang der Linie III-III der Figur 2

Figur 4 eine Darstellung gemäss der Figur 3, jedoch der Übersichtlichkeit halber in einem grösseren Massstab gezeichnet,

Figur 5 eine Seitenansicht der in Figur 4 gezeigten Wippe,

Figur 6 einen Schnitt durch eine Zwillingsausführung zum Vorschieben von zwei bandförmigen Werkstücken.

Figur 7 einen Schnitt durch eine Zwillingsausführung zum Vorschieben eines sehr breiten bandförmigen Werkstückes, und

Figuren 8 und 9 schematisch den Abschnitt der Vorrichtung mit dem Bauelementen zum oszillierenden Antreiben der Vorschubwalzen.

The invention is explained below with reference to the embodiment shown in the drawing. It shows:

FIG. 1 shows a section through a device designed according to the invention for gradually advancing a band-shaped object,

FIG. 2 shows a section along the line II-II in FIG. 1,

3 shows a section along the line III-III of Figure 2

FIG. 4 shows a representation according to FIG. 3, but drawn on a larger scale for the sake of clarity,

FIG. 5 shows a side view of the rocker shown in FIG. 4,

6 shows a section through a twin design for advancing two band-shaped workpieces.

7 shows a section through a twin design for advancing a very wide band-shaped workpiece, and

Figures 8 and 9 schematically the section of the device with the components for oscillating driving of the feed rollers.

The feed device shown in Figures 1 and 2 has a frame 1. As part of 1 are a first, lower feed roller 2 and a second, upper feed roller 3 arranged. The first feed roller 2 is rotatably and immovably arranged in the frame 1. The second feed roller 3 is slidably arranged, as will be described in more detail below.

The two feed rollers 2 and 3 become oscillating driven.

The operation of the drive of these feed rollers 2 and 3 will be described below with reference to FIG. 1 and Figures 8 and 9. Figure 1 shows one Section through the feed device. Figure 8 shows schematically the section of the device with the components for oscillating driving of the feed rollers 2.3. Figure 8 is the left side of the figure 1 to compare, wherein in Figure 8 for the easier Understanding the illustration is simplified. Figure 9 is a likewise simplified side view of the in the figure 8 components shown.

The feed device is driven by means of a bevel gear in FIG 4 shown drive member. This bevel gear 4 is connected to a shaft 5, which for connection with a drive, not shown, of known training is determined.

The bevel gear 4 meshes with another Bevel gear 6. In this further bevel gear 6 is a disk 7 rotatably mounted in the bevel gear 6 is arranged eccentrically. The disc 7 carries on the one side an eccentrically arranged bolt 8 and on the other side, a gear wheel coaxial with the disk 7 9, which meshes with a ring 24 with an internal toothing.

This bolt 8 is with the bolt 8 of the figure Compare 8 and 9.

It is now obvious that due to the eccentric arrangement of the disk 7 and the gear 9 the eccentrically arranged bolt 8 in operation one (in the oscillating movement shown in simplified form in FIG 10 performs. This oscillating movement is in 9 indicated by the double arrow 10, being pure for the sake of explanation it can be assumed that the longitudinally displaceable rod 11 by a drive with a Eccentric or by a crank mechanism in the direction of the Double arrow 10 is moved back and forth. The longitudinally displaceable Rod 11 drives one over the bolt 8 her articulated arm 12 on.

This arm 12 is also shown in FIG. 1. The arm 12 is rotatably supported on the bolt 8. A spindle 14 extends through the guide block 13 and combs with it. The guide block 13 has one Bolt 17 on which the arm 12 rotatably on the Sliding block 17a is supported. The position of the bolt 17 forms the fulcrum for the respective feed length. Next, the guide block 13 on the frame 1 against one Twist secured.

If the spindle 14 is not shown Drive here via the shaft 32 and the bevel gears 15, 16 rotates, the guide block 13 moves longitudinally the spindle 14. This now obviously shifts the fulcrum of the arm 12 supported on the bolt.

At the free end of the arm 12 is a pin 18 stored, which carries a sliding block 19, which between the Legs of a U-shaped lever 20 out is. This lever 20 is connected to a shaft 21, which is driven to oscillate. This wave is in the Figures 8 and 9 shown and also shown in Figure 1.

If the rod 11 in the direction of the double arrow 10 back and forth, so the arm 12 around the Axis of the bolt 17 of the guide block 13 as the axis of rotation swung back and forth. The resulting one Pivotal movement of the lower end of the arm 12 is over the pin 18 and between the legs of the lever 20 sliding sliding block 19 transferred to the lever 20, whereby the shaft 21 is driven to oscillate.

As already mentioned, by turning the Spindle 14 the pivot axis of the arm 12 can be adjusted, so the lever arm lengths 8-17 and 17-18 changed be, which the size of the rash of the Slide block 19 bearing end of the arm 12 and thus the Amplitude of the rotational movement of the shaft 21 can be changed can.

It is essential that the translation movement the rod 11 and the movement of the pin 8 regardless of the mentioned deflection of the arm 12 always is the same and the bolt 8 always the same end positions, in whose direction of movement is diverted.

By arranging the sliding block 19 on the arm 12 is achieved by the sliding block 19 on the arm 12 applied force always acts on the arm 12 at right angles. The arm 12 can therefore have a range of 180 ° sprinkle.

Now returning to Figures 1 and 2 described how the drive principle set out above the drive of the two feed rollers 2 and 3 applied is.

The further bevel gear 6 described above, that meshes with the drive member, the bevel gear 4, which connected to the shaft 5 is with a drive shaft 22 connected.

As already mentioned, in the wider bevel gear 6 a rotatably and eccentrically arranged in the same Washer 7 inserted. This disc 7 applies one side the eccentrically arranged bolt 8, which is also shown in Figures 8 and 9.

On the opposite side is the Disk 7 connected to the coaxially arranged gear 9. This gear 9 meshes with that embedded in the frame 1 Ring 24 with an internal toothing and rolls when turning the drive shaft 22 on the internal toothing from. The pitch circle diameter of the coaxial gear and of the ring 24 are in a 1: 2 ratio.

On the bolt 8, also compare with the figures 8 and 9, the arm 12 is mounted, which is rotatable on the Bolt 17 of the guide block 13 is supported. The leadership block 13 can be rotated as described move the spindle 14.

Still referring to Figure 1 the arm 12 below the pin 18 with the sliding block 19 on, in the manner described above with the lever 20 interacts. The lever 20 is connected to the shaft 21. This shaft 21 is in turn with a gear 25 connected. This gear 25 is on a suitable Coupling 26 with a shaft 81 in connection which the second feed roller 3 carries.

The gear 25 meshes with another gear 28, which is connected to a shaft 29, the in turn carries the first feed roller 2.

The drive shaft 22 becomes over the gears 4 and 6 driven, the gear 9 rolls through the disc 7 in the gear 6 out on the ring 24. Because of the already mentioned pitch circle diameter ratio from gear 9 and ring 24 from 1: 2 becomes the bolt 8, see also Figures 8 and 9, straight between two end points moved back and forth, this movement like in the explanation described in FIGS. 8 and 9, regardless of the position of the axis of rotation of the arm 12 always stays the same.

The oscillating rotary motion of the shaft 21 is thus transferred to the two feed rollers 2, 3 which are driven in opposite oscillating fashion, with one revolution of the drive shaft 22, the feed rollers 2,3 a complete reciprocation To run.

The first feed roller 2 is over the shaft 29 flying in a carrier section 31 of the frame 1 which support section rotatably and immovably 31 a recess 87 for receiving the edge area of a tape to be fed. The second Feed roller 3 is mounted in a rocker 30. This Rocker 30 has a first 33 and a second end 34.

At the first end 33 of the rocker 30 there is a translatory handlebar element that can be moved up and down, i.e. a Rod 35 articulated.

Next is a first compression spring 36 at her one end in a region between the shaft 81 of the second feed roller 3 and the second end 34 of the rocker 30 supported on the rocker 30, and at its opposite End via an adjusting screw 23 against the frame 1 supported. This first compression spring 36 acts from the same side as the rod 35 and essentially in one parallel to the direction of movement of the rod 35 Towards rocker 30.

The rod 35 has a circumferential collar 38 on. Between this collar 38 and the frame 1 is one second compression spring 39 arranged. Since the rod 35 on the Rocker 30 is articulated, the rocker 30 is thus at her first end 33 via this second compression spring 39 against the Frame 1 supported.

This compression spring 39 guarantees in all operating states the contact pressure required below described roller 41 on the cam 64th

On their first, connected to rod 35 At the end 33, the rocker 30 is articulated via this rod 35 with a pair of levers mounted on a pivot pin 89 40, 40a connected, the one at its free end rotatably mounted roller 41 carries.

The pair of levers 40, 40a is between its attachment point with the rod 35 and that of the roller 41 with a piston rod attached to a piston 42 43 connected. There is also a pin on the piston 42 44 attached, which with a height scale, in the frame 1 screwed adjusting nut 45 interacts. The roller 41 acts with one on the drive shaft 22 arranged cams 64 together.

As has already been mentioned, the drive is the drive shaft 22 with the drive of the feed rollers 2 and 3 coupled.

In the rocker 30 there is also a clamping ruler 46 arranged. As will be described, that is Clamping ruler 46 firmly connected to a shaft 72. In the 4 and 5 is the wedge 37 of a corresponding Wedge and groove connection shown.

The rocker 30 is open at its second end 34 the spring 36 supported as described. Next is with second end of the rocker 30 a recess 47 with a Shoulder 48 formed, which forms a receiving surface. A support head 49 is in this recess 47 Control rod 50 arranged. This control rod 50 is on an angle lever 51 articulated by means of a shaft 52 is mounted on the frame 1. Is at its other end the angle lever 51 is connected to a piston rod 53, which has a thread 54 with which it fits into a flange 55 engages on the angle lever 51.

The piston rod 53 has a first piston 56 connected. This is in a chamber 58 of a cylinder 88 arranged. Sliding on the piston rod 53 is a second piston 57 in a further chamber 59 of the Cylinder 88 arranged, which has a larger diameter has as the first piston 56. The transition from the Chamber 58 in which the first piston 56 moves to Chamber 59 for the second piston 57 is a stop for the latter trained. Both chambers 58, 59 are with the Connected lines 60 of a pneumatic system with which is also connected to the piston 42. In the supply lines 60 suitable control elements 61, 62 are installed.

The following is the gradual advancement a band-shaped workpiece, e.g. a sheet metal strip 63, between the two feed rollers 2 and 3 is described. For better understanding is the cam 64 divided into two sections 64a and 64b, the subdivision being diametrically opposite Points A and B are done. In the following it is assumed that the drive shaft 22 is counterclockwise rotates.

Runs the roller 41 in point A on the section 64a of the cam 64, the roller 41 lifted up by the cam portion 64a. With that the Rod 35 moves down and presses the rocker 30 against the force of the spring 39 down. By at first End 33 of the rocker 30 exerted by the rod 35 The rocker 30 is at the point of attachment of the rod 35 pivoted down on the rocker 30. The top one second feed roller 3 is against the lower, i.e. first, feed roller 2 mounted so that it cannot move. Since the Point of contact between that lying on the sheet metal strip 63 upper feed roller 3 at this time as The pivot point of the rocker 30 acts, the clamping ruler 46 lifted off the metal strip 63. The two feed rollers 2 and 3, which are in the feed direction during this period turn, engage the metal strip 63 and push it forward. After rotation of the drive shaft 22 by 180 ° during which the control disk section 64a the roller 41 acts, the control disc section begins at point B. 64b to act on the roller 41. The feathers 36 and 39 now cause the rocker 30 to pivot about the axis of the upper, second feed roller 3 and a Lifting the rod 35, which is a rotation of the pair of levers 40, 40a and a lowering of the roller 41. Lowering the Roll 41 is possible because the distance of the control curve of the Section 64b from the axis of the drive shaft 22 smaller is that of the control curve of the section 64a.

The mentioned pivoting of the rocker 30 leads to lower the clamping ruler 46, which the sheet metal strip 63 presses against the stop 65 and clamped. The Stop 65 is part of the frame 1 of the feed device. After clamping the sheet metal strip 63 the upper, second feed roller 3 is lifted off. The point of contact Clamping ruler 46 / sheet metal strip 63 becomes the pivot point the rocker 30 on the shaft 72. The two feed rollers 2 and 3 no longer act on the sheet metal strip 63 and lead during the rotation of the drive shaft 22 they are a further 180 ° opposite to the feed direction Return movement off. Starts at point A. a full revolution of the drive shaft 22 again Cam portion 64a to act on the roller 41, so as described above, by pressing the feed rollers against each other 2 and 3 and lifting the clamping ruler 46 of the Feed cycle initiated again.

The cam 64 must be designed in such a way that the feed rollers 2 and 3 each exactly at the turning point their oscillating movement pressed against each other, or moved away from each other and in sync with the lifting or pressing movement of the clamping ruler 46.

To ensure the proper functioning of the feed device at different thicknesses of the to be fed To ensure the workpiece can be adjusted by adjusting the Adjusting nut 45 is the fulcrum of the pair of levers 40, 40a can be adjusted in height.

The feed length is changed by changing the Amplitude of the oscillation movement of the feed rollers changed, i.e. as mentioned by moving the guide block 13 along the spindle 14.

The controller now described below is pneumatic. The pressure medium, i.e. compressed air, is supplied from a compressed air source via the supply line 66 fed. This feed line 66 branches into two Branch lines 67, 68, in which the control members 61, 62 are arranged.

From the branch line 68 is downstream of the Control unit 62 branches off a connecting line 69, which extends to the cylinder chamber above the piston 42.

Generally, regarding pneumatic Control of the feed device between two set-up states and two operating states can be distinguished. During the setup states, during which the Work members are in their furnishing positions the feed device and obviously the one with it interacting punch press silent, usually in the top Dead center. The roller 41 is on the highest point of cam 64 between points A and B.

During the operating states, during which the working members act on the belt to be fed and obviously the one with the feeder interacting punch press is in operation, moves the shaft 22 in the direction of that shown in FIG Arrow.

In the first set-up position are the upper ones Feed roller 3 and the clamping ruler 46 raised. The That is, the upper feed roller 3 is in front of the lower one Feed roller 2 is raised away and the clamping ruler 46 is raised from the stop 65.

In this set-up position, a new one Band 63 are inserted into the feed device.

For this purpose, the chamber 59 of the cylinder 88 and the chamber above the piston 42 is depressurized. consequently becomes the first end 33 of the rocker 30, at which the spring-loaded Rod 35 is hinged to the rocker 30, raised.

At the same time, the chamber 58 of the cylinder stands 88 under pressure. Thus, the pistons 56 and 57 and the piston rod 53 to the right. The angle lever 51 is rotated and lifts the rod 50 the support head 49 also the second end 34 of the rocker 30 raised.

Thus both the upper feed roller 3 and the clamping ruler 46 raised.

In the second set-up position is the upper one Feed roller 3 raised and the clamping ruler 46 against the band 63, or pressed against the stop 65.

In this set-up position, the one introduced Volume 63 e.g. for further setup work the clamping ruler 46 held.

For this purpose, the chamber 59 is also the chamber above of the piston 42 and also the chamber 58 without pressure. Consequently, the second end 34 of the rocker 30 at which the control rod 50 engages in the rocker 30 by the force of the spring 36 is lowered. The rod 50 is after pulled down, the angle lever 51 pivoted accordingly and thus the rod 53 or the piston 56 to the left moved because the chamber 58 is depressurized. So that is upper feed roller 3 raised and the clamping ruler 46 pressed down.

The first operating state is used if the built-in tool has no catch pins for precise positioning of the tape 63 during machining the same, e.g. Stamping. The tape 63 will continuously, i.e. in every position of the working members the punch press assigned to the feed device either by the advancing rollers 2 and 3 or by the clamping ruler 46 and the stop 65 positioned.

The tape 63 is never loose.

For this purpose, the chambers 59 and the cylinder space above the piston 42 under pressure and the chamber 58 is depressurized.

Since the chamber 58 is pressure-free, it can do not support the second end 34 of the rocker 30 on the rod 50, because this the piston 56 via the angle lever 51st and can move the rod 53 to the left. consequently remains the clamping ruler 46 by the action of the spring 36 in the bottom dead center area, i.e. while the Roller 41 is located on the deepest area of cam 64, pressed against the tape 63 and holds it.

The second operating state is used if the built-in tool catch pins to the exact Positioning the tape 63 while processing it, i.e. Punching, and the tape 63 during the action of the tools only positioned by the catch pins and is locked. So that will add up of feed errors avoided.

For this, the conical Catch pins on the strap 63 be loose.

For this purpose there are the chambers 59, the cylinder chamber above piston 42 and chamber 58 under pressure.

Before the roller 41 on the lowest point of the Cam 64 rests, the rocker 30 comes at its second End 34 over the shoulder 48 on the support head 49 of the fixed control rod 50 to rest on, because the above mentioned chambers are under pressure.

The roller 41 moves to the lowest point of the cam 64 and before the roller 41 on the deepest The rocker 30 comes at its second end 34 over the shoulder 48 on the support head 49 of the fixed Control rod 50 for resting.

This turns this point into a swivel center the now following pivoting movement of the rocker 30.

Meanwhile, the roller 41 deepened Point of the cam 64 moves, the first end 33 of the Rocker 30 further raised by the rod 35 and thus the upper roller 3 and the clamping ruler 46 during the pivoting movement of the rocker 30 until the roller is the deepest Point of cam 64 reached, further raised.

And thus the tape 63 becomes loose.

The exact time of this ventilation is on Thread 54 set with the nut 55, the Angle lever 51 rotated and thus moved the rod 50 becomes.

3, 4 and 5 referenced. The rocker 30 is one-sided on one Boom rotatably mounted.

The boom has a sleeve 70 which in Bearing 75 in the frame 1 is freely rotatable. The can 70 is rotationally fixed to the arm 71 by means of a press fit connected. An arm 71 stands laterally from this sleeve 70 from. In this arm 71 is a parallel to the sleeve 70 Shaft 72 held releasably clamped. To this The purpose is the arm 71 at its removed from the sleeve 70 End slotted and by clamping screws 73 and 74 interspersed.

The rocker 30 is in turn via bearings 77 and 78 rotatably mounted on the shaft 72.

In the rocker 30 is the upper, second feed roller 3 stored via bearings 79 and 80. The feed roller 3 sits on a shaft 81 which is coaxial through the Bush 70 runs. The reference number 90 denotes the wedge a corresponding key and groove connection. The wave 81 ends at the coupling part 26.

It can be seen that the outside diameter the shaft 81 is smaller than the inside diameter of the Box 70 is. This means that the wave 81 during a movement of the rocker 30 in the radial direction freely within the sleeve 70 can move.

The clamping ruler 46 is fixed to the shaft 72 connected.

The change of support between the roller 3 and the clamping ruler 46 takes place in the position shown of the cam according to FIG. 2. In this position, by the rotation of the shaft 72 in the arm 71 the time of ventilation can be set exactly (basic setting). there the roller 3 and the clamping ruler 46 lie on the belt 63 on. The strip thickness setting, depending on the processing band, takes place exclusively on the adjusting nut 45 as described above.

Because the rocker 30 on one side a boom is rotatably arranged, can be two of the feed devices described a twin feed device build by two such feeders arranged facing each other.

A first version of a twin feed device is shown in Figure 6.

The structure of the two individual feed devices is equal to that described with reference to Figures 1 and 2 Feed device so that only those Components are described for the twin feed device are specific.

The feed device arranged on the left in FIG. 6 has the associated with a drive Shaft 5 on that with the bevel gear serving as a drive member 4 is connected.

On the shaft 5 there is another bevel gear 82 arranged. This bevel gear 82 meshes with a bevel gear 83. The bevel gear 83 stands with a first Universal joint 84 connected by a telescopic longitudinally variable drive transmission shaft 85 followed which is connected to a second universal joint 84a is, which in turn with a bevel gear 83a right feed device is connected. This bevel gear 83a meshes with a bevel gear 82a, that sits on the drive shaft 5a and with the bevel gear 4a combs.

The two individual feed devices of the Twin feeder are thus simultaneously from a common drive on the shaft 5 synchronously driven.

With this twin feed device you can now two metal strips 63A and 63B are advanced. The two metal strips 63A and 63B can thus completely independent but angularly synchronous to the feed device be advanced. However, these bands 63A and 63B can in terms of thickness, width, feed length and also the material can be completely different. Obviously, it is also possible, even with just one Tape to work on both sides of the feed rollers both individual feed devices is taken.

FIG. 7 shows an embodiment of a twin feed device, those for extreme bandwidths Application comes. Again, only those band elements described for this twin feed device are specific.

The feed device arranged on the left in FIG. 7 has the associated with a drive Shaft 5, which is connected to the bevel gear 4. This bevel gear 4 meshes as previously described the further bevel gear 6. This further bevel gear 6 sits on the drive shaft 22.

The drive shaft 22 stands with a first one Universal joint 84 connected by a telescopic longitudinally variable drive transmission shaft 85 followed by a second universal joint 84a is. This second universal joint 84a is directly connected of the drive shaft 22a that arranged on the right in FIG Feed device in connection.

With this twin feed device you can extreme bandwidths are handled.

It is noteworthy that by flying Storage of the first lower feed roller 2 in the Support section 31 of the frame 1 of the support section 31 has a recess 87 in which the edge region of the tape to be advanced. The recess 87 is important for advancing individual tapes, see Fig. 1 and Fig. 6. It determines the maximum Bandwidth. The dimension A in Fig. 6 determines the minimum distance two bands. This measure A is among others very important with regard to the space requirement of a punch press and only possible with the "flying" rocker 3.

Claims (18)

Device for gradually advancing a band-shaped workpiece, characterized by a frame (1),
by two feed rollers (2; 3) for receiving a workpiece (63; 63A, 63B) arranged and to be advanced between them,
by a feed roller drive (7-9; 12, 13, 17-20) which is connected to the two feed rollers (2; 3) and which serves to drive the feed rollers (2; 3) in an oscillating and counter-rotating manner,
by a rocker (30) which has a first (33) and a second end (34) opposite the first,
the first (2) of the feed rollers (2; 3) being rotatably and immovably mounted in the frame (1) and the second (3) of the feed rollers (2; 3) being rotatably mounted in the rocker (30),
which rocker (30) has a first (33) and a second end (34) arranged opposite to the first and the second feed roller (3) has an axis (81),
by a lifting device (35, 36, 38-41, 64), which is connected to the rocker (30), around the rocker (30) with the second feed roller (3) mounted therein against the first feed roller (2) in a feed position and move away from the first feed roller (2) into a return position,
which lifting device (35, 36, 38-41, 64) a control device (40, 40a, 41, 64) connected to the feed roller drive (7-9, 12, 13, 17-20) and a translationally moving up and down Handlebar element (35) which is connected to the rocker (30) at its first end (33) in order to move the rocker (30) together with the second feed roller (3) mounted in it, by means of which lifting device (35, 36 , 38-41, 64) the second feed roller (3) can be moved into a feed position at the time of reversing a first direction of rotation of the oscillating feed rollers (2, 3) and into the return position at the time of reversing the second direction of rotation of the feed rollers (2, 3) is
which second feed roller (3) has an axis (81),
by a compression spring (36) which is supported at its first end in a region between the axis (81) of the second feed roller (3) and the second end of the rocker (30) and at its second, the first (33) opposite end (34) is supported against the frame (1), and acts on the rocker (30) from the same side as the link element (35) and essentially in a direction parallel to a direction of movement of the link element (35),
and by a clamping ruler (46) which is biased by the first compression spring (36) against a stationary counter-member (65) in the frame (1) around a respective workpiece (63; 63A, 63B) during the return position of the second feed roller (3) to hold on and which is lifted from the counter-element (65) in the feed position of the second feed roller (3),
which rocker (30) is rotatably mounted on one side on a bracket (70, 71, 72) which in turn is rotatably and non-displaceably mounted in the frame (1). Device according to claim 1, characterized in that the feed roller drive (7-9, 12, 13, 17-20) has a drive member (4) which is drive-connected to a drive wheel (6), which drive wheel (6) releases one in the same Rotatably mounted, eccentrically arranged disc (7), in which a pin (8) protrudes from one side and which is connected on the opposite side to a spur gear (9) coaxial with the pin (8), which is connected to a spur gear in the frame (1 ) fixed ring (24) meshes with an internal toothing, on which pin (8) a pivotable arm (12) is mounted, the opposite end of which is connected via a lever (20) to a transmission shaft (22) which is connected via a coupling ( 26) with the second feed roller (3) and via gears (25, 28) with the first feed roller (2), which pivotable arm (12) is rotatably supported at a point between its two ends on a guide block (13) , Apparatus according to claim 2, characterized in that the guide block (13) is slidably arranged in the frame (1). Apparatus according to claim 3, characterized in that the guide block (13) is penetrated by a screw spindle (14). Device according to claim 1, characterized in that the extension arm (70, 71, 72) has a bushing (70) which is freely rotatably mounted in the frame (1) and has a laterally projecting arm (71), in which one arm parallel to the bushing (70) extending shaft (72) is releasably clamped, on which shaft (72) the rocker (30) is rotatably mounted. Apparatus according to claim 5, characterized in that the shaft (72) is held in a slotted end region of the arm (71) which is penetrated by screw bolts (73, 74) to form the clamp. Device according to claim 1, characterized in that the first feed roller (2) is overhung in a carrier section (31) of the frame (1). Apparatus according to claim 7, characterized in that the carrier section (31) has a recess (87) aligned with the bite of the feed rollers (2; 3) for receiving a respective edge region of a band-shaped workpiece (63; 63A; 63B). Device according to claim 1, characterized in that the rocker (30) is supported at its first end (33) connected to the link element (35) on a second compression spring (39) which in turn is supported on the frame (1) and which counteracts the direction of action of the first compression spring (36) in the direction of movement of the link element (35). Apparatus according to claim 1, characterized by a clamping ruler lifting device (47-68) which interacts with the rocker (3) and which can be switched on and off and which, when switched on, serves to clamp the ruler (46) when the second feeding roller (3) is lifted off the first feeding roller (2) ) from the opposing organ (65),
which clamping ruler lifting device (47-68) has a control rod (50) which is arranged at the second end (34) of the rocker (30) next to the first compression spring (36) and engages with a support head (46) in the rocker (30),
which control rod (50) is articulated on an arm of an angle lever (51) rotatably mounted in the frame (1), the other arm of which is connected to a locking device (53-62) which either locks the angle lever (51) or releases it for rotation Apparatus according to claim 10, characterized in that the locking device (53-62) is fixed to a piston (56) arranged in a chamber (58) of a cylinder (88) and the other side of which is connected to a pressure medium source. Device according to claim 11, characterized in that the support head (49) at the second end (34) of the rocker (30) is arranged in a recess (47) formed in the rocker (30) with a receiving surface (48) and in the locking position rests on the receiving surface (48). Device according to claim 1, characterized in that the control device (40, 40a, 41, 64) has a rocker arm (40) which is pivotably mounted on a pivot pin (89) and which is connected to the link element (35) and to a drive shaft (22 ) seated control disc (64) cooperates, which control disc (64) determines the pivoting position of the rocker arm (40) depending on its rotational position. Apparatus according to claim 13, characterized in that the adjusting device (42-45), which serves the position of the pivot pin (89) and thus the pivot axis of the rocker arm (40) for adjusting the distance between the feed rollers (2; 3) in to adjust their feed position. Apparatus according to claim 14, characterized in that the adjusting device (42-45) has a piston (43) which is connected to the pivot pin (89) of the rocker arm (40) around this pivot pin (89) substantially in the direction of movement of the handlebar element (35) to raise or lower. Twin feed device, characterized by two devices according to claim 1, which devices are arranged with their feed rollers (2; 3) facing each other. Twin feed device according to claim 16, characterized in that each of the two mutually facing devices has a drive member (4, 4a) which is drive-connected to a drive shaft (22,22a) of the control device of the lifting device, and that the drive gear (4) of the one device is connected to a shaft (5) for connection to a drive motor, and is drive-connected to the drive member (4a) of the other device via drive members (82, 83, 84; 82a, 83a, 84a; 85) including a drive transmission shaft (85). Twin feed device according to claim 16, characterized in that the control device (40, 40a, 41, 64) of the lifting device (35, 36, 38-41, 64) of both devices has a drive shaft (22; 22a), that the drive shaft (22) one device is connected to a drive gear (4) which is connected to a shaft (5) for connection to a drive motor, and that the drive shaft (22) of the one device is connected to the drive shaft (22a) via a drive transmission shaft (85) the other device is drive-connected.

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