EP0436506A1 - Device for squaring-up piles - Google Patents

Abstract

The device has the following features: a horizontal conveyor (12) for transporting the pile from an inlet area (13) via an alignment area (14) into an outlet area (15), a pile stop (16) extending transversely to the conveying direction of the pile, arranged in the outlet area and movable in the pile conveying area, two stop plates (19, 20) arranged at the side of the pile, of which at least one is designed as a vibrator plate, and a vibrator drive (21, 22) for each vibrator plate, with a bearing surface (35) for the pile, a contact pressure element (40) lowerable vertically from above onto the pile, the contact pressure element and the bearing surface being guided relative to one another in a common, preferably vertical, axial direction and the contact pressure and bearing surface being designed smaller than the respective covering surface of the pile, and an access area (36), open from at least one side, above and below the aligned pile arranged between contact pressure element and bearing surface for a grab having a prong (37), so that the aligned pile can be gripped unimpeded from a direction aligned perpendicular to the axial direction to a [lacuna]. <IMAGE>

Description

The invention relates to a device of the type specified in the preamble of claim 1.

Such a device for straightening a stack of several sheets of paper or the like is known from DE 37 12 104 Al. This is connected to a horizontal conveyor system made up of a plurality of individual longitudinal conveyors arranged next to one another at a distance. A stacking grate with longitudinal beams parallel to the individual longitudinal conveyors is arranged below the transport level of the horizontal conveyor system. Furthermore, a front stack stop which is displaceable perpendicularly to and over the transport plane is provided. In this case, the front of the stack supporting grate is mounted in the horizontal conveyor system so as to be pivotable about a horizontal transverse axis and can be raised above the transport level with the aid of a lifting unit acting on its rear end with its stack support surface formed by the longitudinal beams. A lower and two vibrator plates and an upper press plate for straightening the stack are assigned to the stack support grate.

The known device has the disadvantage that it is very complicated and expensive. The stacks can only be straightened in the inclined state. Each stack to be aligned must therefore be swung back and forth by the straightening device. As a result of these design-related processes, the device proves to be susceptible to failure, in particular under continuous load. Furthermore, the high expenditure of time associated with the alignment process and the resulting costs have an unfavorable effect on the profitability of the known device. Furthermore, the device can only be loaded and disposed of via the horizontal conveyor, which makes it very inflexible and unsuitable for other, differently designed conveyor devices. Furthermore loses the straightened stack during further transport on the horizontal conveyor after straightening, its pressed state as well as its straightened shape.

The invention has for its object to provide a simple construction with a device of the type mentioned above while eliminating the disadvantages mentioned, with which the device can be linked to other conveyors and / or processing machines while maintaining its directed shape. In particular, the time required for the alignment process in connection with the transport processes is to be reduced.

This object is achieved with the characterizing features of claim 1.

The invention is based on the finding that the desired level of alignment of a stack can also be achieved with the device by aligning in the plane, the process speed can be increased significantly, and process-favorable measures can be made possible in connection with a pressure means and with access areas for a gripper.

Decisive for the resulting short processing and transport time is on the one hand the arrangement of the straightening area in the stack conveying area, on the other hand the straightening of the stacks essentially in this area and finally a free access area for the gripper to ensure fast and suitable further transport. For maintaining the correct quality of the stack the links between the movements of the pressure means holding the stack after straightening and the contact surface with the movements of the gripper are decisive. After the straightening process, the pressure means that can be lowered onto the stack from above during the straightening process and the supporting surface that counteracts from below hold the stack under a load that compresses the individual foils of the stack. The moment the gripper grabs the stack, the pressure medium releases from the stack. The stack is now compressed by the gripper and is freely movable with the gripper. The essentially continuous compression since straightening prevents the individual foils of the stack from slipping. The directional shape of the stack can therefore advantageously be maintained even during transport.

It is particularly advantageous that a support surface for the stack and a pressure means that can be lowered vertically from above onto the stack are provided. The pressure medium and the contact surface are assigned to each other. It is also advantageous that an access area that is free from at least one side is provided above and below the aligned stack for a gripper, which is arranged between the pressure means and the support surface. The stack can thus be gripped freely by the gripper.

As a result, after the straightening, the stack remains almost at first through the pressure means and the support surface and then through the tines of the gripper which compress the stack continuously under a load compressing the stack. The pressure on the stack is also maintained during the transport process, so that no air that destabilizes the stack can get between the individual foils. From this point of view, the gripper is therefore significantly more suitable for the transport processes than the horizontal conveyor. Therefore, it is particularly favorable to dispose of the aligned stack from the straightening area with a gripper.

The following advantageous further developments are particularly advantageous:

Recesses in the support plane of the stack form the access area for the gripper below the stack, so that the gripper can be guided under the stack. The stack can thus be gripped by the gripper in a time-saving and transport-friendly manner after the gripper has been brought into the recess against the conveying direction of the stack. The lower prongs of the gripper are arranged completely below the stack during the gripping process. This ensures optimized access and a load that optimally holds the stack in the aligned state. Furthermore, the cutouts extend essentially horizontally in the supporting plane of the stack against the conveying direction.

Furthermore, it is particularly advantageous that the pressure means is designed as a press plate which can be guided from above onto the stack located in the straightening area. The press plate presses in an advantageous manner during straightening the air between the sheets or foils out of the stack, so that the stack is in a favorable stable, compact and compressed state after straightening. As a result, the films forming the stack are largely secured against slipping among one another.

In a further variant when straightening the stack, the straightening area, the exit area and thus the position in which the stack is gripped by the gripper correspond to one another. As a result, the stack is taken directly and without wasting time.

According to another advantageous development, the support surface is formed by a lifting plate with a lifting drive for the stack in the straightening area. The lifting plate below the support level of the horizontal conveyor is arranged in the straightening area. The lifting device, consisting of the lifting plate and the lifting drive, is characterized by a stroke that exceeds the straightening range. Accordingly, the press plate is designed to be movable upwards by a coordinated movement with the lift height of the lift plate.

In this way, height compensation is advantageously possible without the forces acting on the stack and stabilizing it having to be released. The stack can thus be aligned, compressed and taken over by the gripper at a height that is favorable for the further process. A height compensation is particularly evident in the overall concept of an alignment station, transport and further processing system or palletizing machines as process-favorable and especially with regard to possible parallel work processes as process time reduction.

In order to be able to straighten the stack faster and better, a further stop plate is arranged on the side of the stack for the straightening process that is remote from the stack stop. The further stop plate is designed to be pivotable in the conveying area about an axis of rotation extending parallel to the conveying direction. Furthermore, the further stop plate has a vibrator drive and thus also acts as a vibrator plate for the straightening process. This enables the stacks to be transported unhindered in the straightening area by the horizontal conveyor and to limit the stacks from all sides during straightening and to excite them from three sides.

The lateral stop plates are preferably mounted so as to be pivotable about a vertically directed axis. This gives the stack enough space for further movements and transport processes. Furthermore, the stop plates can hereby be adapted to different stack widths.

In the straightening area of the carrying plane of the conveyor, air nozzles for lifting the stack during alignment are also preferably arranged. The stack can thus be lifted just above the support surface during the straightening process, thereby preventing the underside from being damaged by the vibrating movements of the stack or the bottom film.

It has also proven to be particularly favorable that a separating device for the continuously following stack is provided in front of the entry area, so that the stacks in the straightening area are advantageously prevented from the outset.

• Figur 1 eine Draufsicht auf ein Ausführungsbeispiel der Erfindung, sowie
• Figur 2 einen Querschnitt A-A durch das anhand von Figur 1 dargestellte Ausführungdbeispiel der Erfindung.

Advantageous developments of the invention are characterized in the subclaims or are shown below together with the description of the preferred embodiment of the invention with reference to the figures. Show it:

• Figure 1 is a plan view of an embodiment of the invention, as well
• Figure 2 shows a cross section AA through the exemplary embodiment of the invention shown with reference to Figure 1.

FIG. 1 shows a top view of an exemplary embodiment of the device for straightening a stack, in particular consisting of a plurality of foils, and FIG. 2 shows a cross section of the same exemplary embodiment of the invention formed along a section line A-A shown in FIG. 1. The description below refers to both figures.

The device 10 according to the invention for straightening the stack (not shown here) has the following elements and features:

In a worktop 11 of the device 10 is a horizontal conveyor 12 for transporting the stacks from an entry area 13, in a straightening area 14 and in an exit area 15. The horizontal conveyor 12 extends essentially parallel to the upwardly facing work surface 111 of the worktop 11 and consists of two parallel longitudinal conveyors 121 and 122 arranged parallel to each other. The support surface 123 of the horizontal conveyor 12 is arranged just above the work surface 111, so that the the stack lying on the horizontal conveyor 12 does not drag along the worktop 11 during transport via the entry region 13 into the straightening region 14 of the device 10.

Arranged in the exit region 15 of the horizontal conveyor 12 of the device 10 is a stack stop 16 which extends transversely to the conveying direction of the stack S and can be moved into the stack conveyor region. The stack stop 16 is pivotally mounted about an axis of rotation directed parallel to the conveying direction of the horizontal conveyor 12 and connected to a drive means 17 via a rotating arm 18. Thus, the stack stop 16 can be simply pivoted into the stack conveying area by the drive means 17.

Two stop plates 19 and 20 are provided to the side of the straightening region 14 of the stack, both of which are designed as vibrator plates. Each stop plate 19 and 20 for the stack has a vibrator drive 21 and 22. The stop plates 19 and 20 are each designed to be pivotable about a vertically directed axis and are connected to a swivel drive 23 or 24 via a rotary arm 25 or 26 and a parallel guide 27 or 28. In With respect to the center line of the two individual longitudinal conveyors 121 and 122, the pivotable stop plates 19 and 20 are arranged on the worktop 11 in mirror symmetry.

The stop plates 19 and 20 are pivoted by this arrangement parallel to the side surfaces of the stack S, at the same time to each other for alignment. After the alignment process, the stop plates 19 and 20 come loose from the side surfaces of the stack. In this way, the stack is released for removal from the straightening area 14. Furthermore, the stop plates 19 and 20 can be easily adapted to different stack widths due to their design and arrangement. The stop plates 19 and 20 are simply moved according to the stack size.

A further stop plate 29 is provided in the entry area 13 of the stack. This is also designed as a vibrator plate with a vibrator drive 30, a rotating arm 31 and a further drive means 32 corresponding to the stack stop 16. The stop plate 29 is in this case rotatably mounted about an axis which is oriented essentially parallel to the conveying direction and can thus be pivoted into the stack conveying region, corresponding to the stack stop 16. A rail 33 directed parallel to the conveying direction and assigned to the further drive means 32 enables the arrangement consisting of the further drive means 32, the rotating arm 31, the vibrator drive 30 and the stop plate 29 to be shifted in a latching manner around the rotation range of the pivotable, adjacent side stop plate 20 to restrict is Rail 33 embedded in the worktop 11 so that it is flush with the work surface 111.

On the one hand, due to the displaceability of the stop plate 29 in the conveying direction, it can be optimally arranged in accordance with the dimensions of the stack to be straightened for the straightening process to the stack. Furthermore, the accuracy of the stack is improved by this additional stop plate 29 designed as a vibrator plate. In particular, because from three sides the vibrating stop plates 19, 20 and 29 on the stack and the stack stop 16 generate strong vibratory movements of the foils forming the stack by counteracting them in relation to the forces occurring during alignment and thus ensure a favorable straightening of the stack.

In the straightening area 14, below the support surface 123 of the horizontal conveyor 12, between the individual longitudinal conveyors 121 and 122, a lifting means acting vertically upwards, consisting of a pneumatic lifting drive 34 and a lifting plate 35, is provided. The lifting plate 35 does not quite have the width of the distance between the two individual conveyors 121 and 122 from one another, so that the lifting plate 35 can be moved freely between the individual longitudinal conveyors 121 and 122 in the vertical direction.

In front of the side of the lifting plate 35 closest to the stack stop 16, a recess forming an access area 36, which is laterally delimited by the individual conveyors 121 and 122 of the horizontal conveyor 12, is provided for the gripper 37 having tines 37.

The access area 36 corresponds in its extension in the conveying direction, between the stack stop 16 and the lifting plate 35, at least to the length of the prongs 37 of the gripper. The tines 37 are shown in broken lines here and the recess forming the access area 36 extends from the lifting plate 35 in the conveying direction to the edge area of the worktop 11. As a result, after the stack stop 16 has been pivoted away, the gripper can be guided into the access area 36 and the stack seize.

To the side of the entry area 13 on the worktop 11 there is a guide bar 38 which extends vertically upward from the worktop 11. On this, a press plate 40 is mounted on a lever arm 41 so that it can be moved in the vertical direction via a further drive means 39. The pressing plate 40 is assigned to the vertical axis of movement of the lifting plate 35, the further drive means 39 and the lifting drive 34 being designed in coordinated movements, holding the stack so that they can be moved upwards.

The device 10 is distinguished by the different possibilities for transporting the directed stack from the straightening area 14. Therefore, with regard to the subsequent machines, automatic palletizers or corresponding devices, the device 10 has an adaptability of the process heights or access areas required by these different devices and thus a high degree of flexibility.

When aligning the stack, it is first moved by the horizontal conveyor 12 via the entry region 13 into the straightening region 14 until the stack touches the stack stop 16. Switching off the horizontal conveyor 12 is ensured by a sensor provided there, not shown here. The side stop plates 19 and 20 and the further stop plate 29 are pivoted towards the stack. By vibrating the stop plates 19, 20 and 29, holding the stack stop 16 against it and by the pressure from the pressing plate 40, which has meanwhile been lowered from above onto the stack, the stack is aligned and compressed into a stable state. Subsequent pivoting of the side stop plates 19 and 20 laterally clears the stack for the further movements.

The stack is now transported in different processes that are optimized for further use.

On the one hand, the stack stop 16 and the further stop plate 29 fold back. The press plate 40 is moved upward, so that the stack is transported further in the conveying direction by the horizontal conveyor 12 and / or is gripped at its end by the gripper for further transport. The head of the stack 14 moving on the horizontal conveyor 12 is favorable for the further process. In this case, height adjustment is not necessary.

In another method, the stack is lifted out of the stack stop 16 after the end of the stack stop Straightening area 14 removed by the gripper with the release of the press plate 40. In this case, the further stop plate 29 is provided as a stack stop for the forces acting against the conveying direction of the horizontal conveyor during the gripping process. During the gripping process, the gripper is guided into the recess forming the access area 36 in front of the lifting plate 35, so that the gripper can grip the stack and move it.

However, the stack can also be gripped by the gripper above the straightening area 14 if height compensation is favorable for further handling. The stack is moved vertically in a coordinated movement of lifting plate 35 and pressing plate 40 beyond the straightening area 14. The gripper now approaches the stack against the conveying direction until the stack strikes a stop means of the gripper. The tines 37 are arranged completely under or above the stack during the gripping process and take hold of the latter when the pressing plate 40 is released. The stack stop 16 does not have to be moved in this process variant, but the further stop plate 29, on the other hand, is used for receiving the next stack pivoted out of the funding area. Advantageously, a height compensation necessary for moving the stack into the following machine or by the following palletizing machine can already be achieved in a simple and speed-optimized manner by the lifting movement of the lifting plate 35 and the pressing plate 40.

In a further exemplary embodiment of the invention, not shown here, are in the straightening area 14 in the worktop 11 air nozzles are provided for lifting the stack just above the support surface 123 of the horizontal conveyor 12. In the exemplary embodiment shown in the figures, the lifting of the stack is done by the lifting plate 35 in order to avoid damaging the bottom film of the stack due to the profiled contact surface 123 of the horizontal conveyor 12.

A separating device (not shown here) for the continuously following stacks is provided in front of the entry area 13, so that the stacks in the straightening area 14 are prevented from opening up from the outset. The control of the separating device is coupled to the processes of the device 10 and the horizontal conveyor. This advantageously enables a continuous loading of the device with stacks.

The embodiment of the invention is not limited to the preferred exemplary embodiment specified above. Rather, a number of variants are conceivable which make use of the solution shown, even in the case of fundamentally different types.

Claims (14)

Device for straightening a stack, in particular consisting of several foils, the device having the following features: a horizontal conveyor for transporting the stacks from an entry area via a straightening area to an exit area, a stack stop which extends transversely to the conveying direction of the stack and is arranged in the outlet region and movable in the stack conveying region, two stop plates arranged to the side of the stack, at least one of which is designed as a vibrator plate, and each have a vibrator drive for a vibrator plate, characterized by a support surface for the stack, a pressure means which can be lowered vertically from above onto the stack, the pressure means and the support surface being guided relative to one another in a common, preferably vertical, axial direction and the pressure or support surface being smaller than the respective stack cover surface, and an access area (36) free at least from one side above and below the aligned stack arranged between the pressing means and the support surface for a gripper having tines, so that the aligned stack can be gripped freely from a direction directed perpendicular to the axis direction. Apparatus according to claim 1, characterized in that recesses in the support plane of the stack form the access area (36) for the gripper below the stack. Apparatus according to claim 2, characterized in that the recesses in the supporting plane of the stack extend essentially horizontally against the conveying direction, so that in particular the gripper can grip the stack in the straightening region (14) against the conveying direction. Device according to one of the preceding claims, characterized in that the pressure means is formed as a viable from above to which present in the target area (14) press plate stack (40). Device according to one of the preceding claims, characterized in that the bearing surface is designed as part of a lifting plate (35) which can be moved vertically upwards and is adapted to the access area below the stack. Apparatus according to claim 5, characterized in that the lifting plate (35) with its lifting drive (34) has a stroke which exceeds the straightening region (14). Device according to one of claims 5 and 6, characterized in that the pressing plate (40) is designed to be movable upwards by a coordinated movement with the lifting height of the lifting plate (35). Device according to one of claims 1 to 5, characterized in that the straightening area (14), the exit area (15) and thus the position in which the stack is gripped by the gripper correspond to one another. Device according to one of the preceding claims, characterized in that a further stop plate (29) is arranged on the opposite with respect to the stack stop (16) side of the stack for the act of directing, said additional abutment plate (29) movable in the conveying region is trained. Apparatus according to claim 9, characterized in that the further stop plate (29) is designed to be pivotable about an axis of rotation extending parallel to the conveying direction. Device according to one of claims 9 and 10, characterized in that the further stop plate (29) is designed as a vibrator plate with a vibrator drive (30), this vibrator drive (30) being movable with the further stop plate (29). Device according to one of the preceding claims, characterized in that the lateral stop plates (19, 20) are mounted pivotably about a vertically directed axis. Device according to one of the preceding claims, characterized in that the carrying plane of the conveyor air nozzles are arranged for lifting the stack during straightening in the straightening region (14). Device according to one of the preceding claims, characterized in that a separating device is provided for continuously following stack before Entrittsbereich (13) so that an emergence of the stack in the aligning area (14) prevents becomes.

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